AM AND 3D PRINTING MACHINES
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WELCOME... ...to the TCT AM and 3D Printing Machine Buyers’ Guide for 2019. I’m writing this hot on the heels of the largest TCT Show we’ve ever put on, there were hundreds of machines on display for the thousands of visitors, and the overall feeling was one of momentum. While most exhibitors talked about the quality of conversations, this level of expertise can be quite intimidating for some. On day three of TCT Show, a gentleman approached me in the organiser’s office and said: “I’ve walked around the show, and I want to buy a 3D printer, but I don’t know where to start.” Considering that the cheapest printer on the show floor costs less than an XBox and the most expensive is considerably more than the average UK house, it’s easy to see how one could become bewildered. The 3D technologies industry is moving at the pace of a Bullet Train, and those in the driving seat need to ensure they make all the stops allowing everyone to get on board. This guide should act like a train timetable; you know where you want to be, now you need to know how to get there. The enclosed information, like material choices, build speeds and dimensions, is just the start of your journey. TCT is all about accelerating 3D technologies, and the buyers’ guide will ensure you’re not left on the platform waiting for the replacement bus service. Druck on DANIEL O’CONNOR, HEAD OF CONTENT
WWW.3DSYSTEMS.COM
Satelite bracket produced on a DMP Flex 350 for Thales Alenia Space
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3D Systems is the originator of 3D printing and an innovator of future 3D solutions. It has spent its 30-year history enabling professionals and companies to optimize their designs, transform their workflows, bring groundbreaking products to market and drive new business models. This is achieved with the Company’s best of breed digital manufacturing ecosystem. It’s comprised of plastic and metal 3D printers, print materials, on demand manufacturing services and end-to-end manufacturing software solutions. Combinations of these products and services address a variety of advanced applications- ranging from Aerospace, Automotive, and Consumer Goods to Medical, Dental, and Jewelry. For example, 3D Systems’ precision healthcare capabilities include simulation, Virtual Surgical Planning, and printing of medical and dental devices as well as patient-specific surgical instruments. FOR MORE INFORMATION VISIT WWW.3DSYSTEMS.COM
Part printed with the ProJet MJP 2500 from 3D Systems
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Machine Name
Machine Size (mm; w x d x h)
Build Envelope (mm; w x d x h)
Build Materials
Layer Thickness
FabPro™ 1000 EntryLevel Industrial 3D Printer
430 x 430 x 612 mm
125 x 70 x 120 mm
FabPro Tough BLK, Proto GRY, JewelCast GRN, Elastic BLK and selected NextDent dental materials - UV Curable Plastics
0.03 to 0.1 mm
Figure 4™ Standalone 3D Printer
426 x 489 x 971 mm
124.8 x 70.2 x 196 mm
Figure 4 TOUGH-GRY 10, TOUGH-GRY 15, ELAST-BLK 10, JCAST-GRN 10 - UV Curable Plastics
0.02 to 0.1 mm
Figure 4™ Modular 3D Printer
Configuration dependent
124.8 x 70.2 x 346 mm
Figure 4 TOUGH-GRY 10, TOUGH-GRY 15, ELAST-BLK 10 - UV Curable Plastics
0.02 mm min.
Figure 4™ Production 3D Printer
Configuration dependent
124.8 x 70.2 x 346 mm
30+ UV curable materials
0.02 mm min.
NextDent™ 5100 Dental 3D Printer
426 x 489 x 971 mm
124.8 x 70.2 x 196 mm
Broad selection of NextDent dental materials UV curable Plastics
0.03 mm min.
ProJet® CJP 260Plus Color 3D Printer
740 x 790 x 1400 mm
236 x 185 x 127 mm
VisiJet® PXL™ - CMY colours
0.1 mm
ProJet® CJP 360 3D Printer
1220 x 790 x 1400 mm
203 x 254 x 203 mm
VisiJet® PXL™ - White (monochrome)
0.1 mm
ProJet® CJP 460Plus Color 3D Printer
1220 x 790 x 1400 mm
203 x 254 x 203 mm
VisiJet® PXL™ - CMY colours
0.1 mm
ProJet® CJP 660Pro Color 3D Printer
1930 x 810 x 1450 mm
254 x 381 x 203 mm
VisiJet® PXL™ - Full CMYK colours
0.1 mm
ProJet® CJP 860Pro Color 3D Printer
1190 x 1160 x 1620 mm
508 x 381 x 229 mm
VisiJet® PXL™ - Full CMYK colours
0.1 mm
ProJet® MJP 2500 Plastic 3D Printer
1120 x 740 x 1070 mm
294 x 211 x 144 mm
VisiJet® ProFlex M2G-DUR engineering plastic VisiJet M2R-WT, M2R-BK rigid plastics
32 μ
ProJet® MJP 2500 Plus Plastic 3D Printer
1120 x 740 x 1070 mm
294 x 211 x 144 mm
VisiJet® ProFlex M2G-DUR, Armor M2G-CL engineering plastics VisiJet M2R-WT, M2R-BK, M2R-CL, M2R-GRY, M2R-TN rigid plastics VisiJet M2 EBK, M2 ENT elastomeric materials
32 μ
SLA part in Accura Phoenix material from 3D Systems
Machine Name
Machine Size (mm; w x d x h)
Build Envelope (mm; w x d x h)
Build Materials
Layer Thickness
ProJet® MJP 2500W RealWax™ 3D Printer
1120 x 740 x 1070 mm
294 x 211 x 144 mm
VisiJet® M2 CAST - wax material
16μ
ProJet® MJP 2500 IC RealWax™ 3D Printer
1120 x 740 x 1070 mm
294 x 211 x 144 mm
VisiJet® M2 ICast - wax material
42μ
ProJet® MJP 3600 Plastic 3D Printer
749 x 1194 x 1511 mm
Up to 298 x 185 x 203 mm
VisiJet® M3-X, Black, Crystal, Proplast, Navy, Techplast, Procast - UV Curable Plastics
16μ to 32μ
ProJet® MJP 3600 Max Plastic 3D Printer
749 x 1194 x 1511 mm
Up to 298 x 185 x 203 mm
VisiJet® M3-X, Black, Crystal, Proplast, Navy, Techplast, Procast - UV Curable Plastics
16μ to 32μ
ProJet® MJP 3600W RealWax™ 3D Printer
749 x 1194 x 1511 mm
Up to 298 x 183 x 203 mm
VisiJet® M3 CAST, M3 Hi-Cast - Wax material
16μ to 32μ
ProJet® MJP 3600W Max RealWax™ 3D Printer
749 x 1194 x 1511 mm
Up to 298 x 183 x 203 mm
VisiJet® M3 CAST, M3 Hi-Cast - Wax material
16μ to 32μ
ProJet® MJP 3600 Dental 3D Printer
749 x 1194 x 1511 mm
284 x 185 x 203 mm
VisiJet® M3 Dentcast, PearlStone, Stoneplast Dental UV curable plastics
29μ to 32μ
ProJet® MJP 5600 Multi-Material 3D Printer
1700 x 900 x 1620 mm
518 x 381 x 300 mm
VisiJet® CR-CL 200, CR-WT 200, CR-BK; CEBK, CE-NT Composite Multi-Material Printing
13μ to 16μ
ProJet® 6000 HD SLA 3D Printer
787 x 737 x 1829 mm
Up to 250 x 250 x 250 mm
Accura® 25, Xtreme, Xtreme White 200, ABS Black, ClearVue, 48HTR, Phoenix, Sapphire, e-Stone™
0.025 to 0.125 mm
ProJet® 7000 HD SLA 3D Printer
984 x 854 x 1829 mm
Up to 380 x 380 x 250 mm
Accura® 25, Xtreme, Xtreme White 200, ABS Black, ClearVue, 48HTR, Phoenix, Sapphire, e-Stone™
0.050 to 0.125 mm
ProX® 800 SLA 3D Printer
1370 x 1600 x 2260 mm
Up to 650 x 750 x 550 mm
Accura® plastics and composites (widest range, simulating ABS, PP and PC, high temp., for casting patterns and other specialty materials)
0.05 to 0.15 mm
ProX® 950 SLA 3D Printer
2200 x 1600 x 2260 mm
1500 x 750 x 550 mm
Accura® plastics and composites (widest range, simulating ABS, PP and PC, high temp., for casting patterns and other specialty materials)
0.05 to 0.15 mm
ProX® SLS 6100 3D Printer
1740 x 1230 x 2300 mm
381 x 330 x 460 mm
DuraForm® ProX PA, ProX GF, ProX EX BLK, ProX HST, ProX AF+, ProX FR1200 (powders)
0.08 to 0.15 mm
sPro™ 60 HD-HS SLS 3D Printer
1750 x 1270 x 2130 mm
381 x 330 x 460 mm
DuraForm® plastics, elastomers and composites, CastForm PS (powders)
0.08 to 0.15 mm
sPro™ 140 SLS 3D Printer
2130 x 1630 x 2410 mm
550 x 550 x 460 mm
DuraForm® plastics and composites (powders)
0.08 to 0.15 mm
sPro™ 230 SLS 3D Printer
2510 x 2080 x 2740 mm
550 x 550 x 750 mm
DuraForm® plastics and composites (powders)
0.08 to 0.15 mm
DMP Flex 100 Metal 3D Printer
1200 x 770 x 1950 mm
100 x 100 x 100 mm
Ready-to-run LaserForm CoCr (B) and (C) and 17-4PH (B) materials. Custom parameter sets available.
10 μm - 100 μm Preset: 30 μm
ProX® DMP 200 Metal 3D Printer
1200 x 1500 x 1950 mm
140 x 140 x 125 mm
Wide choice of ready-to-run LaserForm CoCr’s, titanium alloy, nickel alloy and stainless steels. Custom parameter sets available.
10 μm - 100 μm Preset: 30 μm
ProX® DMP 300 Metal 3D Printer
2400 x 2200 x 2400 mm
250 x 250 x 330 mm
Wide choice of ready-to-run LaserForm CoCr’s, titanium alloy, nickel alloy and stainless steels. Custom parameter sets available.
10 μm - 100 μm Preset: 40 μm
DMP Flex 350 and DMP Factory 350 Metal 3D Printers
2350 x 2300 x 2300 mm
275 x 275 x 420 mm
Wide choice of ready-to-run metal alloys with extensively developed print parameters, including LaserForm Ti Gr. 1, 5 and 23, Ni alloys, Al alloys, maraging steel, CoCr alloy and stainless steels. Custom parameter sets available.
10 μm - 100 μm Preset: 30 and 60 μm
DMP Factory 500 Metal 3D Printer
3010 x 2290 x 2820 mm
500 x 500 x 500 mm
Wide choice of ready-to-run metal alloys with extensively developed print parameters, including LaserForm Ti Gr. 1, 5 and 23, Ni alloys, Al alloys, maraging steel, CoCr alloy and stainless steels. Custom parameter sets available.
2 μm - 200 μm, Preset: 30, 60 and 90 μm
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WWW.HYBRIDAMSYSTEMS.COM
The HMS434 is your all-in one machine for in-house industrial Fused Deposition 3D printing A production floor 3D system with a build volume of 400x300x400mm, up to 4 toolheads and conditioned build chamber. For users who need quick response manufacturing of performance parts with advanced materials. Not only thermoplastics but also viscous materials, like LSR or fluids can be processed. Just like embedding RFID tags, nuts or magnets.
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Exceptional ROI due to low initial investment and operating costs. Reducing production costs up to 80% and improving your lead times with more than 50%.
The HMS434 is modular expandable with other 3D functions like drilling or Pick&Place to embed IoT Chips. For hybrid 3D manufacturing of productiongrade parts, manufacturing tools and prototypes. Toolchanger and Pick & Place upgrades available in Q2 2019. INDUSTRIAL QUALITY With 10 years of experience in building professional 3D printers, Hybrid AM Systems developed the HMS434 with proven industrial grade technology and with health&safety in mind. CONTACT WWW.HYBRIDAMSYSTEMS.COM SALES@HYBRIDAMSYSTEMS.COM
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ENCLOSED BUILD CHAMBER Temperature controlled build chamber with fume extraction and watercooled extruders. A must have for processing engineering grade materials. MATERIALS MANAGEMENT Material vendor independent system. Material management and storage in humidity controlled enclosure. EASE OF USE With the large front door window, 22 inch touchscreen, LED illuminated production area, online control and operation, the professional 3D printing operator will find the HMS434 one of the most easy to use and versatile systems.
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SUPPORT, SERVICE AND EXPERTISE We offer service for installation, technical support, training and production assistance.
Machine Name
HMS434
Machine Size (mm)
850x 810 x 1760
Build Volume (mm)
400 x 300 x 400
Materials
Grade thermoplastics like copolymers, composites, urethane’s and elastomers. Viscous materials like LSR. Embedded components like RFID tags, nuts and magnets.
Build Speed
200+ mm/sec, 700mm/sec travel
WWW.ADDITIVEINDUSTRIES.COM
ADDITIVE INDUSTRIES: INDUSTRIAL METAL ADDITIVE MANUFACTURING SYSTEMS
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Additive Industries has industrialized metal additive manufacturing for functional parts. The modular 3D printing system, MetalFAB1, has substantially improved reproducibility, productivity, and flexibility. Additive Industries redefines the business case for series production of additive manufacturing applications in aerospace, automotive, medical technology and high-tech equipment. Additive industries is headquartered in the Netherlands and has Process & Application Development Centers in California (USA), close to the demanding aerospace cluster south of Los Angeles, Bristol (UK, to open in 2019) and Singapore (2018 Q4). Among its customers are leading companies like Airbus, BMW, GKN and the Sauber F1 Team.
THE METALFAB1 METAL LASER POWDER BED FUSION SYSTEM MODULAR, SCALABLE, OPEN SYSTEM Do you want to print large parts with one or more materials? For small series or larger production? Do you need specific post- processing functions? The modular MetalFAB1 architecture ensures maximum flexibility and allows configurations from 2 to 11 modules. When your capacity need increases, add more modules in the future. You can optimize the print parameter settings of the MetalFAB1 for specific part qualification. LOWEST COST PER PART The MetalFAB1 has automated the manual steps of conventional printers to ensure highest productivity, resulting in the lowest total cost per printed part. The fully automated process reduces human errors and increases reproducibility. Please contact us if you want us to calculate your cost per part! HIGHEST QUALITY ASSURED For industrial-quality production, the part reproducibility of the MetalFAB1 is assured through solid machine design in combination with advanced laser calibration technology. Predictability is achieved by combining part build simulation, scripted process controls and in-process quality monitoring. CUSTOMERS ARE OUR PARTNERS Additive Industries offers World Class Service to maximize the MetalFAB1’s
overall equipment efficiency. A continuous open dialogue with our customers feeds the technology roadmap for continuous improvement.
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Machine Name
Machine Size (mm)
MetalFAB1
Starting from 2900 x 1900 x 2200 (width x depth x height), depending on the configurations
Build Volume (mm)
420 x420 x400 (width x depth x height)
Build Materials Titanium (Ti6Al4V), Aluminum (AlSi10Mg), Stainless Steel (316L), Inconel (IN718), ScalmAlloy, Tool Steel( 1.2709). Maximum 4 materials are possible in one system, 1 per AM Core
Build Speed
60 -120 [ccm/h]
WWW.ADDUPSOLUTIONS.COM
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AddUp is a joint venture (JV) between Michelin and Fives offering integrated solutions for the industrialization of metal Additive Manufacturing (AM machines & production workshops), leveraging both groups’ extensive experience and capabilities: in particular, MICHELIN’s unique hands-on experience in the development and day-to-day operations of 3D metal printers and FIVES Group engineering know-how in the design, manufacture and assembly of reliable and robust machines and systems.
Beyond the supply of (top performing) additive machines for metal, AddUp provides training and technology acceleration support to its customers, and assist them in envisioning suitable parts and assemblies that could benefit most from combining design optimization and the (unique) capabilities of AM. And possibly, in a phased introduction, fabricate test parts toward establishing a proof-of-concept.
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013 Machine Name
FormUpÂŽ 350
Machine Size in mm
Production Modul: 2,100 x 1,900 x 2,400 mm Fluid Modul: 2,100 x 1,000 x 2,400 mm
Build Volume in mm
Materials
Build Speed
Powder-bed materials: Stainless steels: 316L (1.4404) Grade Effective Production Volume: 350 x 350 x 350 mm
Maraging steels: 18Ni300 (1.2709) Grade Nickel alloys: Inconel 718 and 625 Grades Titanium alloys: Ti6A4V Grade Aluminum alloys: AlSi10Mg Grade
10m/s maximun
WWW.ARBURG.COM
A REVOLUTIONARY STEP IN ADDITIVE MANUFACTURING The German family-owned company ARBURG is one of the world‘s leading manufacturers of plastic processing machines. As well as ALLROUNDER injection moulding machines, its portfolio includes the freeformer and ARBURG Plastic Freeforming (APF), both of which were developed inhouse. This open system, which operates on the basis of standard granulates, has become very well established on the market.
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At the formnext 2018 in Frankfurt, ARBURG is taking the next revolutionary step in plastic freeforming with a world premiere: the new freeformer 300-3X enables the processing of three components to produce resilient and complex functional parts in a hard/soft combination. This is unique to date within the industry.
The APF process is suitable for the additive manufacturing of prototypes and industrial functional components in particular. With the tried-andtested freeformer 200-3X for two components and the new freeformer 300-3X for three components, ARBURG covers a wide range of applications. Custom-made plastic parts for consumer goods, medical implants and spare parts made from the original material are only three of the many areas for which the Freeformer is predestined. The open system offers great material freedom. Users can use their own original materials and optimise droplet size as well as process regulation. The ARBURG material database documents qualified standard granulates such as ABS (Terluran GP 35), PA10 (Grilamid TR XE 4010), PC (Makrolon 2805), TPE-U (Elastollan C78 A15) and PP (Braskem CP 393). It also includes special plastics for particular applications such as medical-grade PLLA (Purasorb PL18) and a PC approved
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for aerospace use (Lexan 940), for example. The range of qualified materials is continuously being expanded. Compared to the proven freeformer 200-3X, the new machine features three discharge units and an enlarged build chamber, which offers more space for larger parts and small batches. The build chamber door can be opened and closed automatically, enabling the automation of additive manufacturing. The heated build chamber now only has to be opened for part removal, as the nozzles and feed hopper are independently accessible. In the ARBURG Prototyping Center (APC) at the German headquarters in Lossburg alone, seven Freeformers produce benchmark parts for prospective customers. Further Freeformers are used for the same purpose at the company‘s subsidiaries throughout the world. Each machine processes a different plastic granulate. Preliminary trials can be conducted to determine whether the Freeformer is actually suitable for the desired part, material and application. The findings obtained by the APF experts and the data sets optimised at the Prototyping Center benefit all of our customers.
Machine Name
freeformer 200-3X
freeformer 300-3X
Discharge Unit
Build Volume (mm)
2
154 x 134 x 230 (x, y, z) max. mm
2-3
234 x 134 x 230 (x, y, z) max. mm
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Build Materials
AKF (alternativ: “The Freeformer”) is an open system, that offers great freedom in terms of materials. It is based on qualified original plastics in the form of standard granulates (ggf. zusätzlich: “, e.g. ABS, PA10, PC, PP, TPE, PMMA”).
Max Melting temperature in the plasticise cylinder
max. 350 C°
Max. build chamber temperature
Support Material
120 °C
Armat 11 (water soluble) Armat 21 (alkaline soluble)
WWW.AURORALABS3D.COM
Aurora Labs Ltd is an industrial technology and innovation company that specialises in the development of 3D metal printers, powders, digital parts and their associated intellectual property.
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Aurora Labs are creating an additive manufacturing ecosystem focused on quality & reliability. Aurora Labs are developing revolutionary, industrial grade, very high speed, large format 3D metal printers, powder manufacturing and software for digital rights management with integrated certification, that can be used for large-scale industrial manufacturing on a costeffective basis. Aurora Labs also produce the S-Titanium Pro, one of the most versatile and affordable metal printers available. HIGH SPEED PRINTERS Aurora Labs are developing the fastest direct metal 3D printers in the world. Aurora Labs are working on what will be the world’s largest metal powder bed fusion 3D printer with an achievable build capacity in excess of 1000kg per 24 hours. Speed is one of the largest barriers to metal additive manufacturing replacing traditional manufacturing, Aurora Labs is building the solution.
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POWDER PRODUCTION Aurora Labs’ prototype Powder Production Unit has been designed with the intention of demonstrating the technology for producing very high-quality powders that are lower in cost compared to existing processes. Aurora Labs are targeting the capacity to produce up to 5000kg a day of high quality powders at a fraction of the cost of current market technologies. SOFTWARE Powerful ecosystem of software to manage designs and optimise their printing parameters.
CERTIFICATION Ability to download a certified part design, which will be monitored while it is printed to ensure it is within the guidelines for the part to be printed correctly, meaning that the end part can be independently certified for its purpose while it is being printed. Aurora Labs are currently working with DNV GL, a global
quality assurance and risk management company, to develop certification processes for parts to be used in marine, oil & gas and renewables applications, among others. ONLINE PARTS STORE Purchase vetted digital designs and download directly to the printer for manufacture. S-TITANIUM PRO The S-Titanium Pro is the world’s most affordable direct metal 3D printer. It is also one of the most versatile with a substantial build volume, opensource architecture, and 3 independently controllable powder hoppers which allows for the mixing of different metal powders in fully adjustable ratios. It is an ideal entry into metal printing and lends itself equally well to academia, research, rapid prototyping and short-run / bespoke manufacturing.
Machine Name
017
Machine Size (mm; w x d x h)
Build Volume (mm)
S-TITANIUM PRO 600mm wide x 700mm deep x 2484mm tall
200 x 200 x 250mm
Build Materials • • • • •
Titanium Stainless Steel Inconel Bronze Open source – try your own materials
Build Speed
Max 125mm/sec
RMP1 enquiries@auroralabs3d.com
Projected at 300kg per 24 hours
WWW.BIGREP.COM
BIGREP DEVELOPS THE WORLD’S LARGEST SERIAL PRODUCTION 3D PRINTERS, CREATING THE INDUSTRY BENCHMARK FOR LARGESCALE PRINTING WITH THE AIM TO RESHAPE MANUFACTURING.
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Its award-winning, Germanengineered machines, including the STUDIO and ONE, are establishing new standards in speed, reliability and efficiency. BigRep’s printers are the preferred choice of engineers, designers and manufacturers at leading companies in the industrial, automotive and aerospace sectors. Through collaborations with its strategic partners - including Bosch, Etihad Airways and Deutsche Bahn - and key investors - including BASF, Koehler, Klöckner and Körber - BigRep continues to develop complete solutions for integrated additive manufacturing systems, as well as a wide range of printing materials on an opensource basis. Founded in 2014, BigRep is headquartered in Berlin with offices in New York, Boston and Singapore. Leading the way in one of the world’s key technologies, our multinational engineering teams are highly trained, interdisciplinary and customer-focused
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Machine Name
Machine Size (mm; w x d x h)
Build Volume (mm)
Build Materials
Build Speed
x 1005 y 1005 z 1005 (mm)
BigRep PLA, BigRep PRO HT, BigRep PRO HS, BigRep PETG. Other filaments on request.
Up to 100 mm/s at a 0.2 mm layer height
x500 y1000 z500 (mm)
BigRep PLA, BigRep PRO HT, BigRep PRO HS, BigRep PETG. Flexible materials to be released soon
Up to 140 mm/s at 0.1 mm layer height
BIGREP ONE x 1850 y 2250 z 1725 (mm)
BIGREP STUDIO x 1693 y1056 z1506 (mm)
Check out BigRep’s Next Generation of 3D printers at: WWW.BIGREP.COM/NEXTGEN
WWW.CUBICURE.COM
Additive manufacturing as an industrial production tool of polymer parts requires outstanding precision and surface quality of the printed objects in combination with good mechanical and thermal material properties.
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The aim of Cubicure, an innovative spin-off of TU Wien, is the additive manufacturing of polymer parts with outstanding material properties while at the same time, having the highest possible surface quality. Thus, printing fully functional polymer parts for industrial applications and objects of daily life comparable with parts produced by injection molding.
Since 2017 Cubicure offers its 3D-printing plant Caligma 200 and associated materials in the market.
Cubicure developed the Hot Lithography, a technology which is based on Stereolithography and allows the processing of high-performance photopolymers in an outstanding precision. It’s core technology is a specially developed and heated coating mechanism which is capable of processing resins and pastes of the highest viscosity at operating temperatures up to 120°C.
The Caligma 200 is optimized to process highly viscous resins and pastes. The maximum processable viscosity is about 20 Pa.s at operating temperature.
During development the machine design focused on the combination of flexibility of usable materials and the greatest possible process safety.
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The Caligma 200 production plant incorporates a high-end laser light engine for the finest manufacturing precision. The printer comes with predefined process parameters for Cubicure’s standard materials. This ensures easy operation for the customer and reproduceable printing results. Depending on the size of parts the printer allows the production of functional prototypes with a low lot size which is mainly used to speed up product development processes and consequently reducing the time to market, or especially for small parts, also a series production of several hundreds or even thousands of end-product parts.
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With this unique combination of material and process, it is possible to produce photopolymer-based plastic components which allow applications in industrial and technical environments.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Layer Thickness
Build Speed
Caligma 200 (laser λ = 405 nm)
1960 x 1220 x 660 (H x W x D)
200x100x300 (xyz)
Cubicure photopolymers (high viscosity photopolymers)
10 - 100 µm
45 min – 3 hours / 10 mm
Caligma 200 UV (laser λ = 375 nm)
1960 x 1220 x 660 (H x W x D)
200x100x300 (xyz)
Cubicure photopolymers (high viscosity photopolymers)
10 - 100 µm
45 min – 3 hours / 10 mm
WWW.EOS.INFO/ Project Spartacus3D and DS Automobiles: individualized element for door handle, made of EOS Titanium Ti64 (Source: EOS)
EOS GMBH ELECTRO OPTICAL SYSTEMS
START YOUR INDUSTRIAL PRODUCTION NOW – WITH EOS 3D PRINTING TECHNOLOGY 022
With digitalization on the rise, industrial production is undergoing a fundamental change. One of the key drivers towards the digitalized factory of the future is industrial 3D printing. Additive manufacturing (AM) technology is now being used in serial manufacturing. EOS supports customers to start and scale up their industrial AM production right away. This technology has the potential to fundamentally change the industrial value chain, giving companies increased flexibility. Today’s established production chains are optimized for capacity, utilization and efficiency. At the same time, high commodity values are shipped across supply chains around the world. As part of a digitalized factory, AM provides greater flexibility and agility for intelligent production and supply chains. As such, the technology enables an increased adaptability to changing market demands and fluctuations.
EOS: WORLD-LEADING TECHNOLOGY FOR INDUSTRIAL 3D PRINTING EOS is the world’s leading technology supplier in the field of industrial 3D printing of metals and polymers. Founded in 1989, the company is independent and a pioneer for creating innovative solutions in the AM space. Its product portfolio of systems, materials, and process parameters give its customers competitive advantages in terms of product quality and the long-term economic sustainability of manufacturing processes. Customers benefit from EOS’s deep technical expertise in global service, applications engineering and consultancy.
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Like no other company, EOS masters the interplay between laser and powder. With its product portfolio, the company meets even the most demanding customer requirements in terms of efficiency, scalability, usability and process monitoring. The technology accelerates product development, production and consequently time-tomarket, permitting the production of customized, batch size-appropriate serial production.
The company currently has more than 1,200 employees worldwide. With more than 3,000 systems already installed, the family-owned company continues to lead the way towards a true paradigm shift in product design and manufacturing. EOS technology offers substantial benefits across industries, including aerospace, medical, automotive, special machine manufacturing, robotics, industry applications, tooling and rapid prototyping to name but a few. This decade will determine the champions of tomorrow. Be part of an AMbased transformation that does not have the historical limitations of conventional manufacturing. Enable your organization to introduce a radical new thinking in design and manufacturing. Start integrating both conventional and additive technologies into existing and future manufacturing environments to create the digital and smart factory of the future. The new additively manufactured valve block offers the same performance as the conventional - one. It is 35% lighter and built on an EOS M 290 with titanium alloy (source: Liebherr)
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EOS is your partner of choice for this exciting journey.
Project Daimler EvoBus: additively manufactured spare parts on demand, reducing costs for logistics and warehouses (source: EOS)
Machine Name
Machine Size (mm; w x d x h)
Build Volume (mm)
Build Materials
Plastic systems: more under http://www.eos.info/systems_solutions/plastic FORMIGA P 110 Velocis
1,320 x 1,067 x 2,204 mm (51.97 x 42.01 x 86.77 in)
200 x 250 x 330 mm (7.9 x 9.8 x 13 in)
Nylon 12: white, natural, black, glass-filled, aluminum-filled, economic optimized Nylon 11: natural & black Polypropylene (PP): unfilled PEBA: natural elastomeric polyamide
EOS P 396 1,840 x 1,175 x 2,100 mm (72.4 x 46.3 x 82.7 in): system incl. switchgear cabinet
340 x 340 x 600 mm (13.4 x 13.4. x 23.6 in)
Nylon 12: white, natural, black, glass-filled, aluminum-filled, carbon-fiber-filled, economic optimized, flame-retardant hal. & non-hal.; Nylon 11: natural & black; Polypropylene (PP): unfilled PEBA: unfilled elastomeric polyamide
2,250 x 1,550 x 2,100 mm (88.6 x 61 x 82.7 in)
700 x 380 x 580 mm (27.6 x 15 x 22.9 in)
Nylon 12: white, natural, black, glassfilled, aluminum-filled, carbon-fiber-filled, economic optimized, flame-retardant hal. & non-hal.; Nylon 11: natural & black;
2,250 x 1,550 x 2,100 mm (88.6 x 61 x 82.7 in)
700 x 380 x 560 mm (27.6 x 15 x 22 in)
PEEK: natural
2,500 x 1,300 x 2,190 mm (98.4 x 51.2 x 86.2 in)
700 x 380 x 380 mm (27.6 x 15 x 15 in)
PEKK: carbon fiber filled
3,400 x 2,100 x 2,100 mm (133.9 x 82.7 x 82.7 in)
500 x 330 x 400 mm (19.7 x 13 x 15.7 in)
Nylon 12 PEKK
EOS P 770
024 EOS P 800
EOS P 810
EOS P 500
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Machine Name
Machine Size (mm; w x d x h)
Build Volume (mm)
Build Materials
Metal systems/Direct Metal Laser Sintering (DMLS): more under http://www.eos.info/systems_solutions/metal EOS M 100
800 x 950 x 2250 mm (31 x 37 x 89 in)
Ă˜ 100 x 95 mm (Ă˜ 3.9 x 3.7 in) height, incl. build platform
Cobalt chrome (CE-certified, CE 0537) stainless steel, titanium, tungsten
2,500 x 1,300 x 2,190 mm (98.4 x 51.2 x 86.2 in)
250 x 250 x 325 mm (9.85 x 9.85 x 12.8 in)
Cobalt chrome, titanium, stainless steel, maraging steel, tool steel, Inconel, aluminium
5,221 x 2,680 mm x 2,340 mm (205.6 x 105.5 x 92.1 in)
300 x 300 x 400 mm (11.8 x 11.8 x 15.8 in) excluding build plate
Inconel, maraging steel, and further materials under development
4,181 mm x 1,613 mm x 2,355 mm (164.6 x 63.5 x 92.7 in)
400 x 400 x 400 mm (15.8 x 15.8 x 15.8 in) including build plate
Inconel, aluminum, titanium, tool steel
4,181 x 1,613 x 2,355 mm (164.6 x 63.5 x 92.7 in)
400 x 400 x 400 mm (15.8 x 15.8 x 15.8 in), including build plate
EOS M 290
EOS M 300-4
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EOS M 400
EOS M 400-4
Nickel alloys, maraging steels, stainless steel, aluminium, titanium
WWW.ENVISIONTEC.COM
EnvisionTEC is a leading global provider of professional-grade 3D printing solutions. Founded in 2002 with a simple goal: to make a better 3D printer, EnvisionTEC is now celebrating 15 years of realizing that goal. EnvisionTEC now sells more than 40 printers based on six distinct technologies that build objects from digital design files. The company’s premium 3D printers serve a variety of medical, professional and industrial markets, and are valued for precision, surface quality, functionality and speed. EnvisionTEC’s intellectual property includes more than
high-quality DLP projector. A vat of liquid photopolymer or resin is cured by this digital light source using voxel data with dimensions as small as 10µm x 10µm x 15µm in the X, Y, and Z directions. Newly added in 2017, the Perfactory family of 3D printers is now available with an LED light source, resulting in substantial operating cost savings and sharper details due to the improved range of brightness from the LEDs. Scan, Spin & Selectively Photocure (3SP): A laser uses a rapidly spinning mirror to selectively cure liquid resin into parts. This industrial solution is ideal for large parts and mass customization with accuracy and an unparalleled smooth surface finish that minimizes post-processing.
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100 pending and granted patents and 70 proprietary materials. Today, EnvisionTEC is a leading provider of 3D printers and materials. Every day, more manufacturers discover why EnvisionTEC 3D printers and materials are better as the company continues expanding into largerformat 3D printers, including robotic sandcasting 3D printers for foundries. Digital Light Processing (DLP): The Perfactory® system builds 3D objects using a
Continuous Digital Light Manufacturing (cDLM): An improvement to the DLP process that relies on continuous motion of the build plate to provide exceptionally fast builds, cDLM is quickly being adopted in the jewelry and dental fields.
Selective Lamination Composite Object Manufacturing (SLCOM): The SLCOM 1 processes a wide range of woven fibers pre-impregnanted with thermoplastics using an ultrasonic cutting blade to create large composite parts.
Bioprinting: Processing of biomaterial using air or mechanical pressure to a syringe, which can fabricate scaffolds using a wide variety of materials. The 3D-Bioplotter®, now in it’s fourth generation and available in three models, has been at the heart of research and development all over the globe.
Robotic Additive Manufacturing (RAM): Through an exclusive strategic partnership with Viridis3D, EnvisionTEC is leading the way with robotic 3D printing, initially using binder jetting technology for sand casting in the foundry industry. The RAM series now includes four models with a build capacity up to 5 square meters.
Machine Type
Machine Size
Build Volume in mm
Build Materials
Micro Plus Family
230 x 240 x 640 mm
45 x 28 x 100 mm 65 x 40 x 100 mm 120 x 74 x 85 mm
EnvisionTEC Perfactory Materials 2 buildstyles included
Micro Plus cDLM
230 x 240 x 640 mm
60 x 40 x 75 mm
EnvisionTEC cDLM Materials
Vida cDLM
395 x 350 x 787 mm
90 x 50 x 100 mm 63.3 x 35.6 x 100 mm 145 x 81.5 x 100 mm
EnvisionTEC cDLM Materials
Vida Family
395 x 350 x 787 mm
140 x 70 x 100 mm 96 x 54 x 100 mm 90 x 50 x 100 mm
EnvisionTEC Perfactory Materials 2 buildstyles included
Perfactory® Mini LED Family
730 x 480 x 1350 mm
38 x 24 x 230 mm 115 x 72 x 230 mm
EnvisionTEC Perfactory Materials
Perfactory® Standard LED Family
730 x 480 x 1350 mm
140 x 105 x 230 mm 192 x 120 x 170 mm
EnvisionTEC Perfactory Materials
ULTRA 3SP Family
740 x 760 x 1170 mm 910 x 910 x 152 mm
266 x 175 x 193 mm 266 x 175 x 76 mm 300 x 200 x 200 mm
EnvisionTEC 3SP Materials
Large Frame 3SP Family
1650 x 1220 x 1650 mm 1780 x 1900 x 1650 mm
254 x 362 x 330 mm 216 x 381 x 356 mm 254 x 362 x 102 mm 457 x 457 x 102 mm 457 x 457 x 457 mm
EnvisionTEC 3SP Materials
SLCOM 1
4076 x 2616 x 2372 mm
762 x 610 x 610 mm
Custom-made thermoplastic reinforced composite fibers
Scaleable setup
305 x 610 x 914 mm 610 x 610 x 1219 mm 610 x 914 x 828 mm 914 x 914 x 828 mm
Viridis modified Furan binder and catalyst with base sands for foundry casting
836 x 623 x 773 mm
150 x 150 x 140 mm
Open to all materials plus EnvisionTEC now offers a selection of research and medical grade options
RAM Family
Bioplotter Family
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WWW.EXONE.COM
BINDER JET 3D METAL PRINTING WITH MIM POWDERS – INNOVENT+ AVAILABLE NOW
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For over 20 years, ExOne has been a global leader in additive manufacturing providing 3D printing machines, 3D printed products and related services to customers in a variety of industries including pumps/valves, automotive, aerospace, energy, heavy equipment, and general industry. The ExOne process, which utilizes a binder jetting technology, selectively jets binder onto a powdered material bed and builds parts from a 3D CAD file layer by layer. ExOne’s corporate headquarters are in North Huntingdon, PA with manufacturing operations in the United States and Germany. Production service and adoption centers are located in the United States, Germany, and Japan.
THE KEY BENEFITS OF BINDER JETTING: 1. Higher volumetric output versus alternative AM technologies 2. Scalability of process to high production volumes 3. Widest variety of powder materials that can be printed 4. Diverse range of part sizes – small intricate MIM parts to large, multisegment sand castings THE KEY BENEFITS OF BINDER JETTING FOR DIRECT METAL OR CERAMIC PARTS: 1. Unmatched diversity of materials that can be printed (316L, 17-4PH, 304L, tungsten carbide-cobalt, tool steels, copper, and many more in development) 2 Printing of MIM powders enables material properties that meet or exceed MPIF standards that are known and proven in the industrial markets 3. Final part properties can be tailored to specific applications from high density aerospace components to lower density metal filters. Also suitable for metal matrix composites that can be used for high wear environments 4. Designs and production volumes that cannot be achieved with alternative AM or traditional production technologies 5. Low temperature process requires no support structures during printing or stress relieving after sintering 6. Most cost-effective metal AM solution
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Machine Name
Machine Size (mm; LxWxH)
Job Box (mm; LxWxH)
Volumetric Output (cm3/hr)
Materials
S-Max+™
3860 x 3470 x 2890
1800 x 1000 x 600
60,000 to 85,000
Casting Media: Silica Sand and Ceramic Sand
S-Max™
6900 x 3520 x 2860
1800 x 1000 x700
60,000 to 85,000
Casting Media: Silica Sand and Ceramic Sand
S-Print™
3270 x 2540 x 2860
800 x 500 x 400
20,000 to 36,000
Casting Media: Silica Sand and Ceramic Sand
2,400 to 3,600
420 and 316 Stainless Steel infiltrated- Other diverse materials in development - Powder size D50 >60 micron
400 to 1,800
420 and 316L Stainless Steel - high density or infiltrated, Alloy IN 625 high density, Bonded Tungsten - Other diverse materials in development - Powder size D50 >17 micron
62 to 187
316L, 17-4PH, 304L high density and MPIF standards along with other diverse materials in development including Tungsten Carbide with Cobalt, Inconel 718, and Tool Steels - Powder size D50>8 micron
M-Print™
M-Flex™
Innovent™
3270 x 2540 x 2860
1675 x 1400 x 1855
1203 x 887 x 1434
800 x 500 x 400
400 x 250 x 250
160 x 65 x 65
BINDER JET 3D SAND PRINTING WITH FOUNDRY SANDS FOR METAL CASTING APPLICATIONS THE KEY BENEFITS OF BINDER JETTING FOR SAND MOLDS AND CORES: 1. Foundry grade resins and materials that can easily be incorporated into traditional foundry processes 2. Eliminate pattern design and production 3. Eliminate multipiece core assembly 4. Intricate designs with lower draft angles 5. Fastest print layer speeds in the industry
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WWW.FARSOON.COM
Farsoon Technologies is a global solution provider of industrial grade plastic laser sintering and metal laser melting systems. We are committed to pushing the boundaries of additive manufacturing in both polymers and metals with our philosophy of “OPEN FOR INDUSTRY”, whereby maximizing our customer’s industrial applications and while significantly reducing their costs. Founded in 2009 by one of the true pioneers of laser sintering technology, Dr. Xu Xiaoshu, Farsoon has developed a team of world-class experts with competences in all aspects of additive manufacturing including machine, material, software, and applications.
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Having grown quickly since its founding Farsoon is now a market leader of AM technology in China with a rapidly growing presence in global markets. To support the growth of the additive industry Farsoon has established offices in both the United States and Germany. Dedicated to engaging with and supporting AM users, Farsoon Americas and Europe will offer direct and efficient interaction with Farsoon’s existing and future user base.
OUR VISION – OPEN FOR INDUSTRY Farsoon was founded with the clear vision of creating an OPEN system. By having open machine parameters as well as a open material strategy Farsoon gives users the freedom and control to take full advantage of additive technology. It is our core belief that the additive industry requires an open system to accelerate the transition into true manufacturing. LATEST DEVELOPMENT CONTINUOUS ADDITIVE MANUFACTURING SOLUTION With the Continuous Additive Manufacturing Solution (CAMS) Farsoon is a trendsetter for increasing competitiveness of additive manufacturing: · High productivity and large build envelope · Continuous operation and automation · Suitable for wide range of industrial relevant materials up to 220°C
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New: Continuous Additive Manufacturing Solution (CAMS)
A titanium front and rear suspension upright produced on Farsoon’s FS271M metal AM system.
POLYMER LASER SINTERING SYSTEMS Machine Name
403P SERIES (HT/SS, HS, FS)
Machine Size (mm: L x W x H)
Build Chamber (mm: X x Y x Z)
2470 x 1500 x 2145
400 x 400 x 450
Build Material (Open material platform) Chamber Temperature 280℃ (ST) FS8100PPS
Chamber Temperature 220℃ (ST,HT)
Scanning Speed Up to 15.2m/s
Ultrasint X043, Ultrasint X028
Chamber Temperature 190℃ (SS,HS,FS)
252P SERIES (HT, ST)
1735 x 1225 x 1975
250 x 250 x 320
eForm
1735 x 1225 x 1975
250 x 250 x 320
Machine Name
Machine Size (mm: L x W x H)
FS3300PA, FS3400GF, FS3400CF, FS3250MF, FS4100PA, FS1092A-TPU, FS1088A-TPU
Chamber Temperature 190℃
FS3300PA, FS3400GF, FS3400CF, FS3250MF, FS4100PA, FS1092A-TPU, FS1088A-TPU
Up to 10m/s
Up to 7.6m/s
METAL LASER SINTERING SYSTEMS Build Chamber (mm: X x Y x Z)
Build Material (Open material platform) •
FS271M
1750 x 1430 x 1860
275 x 275 x 320
FS121M
780 x 1000 x 1700
120 x 120 x 100
• • • • • •
Stainless Steel 316 / 420 / 17-4PH / 155PH / 18Ni300 Inconel IN718 / IN625 / NiCr22Fe18Mo CoCrMo, CoCrMoW Ti6Al4V AlSi10Mg Cu90Sn10 Taitanum, Tungsten
• • •
Stainless Steel 316 / 17-4PH / CoCrMo, CoCrMoW Cu90Sn10
CONTACT CHINA / ASIA Farsoon Technologies | +86.731.8397.6198 | globalinfo@farsoon.com AMERICAS Farsoon Technologies - Americas |+1 (512) 387-7224 | info@farsoonam.com EMEA Farsoon Technologies - Europe | wehelpyou@farsoon-eu.com
VISIT OUR WEBSITE: WWW.FARSOON.COM
Scanning Speed
Up to 15.2m/s
Up to 15.2m/s
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WWW.FLUX3DP.COM
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FLUX was founded in March 2014 by a group of tech guys and designers who dreamed of making a 3D printer that is modular, elegant, and yet simple. In the same year, the team successfully raised $1.6 million from almost 2,500 Kickstarter backers all over the world with FLUX Delta, a modular 3D printer that combines laser engraving and drawing. FLUX Delta was met with an overwhelmingly positive response, being recognized by leading organizations and receiving a plethora of awards: CES Innovation Awards, iF Gold Award, and Red Dot design award. After shipping more than 3,000 units to worldwide customers, FLUX Inc. has grown substantially, building on a solid base of support and the determination of the FLUX team. In 2018, FLUX proudly presents its second revolutionary product, Beambox, the accessible desktop laser engraver and cutter. Beambox is a powerful laser cutter and engraver that lets you shape, cut, and engrave on materials like wood, leather, acrylic, and cardboard.
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Machine Name
Machine Size (mm)
Build Volume (mm)
Build Materials
Build Speed
FLUX Delta+
572x308x267
170mm diameter x 210mm height
PLA / TPE
up to 200mm/s
Beambox Laser Cutter
250x830x670 250x1030x670
400x375 600x375
Wood, leather, acrylic, cardboard, felt, rubber, paper, glass and more.
up to 300mm/s
Beambox comes in 2 models, Compact, and Pro. The Compact model uses a 40-watt laser tube and comes in a convenient size. It’s perfect for home and recreation use. The Pro model uses a high powered 50-watt laser tube and offers a spacious work area. It is designed for shared or all-day use. It’s perfect for business, school, makerspace, and more. Beambox’s innovative design makes it intuitive and simple, allowing users to use laser technology without all the fuss at an accessible price. Beambox ships with FLUX Studio, the user-friendly
yet powerful software that allows you to take full creative control. Beambox gives you everything you need to free your inner artist and bring your ideas to life.
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WWW.FUSION3DDESIGN.COM
Since its founding 2013, Fusion3 has delivered on its commitment to provide our business & educational customers with affordable, high-performance 3D printing solutions.
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034 Introduced in April 2018, our flagship 3D printer, the Fusion3 F410 provides industrial/professional 3D printing capabilities for only $4,599 USD. HIGH-PERFORMANCE 3D PRINTING Our customers, leaders in aerospace, manufacturing, and design, have demanding applications that require a combination of precision, speed, and reliability. Many 3D printers can meet one or maybe two of these requirements, but only Fusion3’s F410 3d printer delivers on all three, thanks to our unique technology and focus on throughput.
LARGE, ENCLOSED BUILD AREA The F410’s large (14”x14”x12.5”), enclosed print chamber and interchangeable print heads enable you to produce large parts, using high-temperature materials, at your desired speed and print quality, while maintaining class-leading accuracy. WIDEST VARIETY OF 3D PRINTABLE MATERIALS Unlike other 3D printer manufacturers who restrict the types of materials used with their machines, Fusion3’s testing & certification process ensures our customers can successfully print the widest variety of materials ‘out of the box’.
POWERFUL, YET EASY-TO-USE 3D printing sometimes seems more art than science. The F410 takes some of the guesswork out of producing excellent results by including features that make 3D printing easier, including auto bed leveling, powerful slicing software, and remote network management.
SAFETY & COMFORT Our enclosed design, unlike the open-frame consumer 3D printers, enhances safety & comfort in the workplace and schools. The F410 is the quietest 3D printer we’ve ever built. Our optional filter assembly connects to the F410’s exhaust port and houses two different 3D printer air filters for use in locations lacking adequate ventilation: a carbon filter to reduce unpleasant odors and a HEPA filter which captures some amount of potentially hazardous emissions. COMMITMENT TO MAXIMUM UPTIME Customers select Fusion3 3D printers for demanding, missioncritical applications and cannot afford downtime. Every Fusion3 3D printer is designed, assembled, and calibrated at our North Carolina, USA factory. In the unlikely event of an issue, Fusion3 provides the best warranty in the 3D printing (Two Years) and FREE lifetime technical service & support. To learn more about the F410, please visit: https://www.fusion3design.com or call +1-877-452-0010.
Machine Name
Fusion3 F410
Machine Size (mm)
724 x 775 x 648 mm
Build Volume (mm)
Build Materials
Build Speed
355 x 355 x 315 mm
Any printable plastic that melts <300*C including ABS, PLA, ASA, polycarbonate, PETG, flexibles, polyesters, nylons, ceramic & metal infused, Carbon Fiber & fiberglass infused.
250mm/ sec max print speed, 500mm/sec max travel speed
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WWW.GE.COM/ADDITIVE
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GE Additive is a world leader and pioneer in additive technology. As a result of being part of GE, a company with 20 years of experience in additive design and manufacturing, we know first-hand, how this technology can help transform businesses by improving products and manufacturing operations, as well as the potential to open up entirely new business models. We partner with a range of industries, from aerospace to energy, automotive to healthcare, guiding their additive journeys and supporting them with our knowledge and expertise. Additive manufacturing is rewriting the rules of manufacturing and GE Additive is leading the charge. BUILT TO BE YOUR FULL-SERVICE ADDITIVE PARTNER We are built to support your additive manufacturing journey in every way imaginable. We offer Arcam EBM and Concept Laser machines, AP&C Powders and advanced materials along with AddWorks™, our additive consulting team.
ARCAM EBM
AP&C POWDERS
Arcam EBM, is the inventor of Electronic Beam Melting (EBM) technology. EBM machines create dimensionally accurate parts quickly and efficiently by utilizing a high-power electron beam for high melting capacity and productivity. The EBM process takes place in a high temperature vacuum, resulting in stress-relieved components with material properties better than cast and comparable to wrought material.
AP&C is the world’s largest manufacturer of spherical titanium powder. As a specialized producer of spherical metal powders designed for additive manufacturing, AP&C offers quality powders designed for EBM, DMLM, Binderjet and Direct Energy Deposition processes.
CONCEPT LASER Concept Laser machines use Direct Metal Laser Melting (DMLM) technology. Lasers are utilized to melt layers of fine metal powder and create complex geometries with incredible precision directly from a CAD file. A wide range of available machine envelope sizes and innovative features set these machines apart. One such feature— Concept Laser’s patented technology—combines laser and melting to create highprecision, mechanically and thermally resilient metallic components layer by layer.
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ADVANCED MATERIALS Through Arcam EBM and Concept Laser, GE Additive offers a total solution for a selection of standard materials. We have a tested and validated powder supply chain with full traceability of every powder batch delivered. ADDWORKS™ Our designers, engineers and material scientist work with you to explore product solutions that help differentiate your parts or systems and provide significant performance benefits. We help to create solutions that are lighter, stronger and more efficient.
LEARN MORE AT GE.COM/ADDITIVE
Machine Name
Machine Size (d x w x h mm)
Build Volume (mm)
Build Materials
1335D x 2352W x 2851H
250 dia x 430H
Titanium alloy (TiAl6V4, Grade 5) Titanium Aluminide, Nickel-based alloy 718
4250 x 4300 x 3500 mm3 (W x D x H)
4250 x 4300 x 3500 mm3 (W x D x H)
4250 x 4300 x 3500 mm3 (W x D x H)
Arcam EBM Spectra H
Concept Laser M LINE FACTORY
Concept Laser M2 Multilaser
4250 x 4300 x 3500 mm3 (W x D x H)
500 x 500 x 400 mm3 (x, y, z)
CL 20ES CL 31AL CL 35AL* CL 41TI ELI CL 42TI CL 50WS CL 91RW
Stainless steel (316L/1.4404) Aluminium alloy (AlSi10Mg) Aluminium alloy (AlSi7Mg/F357) Titanium alloy (TiAl64V ELI) Pure Titanium Grade 2 Maraging steel (MS300/1.2709) Corrosion resistant precipitation hardening steel CL 92PH Precipitation hardening stainless steel (17-4 PH) CL 100NB Nickel-based alloy (Alloy 718) CL 101NB Nickel-based alloy (Alloy 625) CL 110CoCr* Cobalt-chromium alloy (F75) remanium star CL Cobalt-chromium alloy (by Dentaurum) rematitan CL Titanium alloy (by Dentaurum)
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WWW.GFMS.COM/EN/NEW-TECH
MEET THE AM FACTORY Scaling additive production demands 3D printing platforms that are carefully designed and tuned to meet those needs. The DMP Factory 500 offers manufacturers in aerospace, transportation, energy, motorsports and other high-tech industries increased productivity, part quality and process safety while significantly reducing Total Cost of Ownership (TCO) and facilitating seamless integration of metal AM technology into the entire manufacturing chain.
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The strategic partnership between 3D Systems and GF Machining Solutions combines 3D Systemsâ&#x20AC;&#x2122; additive manufacturing expertise with GF Machining Solutionsâ&#x20AC;&#x2122; conventional metal manufacturing expertise. The combined experience and expertise of the two companies, coupled with their global footprint, leaves the duo well positioned to redefine the metal manufacturing workflow. The companies deliver an optimized solution that allows for a seamless transition between additive and subtractive manufacturing. This will enable manufacturers to be more efficient by using workflows for advanced metals manufacturing.
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MODULAR CONCEPT FOR SCALABILITY The DMP Factory 500 is a scalable manufacturing solution comprised of function-specific modules designed to maximize efficiency by optimizing utilization. INTEGRATING AM WITH TRADITIONAL TECHNOLOGIES Automation of the AM process is a top priority, but GF Machining Solutions is also keenly developing solutions to seamlessly integrate AM technology into the complete metal manufacturing process chain.
Machine name:
THE VACUUM CHAMBER CONCEPT Printing in a vacuum chamber eliminates material waste and directly reduces TCO by protecting the powder from deterioration due to exposure to oxygen. 3DXPERTâ&#x201E;˘ This integrated software handles the entire spectrum of the AM workflow and enables intelligent seamless scanning via unique print strategies.
Dimension:
Build envelope:
Laser:
Materials:
3,010 x 2,290 x 2,820 mm
500 x 500 x 500 mm
3 x 500W
Nickel alloys, Titanium (others in development)
DMP Factory 500
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WWW.HP.COM/GO/3DPRINTING
The HP Jet Fusion 3D Printing Solution reinvents how you prototype and produce functional parts, delivering quality output, up to 10 times faster at half the cost. SUPERIOR, CONSISTENT QUALITY Get extreme dimensional accuracy and fine detail - truly functional parts with optimal mechanical properties - reliably and predictably. Access new future materials and applications with the HP Multi Jet Fusion Open Platform. BREAKTHROUGH PRODUCTIVITY
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Produce more parts per day with continuous printing and fast cooling and HP’s automated materials preparation and post-processing station. Enjoy a cleaner experience with an enclosed Processing Station and materials not classified as hazardous. LOWEST COST-PER-PART Achieve lowest cost-per-part, optimizing cost and quality, with cost-efficient materials that offer industry-leading reusability. Plan production times more accurately and predictably. HP Inc. creates technology that makes life better for everyone, everywhere. Through our portfolio of printers, PCs, mobile devices, solutions, and services,
we engineer experiences that amaze. HP Multi Jet Fusion 3D Printing technology is set to reinvent design and manufacturing, by unlocking the full potential of 3D printing. www.hp.com/ go/3DPrinting 1. Based on internal testing and simulation, HP Jet Fusion 3D Printing Solution average printing time is up to 10x faster than average printing time of comparable FDM & SLS printer solutions from $100,000 USD to $300,000 USD on market as of April 2016. Further information available at: www. hp.com/go/3DPrinting 2. Based on internal testing and public data, HP Jet Fusion 3D Printing Solution average printing cost-per-part is half the average cost of comparable FDM & SLS printer solutions from $100,000 USD to $300,000 USD on market as of April 2016. Further information available at: www.hp.com/go/3DPrinting 3. Based on dimensional accuracy of ±0.2 mm/0.008 inches, measured after sand blasting with HP 3D High Reusability PA 12 material. See hp.com/go/3Dmaterials for more information. 4. Based on the following mechanical properties: Tensile strength at 48 MPa (XYZ), Modulus at 1700-1800 MPa (XYZ). ASTM standard tests with HP 3D High Reusability PA 12 material. See hp.com/ go/3Dmaterials for more information.
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5. The term “cleaner”, does not refer to any indoor air quality requirements and/or consider related air quality regulations or testing that may be applicable. 6. HP Jet Fusion 3D print solution with HP 3D High Reusability PA 12 has the highest post-production surplus powder reusability with 80% reusability vs any other powder based 3D printing technology using PA 12 material. Consistent performance with only 20% powder refresh rate.
Machine Name
Machine Size in mm
Build Volume in mm
Build Materials
Build Speed
HP 3D High Reusability PA 12 HP Jet Fusion 3D 4200 Printer
2210 x 1200 x 1448 mm
380 x 284 x 380 mm
VESTOSINTÂŽ 3D Z2773 PA 11, Certified for HP Jet Fusion 3D Printers
4000 cmÂł/hr
For the latest info on new materials please visit: www.hp.com/go/3dmaterials
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WWW.MARKFORGED.COM
Markforged transforms manufacturing with the most affordable 3D printers capable of producing parts tough enough for the factory floor. Engineers, designers, and manufacturing professionals all over the world rely on Markforged metal and composite printers for tooling, fixtures, functional prototyping, and high-value end-use production. Founded in 2013 and based in Watertown, MA, Markforged has over 150 employees globally, with $57 million in both strategic and venture capital.
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TO LEARN MORE ABOUT MARKFORGED, PLEASE VISIT HTTP://MARKFORGED.COM
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Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
ONYX ONE
584 x 330 x 355
320 x 132 x 154
Onyx thermoplastic
ONYX PRO
584 x 330 x 355
320 x 132 x 154
Onyx thermoplastic, Fiberglass
MARK TWO
584 x 330 x 355
320 x 132 x 154
Onyx thermoplastic, Carbon fiber, Fiberglass, Kevlar, HSHT Fiberglass
X3
584 x 483 x 914
330 x 270 x 200
Onyx thermoplastic
X5
584 x 483 x 914
330 x 270 x 200
Onyx thermoplastic, Fiberglass
X7
584 x 483 x 914
330 x 270 x 200
Onyx thermoplastic, Carbon fiber, Fiberglass, Kevlar, HSHT Fiberglass
Metal X
575 x 467 x 1120
300 x 220 x 180
17-4 PH Stainless Steel with more to come
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WWW.MATSUURA.CO.UK
DO YOU HAVE A COMPONENT WHICH CANNOT BE MANUFACTURED CONVENTIONALLY, EITHER IN A VARIETY OF METALS OR PA11, PA12 AND PA12GB PLASTICS?
044
044
Ideal for one-off, prototype and full production rapid 3D plastics printing, HP Multi-Jet Fusion 3D printers are available and supported by Matsuura Machinery Ltd, alongside the Matsuura LUMEX hybrid 3D metal printer and CNC milling machine. Combining decades of knowledge and the latest innovation, these additive manufacturing solutions from Matsuura offer designers and manufacturers a route to designing what they can imagine, and not be limited by the restrictions of their current production methods, strategies and machines. Imagine what you can create. Create what you can imagine - with Matsuura Additive Manufacturing Solutions.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Build Speed
MATSUURA LUMEX AVANCE-25
3200 x 4800 x 2050mm
250 x 250 x 185 or 300 mm
Maraging Steel, Stainless Steel, Inconel, Titanium, Cobalt Chrome, Aluminium.
35cc/hr
MATSUURA LUMEX AVANCE-60
4700 x 5500 x 3000mm
600 x 600 x 500 mm
Maraging Steel, Stainless Steel, Inconel, Titanium, Cobalt Chrome, Aluminium
35cc/hr
HP MULTI-JET FUSION 4200 3D PRINTER
2210 x 1200 x 1448mm
380 x 380 x 284 mm
PA12, PA12GB and PA11
4115 cm3/hr
HP Multi-Jet Fusion 540/580 Colour 3D Printer
1565 x 955 x 1505mm
332 x 190 x 248 mm
PA12, PA12GB and PA11
4115 cm3/hr
045
WWW.NEOTECH-AMT.COM
046
3D PRINTED ELECTRONICS Neotech AMT GmbH is a leading company developing manufacturing technologies for 3D Printed Electronics (3DPE) offering production level, R&D and custom machine tools. The patented 45X system is targeted at high volume manufacture with the PJ15X supporting R&D and product development. The systems allow Additive Manufacture of mechatronic systems based on digitally driven process chains. Main applications span automotive, mobile communications, industrial and medical devices that contain 3D circuits, antenna, sensors and heater patterns. “FULLY ADDITIVE” By combining 3DPE with classical 3D printing tools within a single system “fully additive” manufacture is achieved. The structural parts are produced from thermoplastics, UV or thermally curing resins and ceramics. Electrical functionality is added internally and/or externally by printing conductive circuits and interconnects in combination with the Pick & Place of standard Surface Mount Devices.
MOTION 3D TOOL-PATH SOFTWARE Neotech systems are supplied with the Motion 3D tool-path software specifically designed for 3D PE. This novel CAD/CAM solution, generates the free-form 5-axis slicing, circuit tool paths and SMD Pick & Place in a single interface. Motion 3D allows the user to implement the most effective print strategies for rapid processing of even the most complex designs. Print simulation and the CAM Check functions highlight potential errors before printing commences. The combined Motion 3D and machine tool package provides a single unified solution to ensure rapid success of customer projects.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Build Speed
45X G3
1400 x 1055 x 2165 (X-Y-Z)
600 x 500 x 250 (X-Y-Z)
Thermoplastics, ceramics, electronic
to 1000mm/s
PJ15X
800 x 850 x 900 (X-Y-Z)
400 x 300 x 140 (X-Y-Z)
Thermoplastics, ceramics, electronic
to 150mm/s
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WWW.OR-LASER.COM/EN/
O.R. LASERTECHNOLOGIE GMBH, A COHERENT, INC. COMPANY, WAS FOUNDED SEPTEMBER 1997, WITH A DEDICATED GOAL OF DEVELOPING NEW APPLICATIONS FOR LASERS IN MATERIALS PROCESSING AND INNOVATIVE LASER TECHNOLOGIES FOR A WIDE RANGE OF CUSTOMERS IN THE METAL- AND PLASTICSPROCESSING INDUSTRIES.
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Coherent | OR LASER has a 21-year history in the field of industrial lasers and quality machine production and can demonstrate a reputation for quality and performance hardware together with an integrated software approach. The company’s comprehensive portfolio of products is the outcome of unceasing efforts to build on and apply many years of practical experience. Coherent|OR LASER’s portfolio includes industrial hardware and software solutions for laser welding, laser cutting, laser engraving, laser marking, laser cladding & Direct Metal Deposition (DMD), and direct metal additive manufacturing (AM).
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049 Machine Name
Machine Size (mm)
Build Volume (mm)
Powder reservoir in mm
ORLAS CREATOR RA
717 x 858 x 1794mm
100 x 110mm
200 x 210mm
Over the last decade, Coherent | OR LASER has continued to explore the potential of metal AM and make this technology more accessible. Following the successful commercialization of DMD equipment in 2016 Coherent | OR LASER unveiled its direct metal powder bed fusion (SLM) system, the ORLAS CREATOR. This system was specifically developed and commercialized to provide greater access to metal 3D printing for small and medium-sized enterprises
with a very competitive price point that amounts to half the cost of comparable machines on the market. In 2017 Coherent | OR LASER introduced the CREATOR RA. A system that can also print reactive materials like aluminum and titanium. In 2017 the company also advanced the capabilities of the ORLAS CREATOR further, introducing a hybrid system that offers both additive and subtractive capabilities in a single system at an attractive price point.
WWW.OPTOMEC.COM
“FINALLY, I CAN PRINT AND MACHINE REACTIVE METALS LIKE TITANIUM- ALL IN A SINGLE SYSTEM”
Print a wide variety of metals with the lens directed energy deposition system, without transferring to another system,
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LENS 860 Machine Tool Systems offer larger build volumes and higher power capabilities for additive and hybrid manufacturing metal processing. Built on a highperformance vertical machining center, LENS 860 systems are ideal for building, repairing or coating mid to large size parts with superior metal quality. Four LENS 860 system configurations are offered each with the industry’s best price to performance ratio.
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Introducing the lens 860, industryâ&#x20AC;&#x2122;s ďŹ rst atmosphere controlled system for 3d printed metals FEATURES INCLUDE: * Siemens 840D controller * Simultaneous 5 axis capability * State of the art powder feed system * Up to 3 kW laser power
WWW.RE3D.ORG
MEET YOUR GIGABOT 3+ 3D PRINTING AT THE HUMAN SCALE
Industrial 3D printing is now affordable. The massive print volume starts at 30X larger than desktop 3D printers, at a fraction of the cost of industrial systems.
re:3D® Inc. is a full service solutions providers committed to decimating the cost & scale barriers to industrial 3D printing. After pioneering one of the world’s first affordable, humanscale industrial 3D printers, re:3D is now enabling 3D printing from reclaimed plastic directly from pellets or recyclables. You can purchase printers or obtain a quote for services at re3d.org.
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FOR HIGH-STRENGTH MATERIALS Print with thermoplastics that melt below 320C. Gigabot®’s all-metal hot end accepts a wider variety of 3D printing materials, including both high-strength and heat-resistant plastic filaments. MODULAR, LIFETIME CONSTRUCTION Free from the constraints of product versioning, the Gigabot® platform enables user upgrades and customization. No machine will fall behind with new features available as add-on packages.
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JOIN GIGABOT INNOVATORS IN 50+ COUNTRIES
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Build Material Melt Point
Speed
860 x 960 x 1,320mm
590 x 600 x 600mm
Thermoplastic melting below 320º
Without enclosure: 10 - 25ºC With enclosure: 10 - 60ºC
60 - 100 mm/ sec
860 x 1,220 x 1,320mm
590 x 760 x 600mm
Thermoplastic melting below 320º
Without enclosure: 10 - 25ºC With enclosure: 10 - 60ºC
60 - 100 mm/ sec
860 x 1,220 x 1,620mm
590 x 760 x 900mm
Thermoplastic melting below 320º
Without enclosure: 10 - 25ºC With enclosure: 10 - 60ºC
60 - 100 mm/ sec
1,372 x 1,676 x 2,083mm
915 x 915 x 915mm
Thermoplastic melting below 320º
Without enclosure: 10 - 25ºC With enclosure: 10 - 60ºC
60 - 100 mm/ sec
GIGABOT
GIGABOT XL
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GIGABOT XLT
TERABOT
1100 Hercules Ave, Suite 220, Houston TX 77058 www.re3d.org | sales@re3d.org | 512.730.0033
WWW.RENISHAW.COM/AMGUIDE
Metal additive manufacturing (AM) is already transforming the way many products are designed and manufactured, leading to improved in-service performance and new innovations. Broadening the adoption of metal AM depends on increasing processing speed, assuring consistent high product quality and improving process economics.
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The latest innovation is the mutlilaser RenAM 500 series of AM systems designed to break down the barriers to wider use and enable organisations to create production environments for manufacturing a new generation of high performance components. The four-laser RenAM 500Q achieves high levels of process quality and consistency and provides significantly higher
build rates, vastly improving productivity and lowering cost per part. The RenAM 500Q features automated powder and waste handling systems that enable consistent process quality, reduce operator intervention time and ensure high standards of system safety. Companies who are considering adopting metal AM as a production process can gain hands-on experience with the technology and understand how it may best fit into their own manufacturing supply chains by accessing
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the Renishaw global Solutions Centres operating in Canada, the USA, the UK, India, Germany and Shanghai.
Alongside machines, Renishaw has developed a range of process monitoring hardware and software options that include InfiniAM Spectral and QuantAM file preparation and build review software. Talk to Renishaw to find out more about AM systems and services for your industry. View feature articles, white papers, presentations, videos and more.
Machine Name
RenAM 500M Series**
AM 400
Machine Size (h x w x d mm)
1236 × 2165 × 2130 mm
853 × 1700 × 2115 mm
Build Volume (mm)
250 × 250 × 350 mm
248 × 248 × 285 mm
Build Materials
Build Speed
Titanium alloy Ti6Al4V, cobalt chromium, stainless steel, nickel alloys Inconel 625 and Inconel 718 and aluminum alloy AlSi10Mg. (open system)
Up to 150 cm³/hr (9.15 in³/hr)
Ti6Al4V ELI, AlSi10Mg, stainless steel 316L, tool steels, nickel alloys and cobalt chromium alloy.
Up to 20 cm3 / hr (1.22 in3 / hr)
** RenAM 500 series can be configured with one (S), two (D), three (T) or four (Q) high power 500 W lasers
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WWW.RPS.LTD
RPS – INDUSTRIAL 3D PRINTING SYSTEMS RPS is a UK industrial 3D printing specialist with over a decade of experience in the 3D printing industry. Specialising in polymer additive manufacturing, RPS engineers developed the largeformat NEO800 stereolithography 3D printing system which is manufactured in the United Kingdom.
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The reliable NEO800 builds large, high-quality parts with superior surface quality, accuracy and detail. Built by engineers, for engineers, the NEO800 stereolithography system is in operation throughout Europe, including several Formula 1 companies, 3D Printing Bureaus and Universities.
LARGE BUILD PLATFORM With an 800 mm x 800 mm x 600 mm platform, the NEO800 can build large functional models, prototype patterns and production parts with exceptional side-wall quality and without the need for sectioning, bonding or post processing. OPEN RESIN SYSTEM FOR FUTURE MATERIAL DEVELOPMENT The NEO800 has an open resin system compatible with all 355nm SL resins, allowing our customers to choose the latest new and innovative polymers. RPS also offers a “Material Development Kit” for the NEO800, specifically to encourage developers to create new and innovative polymers, with the goal of creating end-user functional parts with excellent mechanical properties. CUSTOMER DRIVEN DEVELOPMENT RPS actively encourage customer feedback. This drives NEO800 software development to suit customer needs.
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Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
RPS NEO800 STEREOLITHOGRAPHY SYSTEM
1350 W x 1630 D x 2300 H
800 mm x 800 mm x 600 mm
Open resin system, compatible with 355 nm stereolithography resins.
OTHER KEY FEATURES INCLUDE: EXCEPTIONAL PART SIDEWALL QUALITY: Scanning resolution to within one micron reduces finishing time by up to 50%. CONNECTED SERVICES: Stay connected and keep updated with the built-in camera, emailed progress reports and status updates. INTUITIVE TITANIUM SOFTWARE: Easy-to-use software optimises build time and part quality with parttraceability and machine utilisation reporting. ACCESSIBLE SUPPORT: Remote diagnostics or convenient on-site support from our exceptional service team. QUALITY ASSURANCE: The NEO800 is carefully designed and engineered throughout, using premium components, parts and finishes.
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WWW.SCIAKY.COM Sciaky’s turnkey metal additive manufacturing systems can do it all. Our Electron Beam Additive Manufacturing (EBAM®) systems bring value throughout the entire product life cycle.
Sciaky’s Industry-Leading EBAM® Metal 3D Printing Systems: OFFERING THE WORLD’S LARGEST BUILD ENVELOPES AND FASTEST DEPOSITION RATES.
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• PRE-PRODUCTION: Create experimental metal prototypes faster than ever before and get a leg up on your competition. • PRODUCTION: Additively manufacture metal parts (in your own facility) with significantly reduced machining time, material costs, and lead time compared to traditional subtractive manufacturing methods.
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• POST-PRODUCTION: Repair or remanufacture damaged and obsolete metal parts on-site so you can extend various components’ service life.
EBAM® was launched in 2009 with the objective to save manufacturers significant time and money on the production of high-performance metallic structures. Today, EBAM is the world’s most cost-effective process for producing near-net shape parts made from virtually any metal, including highvalue metals like titanium and tantalum. These systems all combine computeraided design (CAD), electron beam directed energy deposition, and layeradditive processing. Starting with a 3D model from a CAD program, Sciaky‘s electron beam (EB) gun deposits metal (via wire feedstock) in successive layers until the part reaches near-net shape. Each system’s vacuum chamber ensures the highest part integrity, while the EB gun maximizes material deposition rates by a range of 7 to 25 lbs. (3.18 to 11.34 kg) of metal per hour, which is the fastest and most efficient metal deposition process on the market. In addition, many EBAM systems offer dual wirefeed arrangements to increase deposition efficiency, as well as to simplify the process of switching to different deposition materials. Minor finish machining is required after the part reaches near-net shape.
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Sciaky’s IRISS® (Interlayer Realtime Imaging & Sensing System) is a patented Closed-Loop Control (CLC) that automates the EBAM process. The CLC system monitors the metal deposition process in real time and makes adjustments to the process parameters that compensate for changes that occur over time. As a result, you have a much more repeatable process that yields the following: EBAM systems are available in „MegaScale“ (The EBAM 300 System is the largest metal 3D printing system on the market), Large-Scale (EBAM® 150 & 110 Systems), and Medium-Scale (EBAM 88 & 68 Systems) configurations. toll free number (in the U.S.) 877-450-2518 Chicago - +1 (0) 708-594-3800
WWW.SINDOH.COM
Sindoh pursues unmistakable values for mankind, providing innovative 3D technologies and infinite possibilities to human lives such as tools, end-use parts, jewelries, various professional designs and eventually 3D printing prosthetics. Sindoh 3D printer is well recognized as the most powerful easy-to-use 3D printer due to its various enhanced features (connectivity, clouds, GUI, etc.) inspired from the accumulated advanced 2D printer manufacturing know-hows for several decades.
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Sindoh, since established and started in 1960 as the first office equipment (printers, copiers, facsimiles, etc.) provider in Korea, has grown into one of the world’s leading 3D printer companies. Now, Sindoh is ready to release a large FFF 3D printer along with a new SLA 3D printer lineup in year 2019.
PLEASE VISIT OUR WEBSITES FOR FURTHER INFORMATION.
3D PRINTER: 3DPRINTER.SINDOH.COM COMPANY: WWW.SINDOH.COM
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3DWOX 1
A1
3DWOX 2X
3DWOX DP200
3DWOX 1
3DWOX 2X
A1
PRINT TECHNOLOGY
FFF (Single Extruder)
FFF (Single Extruder)
2 x FFF (Independent Dual Extruder)
SLA (405nm/Laser Diode)
PRODUCT SIZE (W x D x H)
421 x 433 x 439 mm (16.6 x 16.9” x 17.3” )
421 x 433 x 439 mm (16.6” x 16.9” x 17.3” )
490 x 466 x 573 mm (19.3” x 18.3” x 22.6” )
449 x 501 x 585 mm
MAX BUILD SIZE (W x D x H)
200 x 200 x 185 mm (7.9” x 7.9” x 7.3” )
210 x 200 x 195 mm (8.2” x 7.9” x 7.7” )
228 x 200 x 300 mm (8.9” x 7.9” x 11.8” )
200 x 200 x 180 mm
MATERIAL
PLA, ABS (Sindoh Filament only)
*Open Source Filament: PLA, ABS, ASA, PETG, etc
*Open Source Filament: PLA, ABS, ABS, ASA, PETG, Flexible, PVA (PVA Nozzle Required)
Open Material, ABSLike (Acrylic, Flexible, Dental, Casting Resins)
LAYER THICKNESS
0.05 ~ 0.4 mm
0.05 ~ 0.4 mm
0.05 ~ 0.4 mm
25 ~ 100μm (Resolution: 50μm)
CONNECTIVITY
USB Flash Drive, Wi-Fi, Ethernet, USB3.0
USB Flash Drive, Wi-Fi, Ethernet, USB3.0
USB Flash Drive, Wi-Fi, Ethernet, USB3.0
Ethernet (1G),USB3.0, Wi-Fi
SLICERS
Sindoh Slicer, Sindoh Cloud Slicer, SOLIDWORKS, CURA
Sindoh Slicer, Sindoh Cloud Slicer, SOLIDWORKS
Sindoh Slicer, Sindoh Cloud Slicer, SOLIDWORKS
Sindoh Slicer (SLA)
FILTER
Carbon Filter
HEPA Filter
HEPA Filter
Dust Filter
HEATING TYPE
Heated Aluminum Bed
Heated Metal Flexible Bed
Heated Metal Flexible Bed
Chamber Heating
FEATURES
Assisted Bed Leveling Auto Filament Loading Mobile Monitoring
Assisted Bed Leveling Auto Filament Loading Mobile Monitoring Low Noise Level
Dual Extruders Assisted Bed Leveling Auto Filament Loading Mobile Monitoring Low Noise Level Voice Guidance
Resin Bottle: 1ℓ Auto Resin Supply Auto Temperature Voice Guidance
PRODUCTS
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WWW.SISMA.COM
HIGH PRECISION MANUFACTURING SOLUTIONS, MACHINERY AND LASER SYSTEMS.
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SISMA is a worldwide reference in the design and production of extremely high precision machinery and laser systems. Established in 1961, today SISMA can count on a long time experience over more than 130 different models of automatic chain making machines. Innovative by vocation, SISMA combines an independent and cutting edge design and production organization with a wealth of highly specialized human resources, thus guaranteeing top product quality as well as a prompt response to market changes and requirements. SISMA begun already in 2011 with the development of the LMF (Laser Metal Fusion) project, the additive manufacturing process that uses a high power laser beam to realize three-dimensional metal objects through the fusion of thin layers of metallic powder, and presented its LMF system MYSINT already in 2014. Today SISMA is offering MYSINT in dedicated solutions, as suggested configurations for the dental, industrial and jewellery markets, where the company is today mostly active in, offering multiple options to enhance performance with precious metal powders and ensuring safety while handling reactive materials, among the others. MYSINT is a user-adjustable system where each machining parameter can be set by its operator: the entire production strategy is fully customizable according to specific needs, the objectives or to the experience that has been gained already.
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MYSINT can be used to manufacture disruptive new designs that shatter the boundaries of what was feasible before, enhancing creative possibilities and flexibility, opening up to new, exciting scenarios in today’s manufacturing landscape. In 2018 SISMA introduced its latest achievement in professional resin 3D printing under the brand EVERES – Climbing the evolution. EVERES ZERO and EVERES UNO are
Technology
Laser Metal Fusion
Laser Metal Fusion
DLP
DLP
Machine Name
Machine Size (mm)
MYSINT 100
1400 x 760 x 1600 (W x L x H)
MYSINT 300
3400 x 1400 x 1970 (W x L x H)
EVERES ZERO
EVERES UNO
411 Ø (base) x 870 H x 272 Ø (top)
411 Ø (base) x 870 H x 272 Ø (top)
DLP based 3D printers, designed and built to offer a user experience which has never been explored before. Equipped with innovative technologies (patent pending) they cover the jewellery, medical and industrial manufacturing markets. Self-alignment of the building platform, nondegenerative resin vat, high printing speed, self-loading / unloading of the resin: all of these make the ultimate 3D printing experience, together with the Click & Make software.
Build Volume (mm)
Build Materials
Notes
100 Ø x 100 H*
Precious metals, Titanium, Cobalt Chrome, Stainless Steel, Tool Steel, Aluminium, Inconel, Copper
* optional interchangeable cylinders: dia. 63,5mm and dia. 34,5mm - Dual Laser model available - Reactive metals package available - Precious metals package available - Open system
300 Ø x 400 H
Titanium, Cobalt Chrome, Stainless Steel, Tool Steel, Aluminium, Inconel, Copper
- External powder handling - External unpacking station - Open system
96 x 54 x 200 (W x L x H)
Castable resin, High precision mouldable resin, Self hiding mouldable and general purpose resin, ABS-like resin
Specifically developed for the jewellery market XY resolution: 50 µm Light source: 405nm UV LED
124,8 x 70,2 x 200 (W x L x H)
Castable resin, High precision mouldable resin, Self hiding mouldable and general purpouse resin, ABS-like resin
Specifically developed for medical and industrial manufacturing XY resolution: 65 µm Light source: 405nm UV LED
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WWW.SLM-SOLUTIONS.COM
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One of the most important current trends in 3D printing is the advancement of functional parts into series production, which is aided by consistently improved machines with increased robustness and stability. SLM Solutions Group AG is a leading supplier of metal-based additive manufacturing technology that helps customers to benefit from all the advantages of metal additive manufacturing by partnering with them at every step to ensure their success with selective laser melting. Headquartered in Germany with global representation, SLM Solutions is a holistic solutions provider with decades of market experience that focuses on the development, assembly and distribution of machines and integrated system solutions. SLM® technology offers a variety of possibilities with metal additive manufacturing of parts, such as new freedom of design and geometry, light-weight construction by reducing weight, achieving speed advantages in the development process and the production of
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internally undercut or customized parts in small quantities. SLM® systems are used worldwide by customers in a wide range of industries, including aerospace, automotive, tooling, energy, healthcare, and research. The company’s product range includes selective laser melting systems in four sizes, the SLM®125, SLM®280, SLM®500 and the SLM®800, which differ mainly in the size of the build envelope and number of lasers
processing the build. With its patented multi-laser technology, bi-directional recoating, open software architecture and closed-loop powder handling, Selective Laser Melting Systems offer the highest level of user safety and top build speeds for highly complex metal parts. The machines enable the direct production of parts in a variety of materials such as aluminum, titanium, cobalt-chromium, Inconel, tool or stainless steel as well as superalloys; almost
any weldable alloy can be processed. SLM® machines are available with fully automated powder sieving and supply systems to ensure safe powder supply without manual refilling of powder during the construction process.
As a complete partner in developing additive manufacturing processes, SLM Solutions also offers the Additive.Intelligence software suite to ease the path to successful selective laser melting builds and streamline plant production.
Build Envelope, reduced by substrate plate thickness
Machine Name
Machine Size (mm; w x d x h)
SLM®125
1400 x 900 x 2460
125 x 125 x 125
2600 x 1200 x 2700
280 x 280 x 365
SLM®280
(mm3; w x d x h)
SLM®500
5200 x 2800 x 2700 (incl. chamber removal and powder sieve)
500 x 280 x 365
SLM®500
Depending on setup
500 x 280 x 850 mm³
Build Materials
Consulting offerings further lower the learning curve and assist customers in developing their production processes. For more information visit slm-solutions.com
Material Cost
Layer Thickness
Price
20 - 75 µm Titanium, Tool Steel and Stainless Steel, Aluminium, CobaltChrome and IN. Parameters for other alloys may be available on request.
20 - 75 µm Individualised quote available upon request.
20 - 75 µm
20 - 75 µm
Individualised quote available upon request
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WWW.STRATASYS.COM
MAKE IT WITH STRATASYS.
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What’s the difference between a £1000 3D printer and a £100,000 3D printer? This is a question engineers around the world are asking themselves. At Stratasys we put value on our ability to print engineering-grade polymers and produce beautifully detailed lifelike models. But most importantly we understand that our users require reliability, ease of use, speed and quality parts time after time. Our machines are built by engineers for engineers, which is the backbone of what makes our customers continue to use Stratasys 3D printers. Every day, our customers find simpler smarter approaches to stubborn design problems. By providing the shortest possible path from idea to solid object. Stratasys works with a broad range of industries including Aerospace, Rail, Automotive, Healthcare, Consumer Products and Education.
a 3D print user, and a 3D printing champion. Fulfilling the realworld potential of additive, Stratasys delivers breakthrough industry-specific applications that accelerate business processes, optimise value chains and drive business performance.
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The Stratasys 3D printing ecosystem includes advanced materials; software with voxel level control; precise, repeatable and reliable FDM (fused deposition modeling) and PolyJet 3D printers; application-based expert services; on-demand parts and industry-defining partnerships; strategic business consultancy; and a training academy. Together, we have all the tools to help you become
EMPOWERING INNOVATION Stratasys 3D printers use FDM and Polyjet additive technology. FDM printers can be used to make prototypes, low-volume production pieces and manufacturing aids for an expansive range of applications using engineering-grade thermoplastics. Polyjet is a highresolution additive process capable of printing in multiple materials, colours and hardness. Polyjet is an excellent 3D printing service for presentation models, small prototypes and master patterns.
Stratasys also offer a powerful range of additive manufacturing materials, including clear, rubberlike and biocompatible photopolymers and tough high-performance thermoplastics. From fast, affordable concept modelling to detailed, super-realistic functional prototyping, through certification testing and into agile, low risk production, Stratasys materials help designers and engineers succeed at every level.
Technology
Printer
UPRINT SE PLUS™
Machine size (mm)
One material bay 635 x 660 x 787 Two material bays 635 x 660 x 940
Stratasys has been trusted worldwide by leading manufacturers and groundbreaking designers, makers, thinkers and doers for 30 years. As a 3D printing innovation partner, we offer our customers the best mix of technologies, deep industry expertise and the most flexible implementation options available. We provide the products, services and support great thinking deserves, giving your ideas the best possible chance of making it. MAKE IT BETTER. MAKE IT WITH STRATASYS. Build Envelope (mm)
Model Material Options
Layer thickness (mm)
203 x 203 x 152
ABSplus in 9 colours
0.245mm or 0.330
STRATASYS F170™
1626 x 864 x 711
254 x 254 x 254
ABS-M30™, ASA, PLA
Down to 0.127
STRATASYS F270™
1626 x 864 x 711
305 x 254 x 305
ABS-M30, ASA, PLA
Down to 0.127
STRATASYS F370™
1626 x 864 x 711
355 x 254 x 355
ABS-M30, ASA, PCABS, PLA
Down to 0.127
FORTUS 380mc™
1295 x 902 x 1984
355 x 305 x 305
ABS-M30, ABS-M30i, ABS-ESD7, ASA, PC-ISO, PC, PC-ABS, FDM Nylon 12
Down to 0.127
FORTUS 380mc Carbon Fiber Edition
1295 x 902 x 1984
355 x 305 x 305
Nylon 12 CF; ASA
Down to 0.127
406 x 355 x 406
ABS-M30, ABS-M30i, ABS-ESD7, ASA, PC-ISO, PC, PC-ABS, FDM Nylon 12, FDM Nylon 12CF, ST-130, ULTEM 9085 resin, ULTEM 1010 resin
Down to 0.127
914 x 610 x 914
ABS-M30, ABS-M30i, ABS-ESD7, ASA, PC-ISO, PC, PC-ABS, PPSF, FDM Nylon 12, FDM Nylon 6, ST-130, ULTEM 9085 resin, ULTEM 1010 resin
Down to 0.178
FDM
FORTUS 450mc™
FORTUS 900mc™
1295 x 902 x 1984
2772 x 1683 x 2027
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Technology
Printer
Machine size (mm)
Maximum build size (mm) (XYZ)
Material options MODEL/DIGITAL
Layer Thickness*
OBJET30 PRO
826 x 600 x 620
294 x 192 x 148.6
MODEL: Rigid Opaque: VeroWhitePlus, VeroGray™, VeroBlue™, VeroBlack™, VeroBlackPlus™, Simulated Polypropylene: Rigur™, Durus, High Temperature
28 microns . 16 microns for VeroClear material
294 x 192 x 148.6
MODEL: Rigid Opaque: VeroWhitePlus, VeroGray, VeroBlue, VeroBlack, VeroBlackPlus - Transparent: VeroClear and RGD720 - Simulated Polypropylene: Rigur, Durus - High Temperature Rubberlike: TangoGray™ and TangoBlack™ - Biocompatible
28 microns for Tango™ materials 16 microns for all other materials
Horizontal build layers as fine as 16 microns. Accuracy 20-85 microns for features below 50mm; up to 200 microns for full model size
OBJET30 PRIME™
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826 x 600 x 620
OBJET EDEN260VS™
870 x 1200 x 735
255 x 252 x 200
MODEL: Rigid Opague: VeroWhitePlus, VeroBlackPlus, VeroGray, VeroBlue Rubber-like: TangoPlus™, TangoBlackPlus™ TangoBlack, TangoGray - Transparent: VeroClear and RGD720 - Simulated Polypropylene: Rigur and Durus - High Temperature - Biocompatible
OBJET 260/500 CONNEX 1
OBJET260: 870 x 1200 x 735 - OBJET500 1400 x 1260 x 1100 Material cabinet 300 x 1170 x 640
OBJET260: 255 x 252 x 200mm OBJET500: 490 x 390 x 200mm
MODEL: Rigid Opaque: VeroWhitePlus, Vero PureWhite, VeroBlackPlus, VeroGray and VeroBlue™; VeroCyan™, VeroMagenta™ and VeroYellow™ - Rubber-like: Agilus30, TangoPlus, Tango BlackPlus, TangoBlack, TangoGray - Transparent: VeroClear and RGD720 - Simulated Polypropylene: Rigur and Durus - High Temperature Biocompatible
Horizontal build layers as fine as 16 microns. Accuracy up to 200 microns for full model size (rigid models only)
OBJET260: 255 x 252 x 200 OBJET350: 342 x 342 x 200 OBJET500: 490 x 390 x 200
MODEL: Rigid Opaque: VeroWhitePlus, Vero PureWhite, VeroBlackPlus, VeroGray and VeroBlue; VeroCyan™, VeroMagenta™ and VeroYellow™ - Rubber-like: Agilus30, TangoPlus, Tango BlackPlus, TangoBlack, TangoGray - Transparent: VeroClear and RGD720 - Simulated Polypropylene: Rigur and Durus - High Temperature Biocompatible - DIGITAL: Vibrant blended colours in Rigid Opaque - Translucent colored tints - Rubber-like materials in a range of Shore A values - Digital ABS Plus™ for durability, including blends with rubber - Simulated polypropylene materials with improved heat resistance
Horizontal build layers as fine as 16 microns. Accuracy up to 200 microns for full model size (rigid models only)
350 x 350 x 200 mm
MODEL: Vero™ family of opaque materials including neutral shades and vibrant colours, Tango™ family of flexible materials, Transparent VeroClear™ and RGD720 DIGITALL: Unlimited number of composite materials including over 360,000 colours. Digital ABS and Digital ABS2™ in ivory and green, Rubber-like materials in a variety of Shore A values, Translucent colour tints
OBJET260/350/500 CONNEX3
OBJET260: 870 x 1200 x 735 OBJET350/500 1400 x 1260 x 1100 Material cabinet 300 x 1170 x 640
STRATASYS J735
1400 x 1260 x 1100 mm; Material cabinet 670 x 1170 x 640
STRATASYS J750
OBJET1000 PLUS™
1400 x 1260 x 1100 - Material cabinet 670 x 1170 x 640
1960 x 2868 x 2102
490 x 390 x 200
1000 x 800 x 500 - Max model weight on tray 135kg
MODEL: Vero™ family of opaque materials including neutral shades and vibrant colors, Tango™ family of flexible materials, Transparent VeroClear™and RGD720 DIGITALL: Unlimited number of composite materials including over 360,000 colors, Digital ABS and Digital ABS2™ in ivory and green, Rubber-like materials in a variety of Shore A values, Translucent color tints MODEL: Transparent rigid: VeroClear Rubber-like: TangoPlus and TangoBlackPlus - Rigid Opaque: Vero family - Simulated Polypropylene: Rigur DIGITAL: Transparent shades and patterns - Rigid Opaque shades - Rubber-like blends in a range of Shore A values - Simulated Polypropylene blends in rigid and flexible options Digital ABS Plus simulates ABS plastics by combining HT resistance and toughness Digital ABS matches these to provide enhanced dimensional stability in walls thinner than 1.2mm - Rigur-based Digital Materials in a range of Shore A values and shades in rigid and flexible options
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Horizontal build layers as fine as 14 microns. Accuracy up to 200 microns for full model size (rigid models only)
Horizontal build layers as fine as 16 microns. Accuracy up to 600 microns for full model size (for rigid models only)
Technology
POLYJET DENTAL SYSTEMS
Printer
Machine size (mm)
Maxiumum Build Size mm (X Y Z)
Material options MODEL/DIGITAL
Layer Thickness*
OBJET30 ORTHODESK
825 x 620 x 590
300 x 200 x 100
MODEL: VeroDentPlus Clear Bio-compatible - VeroGlaze
Horizontal build layers down to 28 microns
OBJET30 DENTAL PRIME
825 x 620 x 590
300 x 200 x 100
MODEL: VeroDentPlus Clear Bio-compatible - VeroGlaze
Layer thickness 16 microns
OBJET EDEN260VSâ&#x201E;¢ DENTAL ADVANTAGE
870 x 1200 x 735
255 x 252 x 200
MODEL: VeroDentPlus - Clear Bio-compatible VeroGlaze
16 microns - Accuracy 0.1mm
MODEL: VeroDent, VeroDentPlus, VeroGlaze, Clear Bio-compatible Additional materials include: VeroWhite, VeroMagenta, TangoPlus, TangoBlackPlus, Digital materials to reproduce gum-like textures and natural tooth shades
16 microns
OBJET260: 870 x 1200 x 735 OBJET 260/500 DENTAL SELECTION
OBJET500: 1400 x 1260 x 1100 Material cabinet 300 x 1170 x 640
OBJET260: 255 x 252 x 200 OBJET500: 490 x 390 x 200
* Note: Accuracy varies according to part geometry, size, orientation, material and post processing method
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WWW.THERMWOOD.COM
Thermwood Corporation, located in Southern Indiana and established in 1969, offers both three & five axis CNC machining centers ideally suited for the production, fabrication & trimming of wood, plastics, non-ferrous metals, composites and other advanced materials. These applications range from machining patterns and molds/ plugs to trimming & machining production products for various industries such as woodworking, automotive, aerospace/ aviation and defense industries. Thermwood is deeply involved in CNC technology and development, incorporating a high level of smart control technology in its products.
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Thermwood has also developed a new product for the Additive Manufacturing industry. Our new Large Scale Additive Manufacturing (LSAM) system which can perform both the “additive” and “subtractive” functions on the same machine. This approach, called “near net shape”, uses a reinforced thermoplastic composite material to quickly create a part that is nearly, but not exactly, the
final net shape. A “subtractive” function then machines the part to the exact final net shape. In its final form, Thermwood’s system will perform both the “Additive” and “Subtractive” functions on the same machine. Melt shaping promises enhanced control of layer shape and improved bonding between layers. This new patent pending approach uses one or more shaping wheels to shape, form and compress the hot plastic melt as it is being extruded, insuring that each new layer is the proper shape and thickness and that it bonds firmly to previously applied material.
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Thermwood is a US based company with dealers and distributors worldwide. In addition to machine manufacturing and software development, Thermwood has a technical service organization that provides support, machine installation, training, retrofits, custom programming and production assistance. Please visit www.thermwood.com, call 1-800-533-6901 or email info@thermwood.com for more information.
Machine Name
LSAM (Large Scale Additive Manufacturing system)
Machine Size (mm)
Build Volume (mm)
Materials
Build Speed
Y=9,000, Z=5,600, X=9,300 up to 36,700 in 3,000 increments
Y=3,000, Z=1,500, X=3,000 up to 30,000 in 3,000 increments
ABS, PPS, PSU, PESU, Ultem, Polycarbonate, Nylon (All filled with certain percentage of carbon fiber)
150 to 500 .lbs (68kg to 226kg) per hour
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WWW.TRACTUS3D.COM
INDUSTRIAL 3D PRINTERS FOR EVERY BUSINESS
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Tractus3D is a Dutch manufacturer of industrial 3D printers. Focusing on large build volumes (up to 2,1 meters / 6.9 feet high) and special high performance materials like PEEK. BIG THINKING, LARGE PRINTING The large volume Tractus3D printers offer you the freedom to produce huge designs. Print life-size objects all at once in a wide variety of materials, while retaining high accuracy and printing speed. HOT IDEAS? STRONG CREATIONS Do you need strong light weight parts? With the Tractus3D PEEK printers you can make it happen. Both the T650P and T850P can handle high performance materials like (Carbon) PEEK, the ideal alternative for metal.
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SERVICE ON LOCATION Tractus3D provides a worldwide installation service regarding the large 3D printers. An engineer will install the printer on the spot and provides a training how to operate the printer and the 3D printing software. FUTURE PROOF With the modular build of the 3D printers, new features can be added. Thanks to the upgradability, Tractus3D printers are a long-term investment. PASSION FOR PERFECTION Development and manufacturing of the 3D printers takes place at the headquarters in the Netherlands. Since everything is kept in-house, quality is guaranteed and Tractus3D offers an industry-leading Service Level Agreement. Tractus3D printers are built to the highest standards, while keeping your ROI in mind.
Machine Name
Machine Size (mm)
Build Volume (mm)
Build Materials
Build Speed
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DESK SERIES 3D PRINTERS T650
300 x 300 x 650 mm
200 diameter x 285 height (315 center)
T850
500 x 500 x 850 mm
300 diameter x 380 height (405 center)
T1250
700 x 700 x 1250 mm
370 diameter x 550 height (610 center)
Open Filament System: PLA, PETG, ASA, Nylon, PC and more.
up to 200 mm/s
Open Filament System: all polymers including high performance materials like PEEK (up to 450°C).
up to 200 mm/s
Open Filament System: PLA, PETG, ASA, Nylon, PC and more.
up to 200 mm/s
PEEK SERIES 3D PRINTERS T650P
T850P
300 x 300 x 650 mm
200 diameter x 285 mm height (315 center)
500 x 500 x 850 mm
300 diameter x 380 mm height (405 center)
LARGE VOLUME SERIES 3D PRINTERS T3000
T3500
1500 x 1500 x 3000 mm
1500 x 1500 x 3500 mm
1000 diameter x 1450 mm height (1540 center)
1000 diameter x 2000 mm height (2100 center)
WWW.TRUMPF.COM
The high-technology company TRUMPF offers production solutions in the machine tool and laser sectors. The company is driving digital connectivity in manufacturing industry through consulting, platform and software offers. TRUMPF is the world technological and market leader for machine tools used in flexible sheet metal processing, and also for industrial lasers.
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TRUMPFâ&#x20AC;&#x2122;s long-term approach, characteristic of an independent, family-owned business, make it a guarantor of continuous innovative strength. The family company is headquartered in Ditzingen near Stuttgart, Germany. With more than 13,500 employees the TRUMPF Group is represented by over 70 subsidiaries in all of the worldâ&#x20AC;&#x2122;s leading markets. Production facilities are located in Germany, France, Great Britain, Italy, Austria,
As a pioneer in the field of additive technology TRUMPF has almost 20 years of expertise and offers both laser technologies for metal additive manufacturing: powder bed fusion (Laser Metal Fusion / LMF) and direct energy deposition (Laser Metal Deposition / LMD) from small additive manufacturing systems to large robotic systems with LMD package. As a laser and machine manufacturer, TRUMPF masters the entire process chain and offers a comprehensive solution for the industrialization of Additive Manufacturing. Customers profit from robust and reliable machines for series production. The industrial additive systems are used in industries such as Jopshop, General Industry, Tool and Mold Making, Medicine, Aerospace, Energy and Automotive.
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Switzerland, Poland, the Czech Republic, the USA, Mexico, China and Japan.
Machine name
Build volume (cylinder) mm
Laser
Build materials1)
Notes
LASER METAL FUSION (LMF)
TruPrint 1000
TruPrint 3000
TruPrint 5000
Ø 100 x H 100 (optional: smaller build volume)
Ø 300 x H 400
Ø 300 x H 400
200 W fiber laser multilaser option: 2 x 200 W fiber lasers
500 W fiber laser
3 x 500 W fiber lasers fullfield
Weldable metals in powder form, such as stainless steel, tool steel, cobaltchromium, aluminum, nickel-based alloy, titanium2), precious metals2), bronze
Weldable metals in powder form, such as stainless steel, tool steel and alloys of the following metals: aluminum, nickel-based, cobalt-chromium or titanium2)
- multilaser option for productivity increase of up to 80% - industrial software and monitoring solutions - industry-specific optional packages available
- preheating 200° C - quickly exchangeable build and supply cylinders - external part and powder management - long-lasting filter unit - industrial software and monitoring solutions - fullfield multilaser for maximum productivity - preheating 500° C - automated process start - quickly exchangeable build and supply cylinders - external part and powder management - zero-point clamping system - industrial software and monitoring solutions
LASER METAL DEPOSITION (LMD)
1) 2)
Machine name
Working range mm
Laser
TruLaser Cell 3000
800 x 600 x 400 Max. Ø 600 x 520
Disk lasers, diode lasers
TruLaser Cell 7020
2000 x 1500 x 750
TruLaser Cell 7040
4000 x 2000 x 750
Disk lasers
Disk lasers
TruLaser Robot 5020
2000 x 700 x 1000
Disk lasers, diode lasers
DepositionLine
Individual size due to integration in customer machine
Disk lasers, diode lasers
Currently available materials and parameters on request. Available with option packages.
Build materials1)
Notes - available with disk laser TruDisk and diode laser TruDiode depending on application requests - other applications like laser welding and laser cutting possible within the same system
Tool steels, stainless steel, carbides and matrices, aluminum alloys, titanium alloys, nickel alloys, copper alloys
- other applications like laser welding and laser cutting possible within the same system - other applications like laser welding and laser cutting possible within the same system - available with disk laser TruDisk and diode laser TruDiode depending on application requests - available with disk laser TruDisk and diode laser TruDiode depending on application requests - equipment for the individual integration in a customer machine
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WWW.ULTIMAKER.COM
Since 2011, Ultimaker has become the leading manufacturer of powerful, professional, and accessible desktop 3D printers â&#x20AC;&#x201C; with a mission to facilitate the worldâ&#x20AC;&#x2122;s transition to local digital manufacturing.
While all Ultimaker products are designed to work together seamlessly and intuitively, users are not limited by their choice of materials. Each Ultimaker printer is open to the use of third-party filaments. And print preparation software, Ultimaker Cura, features optimized print profiles, over 300 powerful settings, and is trusted by more than 2 million users.
Every day hundreds of thousands of engineers, designers, architects, and medical professionals depend on Ultimakerâ&#x20AC;&#x2122;s integrated solution of 3D printers, software, and materials to deliver quality parts and prototypes, and help them work more effectively.
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ULTIMAKER S5 Released in 2018, the Ultimaker S5 is built to run continuously and maximize uptime. With the biggest ever build volume in an Ultimaker, it makes 3D printing accessible for even more applications, including on-demand tooling and end-use parts. It was recently chosen as a ‘top pick’ by All3DP and named their fall 2018 ‘Best dual extruder 3D printer’. The Ultimaker S5 features enhanced multi-point bed leveling to ensure a perfect first layer, and sensors that monitor material
flow while printing. The extruder is also engineered to print with the world’s most advanced composites and plastics from leading materials manufacturers. Its color touchscreen guides the user stepby-step to produce extremely reliable and accurate parts – from manufacturing aids to functional prototypes. ULTIMAKER 3 AND ULTIMAKER 3 EXTENDED Winners of multiple ‘best of’ awards, the Ultimaker 3 and the Ultimaker 3 Extended
are recommended by 100% of reviewers on 3D Hubs. Like the Ultimaker S5, the printers’ marketleading dual extrusion system allows users to discover a new level of design complexity with convenient support material options that require minimal post-processing. The printers feature active bed leveling, Wi-Fi connectivity, and a builtin camera for remote monitoring.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Build Speed
ULTIMAKER S5
495 x 457 x 520 mm
330 x 240 x 300 mm
Ultimaker and third-party materials. Compatible with abrasive composites
Up to 24 mm3/s
ULTIMAKER 3
342 x 380 x 390 mm
215 x 215 x 200 mm
Optimized for Ultimaker materials with third-party material support
Up to 24 mm3/s
ULTIMAKER 3 EXTENDED
342 x 380 x 489 mm
215 x 215 x 300 mm
Optimized for Ultimaker materials with third-party material support
Up to 24 mm3/s
077
WWW.UNIONTECH3D.COM
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The global availability of UnionTech™ stereolithography (SL) 3D printers marks an important milestone in the coming of age of Additive Manufacturing (AM) technology. No longer is a prospective user of the technology tied to a sole manufacturer choice in order to enjoy the benefits of a 3D printing technology that offers the widest diversity of application types and physical and mechanical performance. UnionTech’s line of large format, industrial strength 3D printers feature open sourcing options for materials and software. Since material developments continue to drive AM application evolution, the open source format future proofs investment in UnionTech equipment. Shanghai Union Technology Corporation, established in the year 2000, is accustomed to
intense competition in SL, resulting in cost effective, easyto-maintain robust product offerings that create highly accurate parts with excellent aesthetics. UnionTech™ products were first made available to international markets in 2016. The international commercial PILOT™ series and production RSPro™ equipment series incorporates key components from leading global suppliers and are supported by local sales, marketing and technical service. UnionTech recognizes that many prospective users of 3D printing technology see significant value in the versatility of
stereolithography and the diverse range of photopolymer materials now available, but have been discouraged by the historical high costs of ownership. The PILOT commercial series makes available the utility of industrial grade SL capabilities in build sizes (up to 450 mm x 450 mm x 400 mm) compatible with a price point that encourages wider commercial use. The Pilot 250 and Pilot 450 facilitate greater utilization of the accuracy and excellent aesthetics of the SL process in applications well beyond, but including, fit and function prototypes.
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The production RSPro series now offers platforms as large as 1400 mm x 700 x500 mm and are targeted at users requiring larger platforms for either single part or multivolume production of smaller components.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
Build Speed*, Z-height per hour
PILOT 250
1105 x 1052 x 1965
250 x 250 x 250
Any 355nm SL
9 – 27 mm/hr*
PILOT 450
1331 x 1368 x 2140
450 x 450 x 400
Any 355nm SL
9 – 27 mm/hr*
RSPRO 600
1598 x 1612 x 2121
600 x 600 x 500
Any 355nm SL
9 to 22 mm/hr*
RSPRO 800
1798 x 1602 x 2118
800 x 800 x 550
Any 355nm SL
9 to 22 mm/hr*
RSPRO 1400
2882 x 1952 x 2395
2882 x 1952 x 2395 1400 x 700 x500
Any 355nm SL
9 to 22 mm/hr*
* should note: Build speed is dependent on layer thickness, material processing parameters, platform loading and application type.
The UnionTech™ PILOT and RSPro series utilize any commercially available industrial grade (355nm) SL material for applications ranging from investment and urethane casting patterns, injection molding tools, large light-weighted parts, as well as metal plated parts with a wide range of physical and mechanical properties.
UnionTech equipment is open sourced for software as well as materials. In 2018 PolyDevs software has been introduced as a cost effective UnionTech option for part preparation.
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WWW.UNIZ.COM
THE FASTEST AND MOST POWERFUL 3D PRINTER IN ITS CLASS
080
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Gold Array Technology Beijing LLC and affiliated companies (UNIZ) is a leading global innovator of professional and industrial 3D printing solutions. UNIZ was founded in 2012 with a simple goal: to make faster, larger and better 3D printers. After 6 years of dedicated research and hard work, UNIZ continues to realize that goal.
Today, UNIZ is a leading provider of LCDbased 3D printers and materials. More and more manufacturers discover why UNIZ 3D printers and materials are better as the company expands into super large format 3D printers such as the zSLTV15, zSLTV23, and zSLTV23L. These devices provide highend results in industrial prototyping and foundry applications.
UNIZ now sells more than five different printers based on the Continuous UniDirection Peeling (cUDP) technology that builds objects at unrivaled speeds in extensive build volumes. The companyâ&#x20AC;&#x2122;s advanced 3D printers serve a variety of medical, professional and industrial needs, and are valued for precision, surface quality, build size and speed. UNIZâ&#x20AC;&#x2122;s intellectual property includes more than 50 pending and granted patents and 20 proprietary materials.
CONTINUOUS UNI-DIRECTION PEELING (cUDP): cUDP is a breakthrough in LCD-based SLA technology developed by UNIZ. It relies on the continuous motion of the build plate in order to provide layer-less surface quality with exceptionally fast build time. cUDP greatly increases efficiency and yields in jewelry making, dental applications, and rapid prototyping.
The Desktop Printer Machine Name
Machine Size
Moulding Size
Speed
SLASH PLUS UDP
350×400 ×530mm (W×H×D)
192×120×200mm
Up to 1200mm/Hour
SLASH PRO UDP
350×400 ×730mm (W×H×D)
192×120×400mm
Up to 1200mm/Hour
Material
General Resin zABS Green, zABS Gray, zABS White, zABS Amber, zABS Ivory, zPMMA, zUDP Gray, zUDP Orange Dental Resin zOrtho ,zSG Jewelry Resin zWax Amber
Price
$3,999
$5,999
Engineering Resin zENG Amber 350×400 ×530mm (W×H×D)
DUO 120×68×200mm
200mm/Hour
More information: www.uniz.com
$6,499
Machine Name
Machine Size
Moulding Size
Speed
Material
Price
zSLTV-15
1200×600 ×700mm (W×H×D)
345.6×194.4 ×450mm
600mm/Hour
1550×900 ×1050mm (W×H×D)
527.04×296.46 x740mm
SLASH DJ2
Industrial Printer
zSLTV-23
$19,999 zWAX Amber, zABS Amber, zENG Amber, zPMMA
200mm/Hour
Please email us at sales@uniz. com
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WWW.VOXELJET.COM
voxeljet is one of the leading manufacturers of industrial 3D printing systems for the production of molds and models for metal casting without tools. voxeljet operates facilities in Germany, USA, United Kingdom, India and China.
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voxeljet SYSTEMS business division focuses on the development, production and distribution of the fastest and most powerful 3D printing systems in the market. Today, voxeljet has a well-coordinated product range that reaches from smaller entry models to large-format machines, and therefore offers the perfect 3D print system for many application areas. voxeljet SERVICES custom parts service centre creates sand molds and plastic models based on CAD data on demand. Small-batch and prototype manufacturers appreciate the automatic, patternless manufacture of their casting molds and 3D models. The companyâ&#x20AC;&#x2122;s customer base includes well-known automotive manufacturers and their suppliers,
foundries as well as innovative companies from the arts design, movie and entertainment industry. The intensive exchange of information between the two business divisions and the close linking of development and production create synergy effects that benefit voxeljet and its customers alike. Experience values gained from discussions with customers make their way into both business divisions, where they are implemented into new and trend-setting solutions and offerings. This unique combination of technical know-how and consistent improvements in technology makes voxeljet a globally respected partner for demanding clients from the world of 3D printing.
Machine Name
Machine Size (mm)
Build Volume (mm)
Materials
VX200HSS
1,700 x 980 x 1,500 mm
290 x 140 x 180 mm
Polyamid 12 (PA12), Polypropylen (PP), Thermoplastic Polyurethan (TPU)
VX200
1.700 x 900 x 1.500 mm
300 x 200 x 150 mm
Sand/PMMA
VX500
1.750 x 1.850 x 2.100 mm
500 x 400 x 300 mm
Sand/PMMA
VX1000
2.800 x 2.400 x 2.300 mm
1.000 x 600 x 500 mm
Sand/PMMA
VX2000
2.500 x 4.900 x 2.700 mm
2.000 x 1.000 x 1.000 mm
Sand
VX4000
19.000 x 9.300 x 4.300 mm
4.000 x 2.000 x 1.000 mm
Sand
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TCT | BUYERSâ&#x20AC;&#x2122; GUIDE 2019
INDEX
3 4 8 10 12 14 16 18 20 22 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 70 72 74 76 78 80 82
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WELCOME LETTER 3D SYSTEMS 3D MAASTRICHT ADDITIVE INDUSTRIES ADD UP ARBURG AURORA LABS BIGREP CUBICURE EOS ENVISIONTEC EXONE FARSOON TECHNOLOGIES FLUX 3D FUSION 3 DESIGN GE ADDITIVE GF MACHINING HP MARK FORGED MATSURRA NEOTECH AMT COHERENT | OR LASER OPTOMEC RE:3D RENISHAW RPS SCIAKY SINDOH SISMA SLM SOLUTIONS STRATASYS THERMWOOD TRACTUS3D TRUMPF ULTIMAKER UNIONTECH UNIZ VOXELJET
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