TCT Buyers Guide 2022

ADVANCED MANUFACTURING MACHINE GUIDE

MAG

3d printing & additive Manufacturing intelligence TCT Magazine provides designers, engineers and buyers information and inspiration to effectively evaluate, adopt and optimise their additive requirements.

evaluation, adoption, optimisation TCT Magazine is the leading authority on the 3D printing and AM technologies changing our world today. From application studies to industry challenges, TCT gives you 360-degree additive insights through features, interviews and expert commentary.

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Welcome to the 2022 TCT Buyers Guide. This annual handbook is designed to help you navigate the additive manufacturing machinery (AM) on the market today and make an informed buying decision. The challenges presented over the last year saw AM hardware put through its paces, from producing PPE to plugging gaps where traditional supply chains were disrupted. The enduring question has been around whether or not this newfound attention will have a lasting positive impact on adoption but the latest figures from market intelligence company CONTEXT indicate this “phenomenal” year-onyear growth in machine sales is set to continue. Machine launches have continued apace, as have technology acquisitions that broaden the scope for applications across industries. That also means the options for those looking to get in on the action and acquire their own piece of AM equipment have become much broader and complex. This year’s TCT 3Sixty conference was full of discussions about what to do when evaluating a new technology; the right questions to ask, what you need to know when devising an AM business plan and how to discover those killer applications. There’s no one size fits all and rarely is there a simple answer to, “What 3D printer should I buy?” Because it’s not just printers either. Over the next 70+ pages, in addition to a mix of polymer, metal and composite machines, you’ll also find auxiliary equipment for post-processing and automation, crucial steps to consider along the end-to-end AM workflow. Whether you’re just starting out or looking to expand your current AM arsenal, use this guide as a jumping off point to answer those burning questions about materials, build size, capabilities and find the right machine for you.

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LAURA GRIFFITHS HEAD OF CONTENT

WWW.3DSYSTEMS.COM

3D Systems launched the 3D printing industry in 1986 and has been leading additive manufacturing innovation ever since. Our broad portfolio of hardware, software, and material solutions spans from plastics to metals, and is backed by industry-specific engineering expertise housed in our Applications Innovation Group. We take a consultative, application-focused approach to solving your most difficult design and production challenges. The combination of our solutions, expertise, and innovation helps our users defy conventional manufacturing limitations and maximize the value of additive manufacturing.

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Headquartered in Rock Hill, South Carolina, with offices, manufacturing facilities, and Customer Innovation Centers around the globe, 3D Systems has the expertise and resources to advance industries.

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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

Build Speed

0.02 to 0.1 mm

Up to 104 mm/ hr vertical build speed

Figure 4™ Standalone 3D Printer

426 x 489 x 971 mm

124.8 x 70.2 x 196 mm

Figure 4 PRO-BLK 10, TOUGH-GRY 10, TOUGH-GRY 15, TOUGH-BLK 20, FLEX-BLK 10, FLEX-BLK 20, RUBBER-BLK 10, ELASTBLK 10, HI TEMP 300-AMB, EGGSHELL-AMB 10, JCAST-GRN 10, MED-AMB 10, MED-WHT 10 - UV Curable Plastics

Figure 4™ Modular 3D Printer

Configuration dependent

124.8 x 70.2 x 346 mm

Figure 4 PRO-BLK 10, TOUGH-GRY 10, TOUGH-GRY 15, TOUGH-BLK 20, FLEX-BLK 10, FLEX-BLK 20, RUBBER-BLK 10, ELAST-BLK 10, HI TEMP 300-AMB, EGGSHELL-AMB 10, MED-AMB 10 - UV Curable Plastics

0.02 mm min.

Up to 104 mm/ hr vertical build speed

Figure 4™ Production 3D Printer

Configuration dependent

124.8 x 70.2 x 346 mm

30+ UV curable materials

0.02 mm min.

Up to 104 mm/ hr vertical build speed

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 660Pro Color 3D Printer

1930 x 810 x 1450 mm

254 x 381 x 203 mm

VisiJet® PXL™ - Full CMYK colours

0.1 mm

28mm/hr max. vertical build speed

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

5-15mm/hr max. vertical build speed

32 μ

1120 x 740 x 1070 mm

295 x 211 x 142 mm

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

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ProJet® MJP 2500 Plus Plastic 3D Printer

VisiJet ProFlex M2G-DUR, Armor M2G-CL engineering plastics VisiJet M2R-WT, M2R-BK, M2R-CL, M2R-GRY, M2RTN rigid plastics VisiJet M2 EBK, M2 ENT elastomeric materials Melt away support

Machine Name

Machine Size (mm; w x d x h)

Build Envelope (mm; w x d x h)

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

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; CE-BK, 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 plastics and composites (powders)

0.08 to 0.15 mm

2.7 l/hr volume build rate

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

1.8 l/hr volume build rate

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

3.0 l/hr volume build rate

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

3.0 l/hr volume build rate

DMP Flex 100 Precision Metal Printer

1210 x 1720 x 2100 mm

100 x 100 x 90 mm

Ready-to-run LaserForm CoCr (B), CoCr (C), 17-4 (B), 316L (B) metal alloys with extensively developed print parameters. Custom material parameter development available with optional software package.

10 μm - 100 μm. Preset: 30 μm

ProX DMP 200 Precision Metal Printer

1200 x 1500 x 1950 mm

140 x 140 x 115 mm

Ready-to-run LaserForm CoCr (B), 17-4 (B), Maraging Steel (B), 316L (B), Ni625 (B) and AlSi12 (B) with extensively developed print parameters. Custom material parameter development available with optional software package.

10 μm - 100 μm. Preset: 30 μm

10μm - 100μm preset: 30 and 60 μm

Adjustable, min. 2 μm, max.200 μm, typ. 30-60-90 μm

Build Materials

DMP Flex 350 and DMP Factory 350 Metal 3D Printers

Model dependent

275 x 275 x 420 mm

Wide choice of ready-to-run metal alloys with extensively developed print parameters, including LaserForm Ti Gr. 1 (A), Gr.5 (A) and Gr.23 (A), CoCrF75 (A), 316L (A), Ni718 (A), AlSi10Mg (A), AlSi7Mg0.6 (A) and Maraging Steel (A). Custom material parameter development available with optional software package.

DMP Factory 500 Solution

Configuration dependent

500 x 500 x 500 mm

LaserForm materials

Layer Thickness

Build Speed

16μ to 32μ

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WWW.ADDITIVEINDUSTRIES.COM

ADDITIVE INDUSTRIES: THE DRIVING FORCE FOR LARGE FRAME METAL ADDITIVE MANUFACTURING.

THE NEXT GENERATION IN PRODUCTIVITY LEADERSHIP: METALFAB G2

Additive Industries is the technology leader in large frame industrial metal AM solutions. MetalFABG2 provides our customers with the highest productivity, best print quality large frame metal AM solution for manufacturing metal component solutions. Headquartered in the Eindhoven / Brainport region of the Netherlands, and with Process & Application Development Centers in Filton UK, Camarillo, CA, USA, and Singapore, we are here to co-develop your business case and application. Among our blue chip customer base are industry leaders such as VW, BMW, AcelorMittal, K3D, Addman, F1 Team Alfa Romeo Racing ORLEN, to name a few.

Productivity Leadership As productivity leaders we often get challenged to push the boundaries of what’s possible in metal additive manufacturing. The first important part of being productivity leaders is the hardware of our MetalFABG2 systems. The MetalFABG2 has automated the manual steps of conventional printers to ensure highest productivity, resulting in the lowest total cost per printed part. With our Powder Load Tool we extend the automation even further, eliminating time needed to fill the system with powder, in a fully inert and safe way. The fully automated process ensures high throughput and reduced operating cost, all focused on achieving the lowest cost per part possible.

Partner with us We offer services to help you develop and deliver compelling business cases that add value and drive your company strategy, to lead you in the design of solutions and develop and define your process and application development to deliver best in class AM solutions. As your partner, we offer services to drive continuous improvement and drive OEE measures to maximise utilization and asset utilization.

Reliable Quality For industrial-quality production, the part reproducibility of the MetalFABG2 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.

“Additive Industries is the only company providing industrially integrated scalable metal additive manufacturing solutions that we can acquire today” Mike Curtis-Rouse, Head of Manufacturing for Space at Satellite Applications Catapult

Easy & Safe Operation The closed and automated MetalFABG2 system puts the needs & safety of the operator first. The goal of Additive Industries is to make systems and solutions that are easy to integrate into industrial environments. That means: no need for long operator trainings, connections to existing workflows, minimum personal protection equipment and complying with local safety standards.

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Please contact us if you want to find out what this can mean for your productivity: sales@additiveindustries.com

Introducing the next generation in productivity leadership MetalFABG2 configurations

Core

Focus on large part production and application development.

MetalFABG2 The next generation of productivity leadership + + + +

150+ updates implemented Optimized gasflow Optimized heat management Productivity and quality optimized process parameters + Automated beam quality measurements + SigmaLabs PrintRite3D ready

Automation

Continuous Production

The first step into fully automated production.

Continuous series production over multiple print cores in one system. Print up to 8 sequential jobs autonomously.

Build volume in mm

Build materials & more

Build speed

420 x 420 x 400 (width x depth x height)

Titanium (Ti6Al4V), Aluminum (AlSi10Mg/ AlSi7Mg0.6), Stainless Steel (316L), Nickel Alloy (IN718, IN625), ScalmAlloy™, Tool Steel (1.2709), M300. Maximum 4 materials are possible in one system

Up to 150cm3/hr

= Double the productivity of the original MetalFAB1

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WWW.AON3D.COM/M2

3D PRINT THE WORLD’S STRONGEST THERMOPLASTICS

ACCESSIBLE FOR ALL

Founded in 2017 by materials engineers and scientists, AON3D is a North American manufacturer of industrial 3D printers focused on application enablement by lowering the barrier to high performance polymers such as PEEK, PEKK, ULTEM™, PC, PA, ABS, and thousands more – including carbon fiber / glass filled / ESD safe variants.

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AON3D solutions drive innovation for hundreds of businesses in 25+ countries worldwide, ranging from small businesses to multinational Fortune 500 corporations. THE AON M2+ MAKES LARGE, HIGHTEMPERATURE 3D PRINTING ACCESSIBLE TO BUSINESSES OF ALL SIZES. A fifth-generation design, the new AON M2+ is a material extrusion 3D printer that provides strong, accurate, and repeatable results with thousands of 3rd party material options. PRECISE THERMAL CONTROL • •

Achieve high part isotropy and in-situ crystallization with a precision controlled, actively heated 135°C+ build chamber. Two 500°C+ carbon-fiber ready extruders provide ungated access to nearly any melt processable thermoplastic.

MECHANICAL ADVANTAGE •

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•

Print full-scale designs and production runs with a largest-in-class build volume (450 x 450 x 580mm). Dual Independent Extruders enable multi-material printing and water-soluble / breakaway supports in a variety of nozzle sizes.

•

Open access to process parameters and data allows for development of new material profiles and quality management processes which fit your application and industry requirements. Affordable total cost of ownership at 1/3rd CAPEX and 1/6th OPEX compared to proprietary systems.

MORE THAN HARDWARE, AON3D HELPS BUSINESSES SUCCEED Leverage on-demand access to polymer focused Ph.D.s and application engineers for part optimization, process parameter development, material exploration, and more. In addition, the AON3D Additive Academy provides knowledge and training courses, allowing businesses to get started quickly.

Machine Name

AON-M2+

Machine Size (mm)

955 x 1150 x 1450

Build Volume (mm)

450 x 450 x 580

Build Materials

PEEK, PEKK, ULTEM™ 9085, ULTEM™ 1010, ABS, ASA, Nylon (6, 6/66, 12), PAEK, PC, PETg, POM, PP, PPSU, PSU, PVDF, TPE, TPU, Carbon fiber / glass filled / ESD-safe materials

Build Speed

Material dependent. Up to 500 mm/s travel speed.

WEB ADDRESS: AON3D.COM/M2 CONTACT: SALES@AON3D.COM

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WWW.AM-FLOW.COM

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AM-Flow enables companies to scale their Additive Manufacturing production by providing digital part identification solutions allowing them to automate their post-processing workflow. Combining expert knowledge in 3D-shape identification, industrial machine vision, and AI software, together with the integration of AM production line hardware and MES software, AM-Flow delivers building blocks to automate the 3D printing process end-to-end.

IDENTIFICATION | SORTING | ROUTING | BAGGING We offer part recognition, sorting, routing, full track & trace of each individual part, and automated bagging with your logo. The benefits of post-processing automation are strategic and tactical. From lowering 3D print cost price & lead times, to leverage factory investments and scaling your business, preventing offshoring, challenge injection molding where possible to accelerating further adoption of 3D printing.

INDUSTRY 4.0 IN 3D PRINTING This next decade, AM needs to deliver on its sustainability promise of local, distributed manufacturing to become more competitive. Lower cost per part and shorter lead times are the key KPI‘s of the industry to drive further adoption. AM-Flow presents the first automated AM post processing production line as the next step in addressing these KPI‘s.

PAPERLESS WORKFLOW With our proprietary workflow software, AM-LOGIC, we provide digital tracking and tracing to make paper use in our industry something of the past. The benefits are clear: increased workflow efficiency, tracking & tracing, certifiable production process, automatic data entry, automatic counting, and Industry 4.0 Digital Thread.

AM-VISION Geometry-based 3D printed part recognition recognition in 0,2 seconds. Automating high mix and high volume – one pieceflow –identifying unique parts, reducing labour costs and providing full tracking & tracing.

AM-SORT High-speed, gentle touch sorting conveyor. In combination with the AM-VISION, the AM-SORT forms a complete sorting unit with dynamic output stations.

AM-BAGGING Bag, Seal, Label, ready for shipping.

Machine name

Machine Size (mm)

Maximum Size models (mm)

Process speed

AM-VISION

1000 x 1100 x 1500

700 x 380 x 580

<<0,2 seconds 5 seconds

AM-SORT

4480 x 1280 x 960 extendable

customizable

< 5-9 seconds convey< 9 seconds or belt max 10m/min

AM-BAGGING

480 x 660 x 560

customizable

< 3 seconds conveyor < 9 seconds belt max 10m/min

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WWW. SOLUTIONS-FOR-AM.COM

With over 80 years of cross-industry knowhow, Rösler is among the worldwide leading suppliers of innovative solutions in the field of surface finishing. In recent years, we have been increasingly dealing with requests for the surface finishing of 3D printed parts. In this sense, we have concluded quickly that, compared to traditional manufacturing processes, additive manufacturing poses entirely new challenges for post processing. Often, these are still solved manually, but this has a negative impact on costeffectiveness and reproducibility. To meet these requirements in the best possible way, we founded the brand AM Solutions - 3D post processing technology, which will be responsible for developing and offering tailormade equipment, process technologies, and consumables for the automated post processing of 3D printed components. Regardless of material, printing process or production volume, we will find the best quality and most economical solution for your post processing requirements. For this purpose, we also gladly advise you already during the design phase of your parts.

AS YOUR QUALIFIED PARTNER WE OFFER YOU: • Decades of experience in the processing and finishing of surfaces for a wide range of industries • Broad portfolio of machines for surface processing/finishing specially developed and adapted for AM • Individually adapted process development for every workpiece and every process step • > 80,000 m2 production and development at the German site • > 400 m2 Customer Experience Center at the German site • Many years of experience in automation / process interlinking • Competent after sales support and worldwide subsidiaries as direct local contacts

WE PROVIDE TAILOR EQUIPMENT FOR: • Unpacking of work pieces • Removal of support structures • Removal of loose and sintered powder from the component surface • Smoothing and cleaning of internal passages • Surface cleaning • Surface homogenization, surface grinding & smoothing and (high gloss) polishing • Surface preparation for subsequent manufacturing steps, e.g. coating and painting • Liquid color smoothing

ABOVE: S1: The smart multi-talent for cleaning, smoothing, and homogenizing

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LEFT: C2: The brand new machine for surface smoothing and dyeing in one single machine

SELECTION FROM OUR PRODUCT PORTFOLIO: Machine Name

Machine Size (mm; w x d x h)

Max. Capacity (mm; w x d x h)

Material Compatibility

S1 Basic

1535 x 1409 x 2035

600 x 700 x 550

Plastics and metal

Cleaning, Surface Finishing and Homogenizing

S1

1434 x 1925 x 2060

800 x 350 x 500

Plastics and metal

Cleaning, Surface Finishing and Homogenizing

S1 Wet

1373 x 1788 x 1994

Ø 600 x 500 (H)

Plastics and metal

Cleaning, Surface Finishing and Homogenizing

S2

3300 x 1500 x 3000

300 x 100 x 150

Plastics

Cleaning, Surface Finishing and Homogenizing

S3 Duo

3000 x 1500 x 2549

1000 x 1000 x 1000

Plastics and metal

Cleaning, support removal, surface finishing

M1 Basic

1440 x 809 x 1175

500 x 150 x 130

Plastics and metal

Surface Finishing, Polishing

M1

1400 x 700 x 1222

500 x 150 x 130

Plastics and metal

Surface Finishing, Polishing

M2

2210 x 2400 x 2480

200 x 150 x 100

Plastics and metal

Surface Finishing, Polishing

M3

2000 x 2721 x 2563

Ø 650 x 300 (H)

Plastics and metal

Surface Finishing, Polishing

C2

2038 x 1050 x 1270

300 x 300 x 300

Plastics

Type of Finishing

Liquid Color Smoothing

Additionally we offer a range of equipment and services provided by our commercial partners.

ABOVE: 400 sqm state-of-the-art Customer Experience Center at our German site

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RIGHT: AM Solutions – 3D post processing technology, a brand of the Rösler Group, at the German site with > 80,000 sqm production and development area

WWW.ARBURG.COM

OPEN UP NEW ADDITIVE MANUFACTURING APPLICATIONS 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. ARBURGs technological progresses using ARBURG Plastic Freeforming (APF) open up completely new applications. Since its market introduction in 2019, the freeformer 300-3X has proven very popular It 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.

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The APF process is suitable for the additive manufacturing of prototypes and industrial functional components in particular. With the freeformer 200-3X for two components and

the 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 geometric and material freedom. Users can apply 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) as well as special plastics for particular applications such as a PC approved for aerospace use (Lexan 940). The range of qualified materials is continuously being expanded. The freeformers are in great demand for applications in medical technology, including for use within the human body. They are suitable for additive manufacturing of individual orthotics, implants made from original biocompatible material and models for surgical preparation. The

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

Build Materials

APF 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 (e.g. ABS, PA10, PC, PP, TPE, PMMA).

Max. melting temperature in the plasticise cylinder

max. 350°C

Max. build chamber temperature

Support Material

Armat 11 (water soluble) Armat 21 (alkaline soluble)

system can process for example medical PLLA (Purasorb PL18), very soft TPE (Medalist MD 12130H) or Resomer LR 706 that imitates human bone to produce implants. In the ARBURG Prototyping Center (APC) at the German headquarters in Lossburg, several freeformers produce benchmark parts for prospective customers. Further machines are used for the same purpose at the company‘s subsidiaries throughout the world. Preliminary trials can be conducted to determine whether the freeformer is actually suitable for the desired part, material and application.

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WWW.CARBON3D.COM

Carbon® provides industry-leading digital manufacturing solutions that empower companies to create high-performance 3D-printed products anywhere and at any scale. Based in Silicon Valley, Carbon joins advanced hardware, software, and polymer materials capabilities on one digital manufacturing platform—giving companies the ability to design and bring better products to market in less time. With Carbon’s ground-breaking Digital Light Synthesis™ process and broad family of best-in-class engineering resins, manufacturers can unlock new business opportunities such as previously impossible product designs, faster design cycles and product launches, on-demand inventory and local production, and mass customization. To learn more, visit www. carbon3d.com and follow Carbon on LinkedIn, Twitter, Instagram, and Facebook.

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Make the widest range of real, functional parts with the broadest portfolio and highest performing polymer materials for 3D printing

Machine Name

Description

XY, Z resolution

Layer thickness

Ideal for functional prototyping and all production levels M2 Printer

Offering speed, accuracy, and an effective build platform size, the M2 is well suited for a wide range of applications. The L1 printer is a sophisticated, proven tool for product designers, engineers, and manufacturers who need to produce at high volumes consistently.

L1 printer

Powering innovative, enduse products like adidas Futurecraft 4D midsoles and Riddell Diamond helmets, the L1 provides the reliability and quality needed for on-demand production.

75 µm, 25, 50 or 100 µm

160 µm, 25, 50 or 100 µm

Layerless, isotropic parts

Layerless, isotropic parts

Accuracy

Build volume

Up to +0.003 in + 0.001 in per dimension size

7.4 x 4.6 x 12.8 in

Up to +70 µm + 1 µm per mm dimension size

Up to +0.003 in + 0.001 in per dimension size Up to +70 µm + 1 µm per mm dimension size

189 x 118 x 326 mm

15.7 x 9.8 x 18.1 in 400 x 250 x 460 mm

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WWW.DIGITALMETAL.COM

Digital Metal®, is a global leader in highprecision metal binder jetting systems for industrial use, and the world’s first company to commercialize state-of-the-art 3D metal printers for production of components with advanced geometries. The proprietary binder jetting technology enables the production of complex objects with superior surface finish and accuracy, which is not possible with competing technologies. When going into mass production of printed components, automation is key. Digital Metal® is continually evolving the automation of binder jetting processes. Companies from all around the world and from many different industries such as Energy, Medical, Dental, Luxury, Automotive, Aerospace and Industrial, rely on components printed with Digital Metal printers.

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Digital Metal also offers printing services in small volumes as well as larger series in the +50 000 range.

The high-precision metal binder jetting printer DM P2500 is built for real production with a robust stable platform. All moving parts have an accuracy down to single micron which is important to minimize deviation and secure consistent repeatability from one build to another. Some of the features are: • Typical dimensional tolerance of ± 0,5 % (2σ) and at best ± 50 µm • Resolution of 35 µm • Surface roughness on average Ra 6 µm without post processing • Wall thickness >0,3 mm and holes >0,2 mm as a guidline. Digital Metal is headquartered in southern Sweden, founded in 2003, started to offer printing services in 2012 and printers in 2017. The company is part of the Höganäs Group, Sweden, (founded in 1797), the world’s largest metal powder producer.

Machine Type

Machine Name

Machine size

Build volume

Build materials

Build speed

50-500 cm3/h

Metal binder jetting

DM P2500

2900 x 1000 x 1700 mm (L x W x H)

250 x 217 x 70 and 250 x 217 x 186 mm

Certified materials Stainless steel 316L Stainless steel 17-4PH Titanium Ti6Al4V Tool steel DM D2 Super alloy DM 625 (equivalent to Inconel 625) Super alloy DM 718 (equivalent to Inconel 718) Super alloy DM 247 (equivalent to MAR M247) Pure Copper DM Cu Low alloy steel 4140

Automated Depowdering

DPS 1000

1300 x 1100 mm (L x W)

N/A

N/A

Powder handling

PPS 1000

2300 x 925 mm (L x W)

N/A

N/A

19

WWW.DLYTE.ES

The metal surface finishing revolution DLyte, the first dry electropolishing brand, created and developed by GPAINNOVA, is a global leader in the world of metal surface finishing equipment. We are reinventing the way to produce high-quality metal surfacing. Whether for small batches or large, we provide the most advanced equipment across the globe. DLyte has succeeded in creating a cost effective, environmentally friendly, and timeefficient technology for surface finishing. We want to provide a unique solution through the leaps and bounds made in technological advanced surfacing. DryLyte’s technology goal is automating, simplifying, and standardizing postprocessing of a wide range of metal parts. GPAINNOVA’s outreach has expanded to: · > 200 employees · 6,000-sqm headquarters and 3 regional subsidiaries · > 400 customers around the world · > 55 accredited sales partners

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We seek to offer process development, on-site consulting, production setup, and technical services, as well as spare parts and consumables.

DLyte has been awarded with the TCT Award for Post-Processing in 2018. The company has been granted with €1.7 million by the EU for research and development of industrial solutions for post-processing. The Technology DryLyte has been characterized by Fraunhofer IAPT as one of the most promising technologies for surface finishing Additive Manufacturing metal parts. The biocompatibility, ease of use, OPEX and final quality of the surface are the key competitive advantages of the technology. THE ULTIMATE SOLUTION FOR SURFACE TREATMENT By combining the power of electrochemistry with a precise mechanical movement, DLyte removes the roughness from the workpieces. It brings significant technical advantages over competing technologies such as abrasive finishing, robotic grinding and polishing, mechanical brush and grinding systems. The DryLyte Technology allows technicians to obtain a quality equivalent to manual grinding and polishing fast and costeffectively.

DLYTE DESKTOP PRO Launched in April 2021, DLyte Desktop PRO is the first ultra-compact dry electropolishing machine on the market. It has been designed to improve the work environment of all kinds of small industries by replacing the manual polishing of metal parts or with equipment that uses hazardous materials for technicians. This device is suitable for polishing cobalt-chrome (CoCr), titanium, and stainless steel with the standard software, and additional metals (copper, brass, nickel alloys, and hard metals) with an optional software upgrade. Due to its low price and small dimensions (450 x 521 x 471 mm), and for not requiring a special pre-existing or compressed air installation (it is based on a plug-and-play system), this device allows any company, no matter the size, to successfully automate its production. DLYTE PRO500 DLyte PRO500 is the most advanced, powerful, and versatile metal surface finishing equipment on the market especially designed for mass production. DLyte PRO500 provides high quality metal surface finishing better, faster, and more efficiently. The new equipment delivers fully automated high-quality surface finishing for high-value, delicate or complex work pieces with precise and targeted finishing requirements. This equipment is the basis of the new DLyte PRO500 Automated Cell, an advanced work cell launched in October 2021 for industries requiring full automation of workpiece handling in mass production lines.

NEW PRODUCT LAUNCH GPAINNOVA will be presenting at Formnext 2021 a new, revolutionary surface finishing technology: Electro Blasting, designed to treat deep, complex geometries. The details will be announced during this trade fair (November 16-19). DLyte eBlast Visit gpainnova.com and dlyte.com

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WWW.DMGMORI.COM

ADDITIVE MANUFACTURING BY DMG MORI END-TO-END PROCESS KNOWLEDGE PROCESS UNDERSTANDING FROM THE DRAWING TO THE FINISHED PART As a global full-liner with over 20 years of experience in the ADDITIVE MANUFACTURING of metal parts, DMG MORI represents innovative manufacturing technologies and a worldwide service. With powder bed and powder nozzle technology, DMG MORI combines the two most important processes under one roof and in addition offer a comprehensive portfolio of CNC machines for post-processing of additively manufactured components from a single source. The portfolio consists of the LASERTEC SLM models and the LASERTEC DED series and thus enables four complete process chains for additive manufacturing using powder nozzle or powder bed technologies.

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The Directed Energy Deposition (DED) with the powder nozzle is characterized by a very high build-up rate. The LASERTEC DED / DED hybrid machines are therefore particularly suitable for components with large volumes. The flexible change between laser and milling / turning machining enables the direct machining of component segments and the integration of the complete production chain in one machine. A twin powder feeder allows multi-material applications and also graded materials. The Selective Laser Melting (SLM) process is particularly suitable for highly complex components with functional integration or internal structures such as cooling channels. Lightweight structures also enable parts and assemblies to be significantly reduced in weight. The integral software solution for CAM programming and machine control CELOS rounds off the process chains for the LASERTEC DED and LASERTEC SLM series.

ADDITIVE MANUFACTURING CONSULTING With its consulting approach, the DMG MORI Academy pursues the goal of supporting companies in developing the required design know-how and establishing the process chains around the LASERTEC DED and LASERTEC SLM series. The consulting portfolio includes services along the entire process chain of additive manufacturing, including the AM Quickcheck as a perfect entry point for exploiting these potentials. In a two-day workshop, experienced DMG MORI engineers support companies in the industry-specific and needs-based introduction of the technology. DMQP POWDER CYCLE: LASERTEC SLM AND POWDER FROM A SINGLE SOURCE Complementary DMG MORI provides a DMQP Powder Cycle within a wide powder portfolio including the related machining parameter set and validation for LASERTEC SLM machines. The DMQP Powder Cycle allows an easy and fast powder ordering and reordering via its Online Shop as well as powder returning and recycling.

ABOUT DMG MORI DMG MORI is the provider for integrated solutions in the manufacturing environment. With Dynamic and Excellence DMG MORI advances future technologies. The portfolio comprises turning and milling machines, the Advanced Technologies ULTRASONIC, LASERTEC DED and Additive Manufacturing LASERTEC SLM as well as consistent automation and digitization solutions. Its customer-focused services covering the entire life cycle of a machine tool include training, repair, maintenance and spare parts service.

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WWW.EOS.INFO

EOS INDUSTRIAL 3D PRINTING: A DRIVER FOR DIGITAL, RESPONSIBLE MANUFACTURING EOS provides responsible manufacturing solutions via industrial 3D printing technology to manufacturers around the world. Connecting high quality production efficiency with its pioneering innovation and sustainable practices, the independent company formed in 1989 will shape the future of manufacturing. Powered by its platform-driven digital value network of machines and a holistic portfolio of services, materials and processes, EOS is deeply committed to fulfilling its customers’ needs and acting responsibly for our planet. Supported by its broader Ecosystem, EOS as well facilitates customized manufacturing solutions along the entire value chain – from the initial idea to design and engineering, production, post-processing and ultimately the finished part.

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3D-printed on EOS technology: eyewear frames from YOU MAWO, with a 44-48 % lower carbon footprint than conventional eyewear (source: YOU MAWO)

Like no other company, EOS masters the interplay between laser and powder. With its product portfolio the company meets the most demanding customer requirements in terms of efficiency, scalability, usability and process. EOS technology offers substantial benefits across industries and fields of application, including aerospace, medical, automotive, turbo machinery, tooling, automation, gripping systems, electronics, spare parts management, and rapid prototyping. With more than 4,000 systems installed, the family-owned company leads the way towards a true paradigm shift in product design and manufacturing. Currently, industrial production is undergoing a fundamental change. EOS is convinced that the future belongs to digital manufacturing, with industrial 3D Printing being one of the key drivers. At the same time, additive manufacturing can play an important role in overcoming the limitations of current manufacturing techniques that are restrictive, wasteful & inefficient.

The realities of climate change are demanding a more sustainable action from governments, societies, and businesses alike. Innovation and technology can help to create a better world for everyone. Extending the boundaries of manufacturing ingenuity to ensure that future production is less harmful to our planet, EOS wants to accelerate the world’s transition to responsible manufacturing. The companies’ purpose is based on the latter. As a market leader, EOS wants to lead by example when it comes to sustainability. This for long has been part of its company DNA, with a strong focus on customers and their applications. EOS nurtures an ecosystem, actively engages its community, and network, and empowers its people to strive for results that increase energy efficiency, reduce waste and use resources conscientiously at every step of the process. All with the very clear intention of establishing Responsible Manufacturing as the ‘new normal’. And to support customers in achieving their own sustainability goals.

ABOVE: Improved design offers same performance but is 35% lighter and made from fewer parts; optimized component reduces fuel consumption as well as CO2 and NOx emissions (source: Liebherr)

BELOW: the EOS company purpose (source: EOS)

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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 11: natural, black Nylon 12: white, natural, glass-filled, aluminum-filled Thermoplastic Polypropylene: unfilled

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 11: natural, black, flame-retardant hal., carbon fiber filled Nylon 12: white, natural, glass-filled, aluminum-filled, flame-retardant hal. & non-hal. Polypropylene: unfilled Thermoplastic Polyurethane: unfilled

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)

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 11: natural, black Nylon 12: white, natural, glass-filled, aluminum-filled, flame-retardant hal. & non-hal. Thermoplastic Polyurethane: unfilled

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

EOS P 396

EOS P 500

Nylon 12: white

EOS P 770

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EOS P 810

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)

Ø 100 x 95 mm (Ø 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) incl. build platform

Cobalt chrome, titanium, stainless steel, maraging steel, tool steel, nickel alloys, aluminium, case hardening steel, copper

5,221 x 2,680 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

Aluminum, Nickel alloy, maraging steel, and further materials under development

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

Nickel alloy, aluminum, titanium, maraging steel, copper

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

EOS M 400

EOS M 400-4

Nickel alloys, maraging steels, stainless steel, aluminium, titanium

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WWW.EXONE.COM

THE EXONE COMPANY - LEADERS IN SAND AND METAL BINDER JET 3D PRINTING FOR 20+ YEARS ExOne is the pioneer and global leader in binder jet 3D printing technology. Its 3D printers quickly transform powder materials — including metals, ceramics, composites and sand — into precision parts, metalcasting molds and cores, and tooling solutions. Companies in a range of industries, from aerospace and automotive to energy and defense, use ExOne printers for research, design and production. About half of the ExOne machines installed globally are used to 3D print sand molds and cores for metal casting, while the other half are being used to directly 3D print metal, ceramics and composite parts.

S-MAX PRO™: EXONE’S FASTEST AND SMARTEST LARGE SAND 3D PRINTER The S-Max Pro™ boasts all-new features and functionality for faster, reliable production of sand molds and cores. Among them, a new control system, improved printhead and recoater, and an optional box-in-box system enabling continuous production. In about 24 hours, it can print two full 1800 x 1000 x 700 mm job boxes — each with a volume of 1260 L.

Headquartered outside Pittsburgh, PA, ExOne also has other facilities in the United States, Germany, and Japan. With a team of worldleading binder jetting experts, ExOne continues to be a thought leader in the 3D printing process — developing new features and methods that improve binder jetting speeds, part quality, materials and ancillary processes.

This full family of production metal 3D printers features the same piezoelectric printhead modules and its patented Triple ACT system for dispensing, spreading, and compacting powders. The X1 160Pro is offered with the new X1D1 automated guided vehicle, which enables transport of 3D printed build boxes.

FULL FAMILY OF PRODUCTION METAL BINDER JETTING SYSTEMS In the last two years, ExOne has announced its largest metal 3D printer, the X1 160Pro™, the X1 25Pro®, and the new InnoventPro.

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From left to right: InnoventPro, X1 25Pro®, X1 160Pro™, and X1D1 automated guided vehicle.

3D Printer

Build Dimensions (mm; LxWxH)

Maximum Throughput

Materials

S-Max Pro:™

1800 x 1000 x700

100-135 L/h

Casting Media: Silica Sand and Ceramic Sand

S-Max:®

1800 x 1000 x700

105 L/h

Casting Media: Silica Sand and Ceramic Sand

S-Print:®

800 x 500 x 400

36 L/h

Casting Media: Silica Sand and Ceramic Sand

M-Flex:®

400 x 250 x 250

1,600 cc/hr; 98 in³/hr

Metal, ceramic, and sand with minimum powder size 15 µm (D50)

Innovent+®

160 x 65 x 65

166 cc/hr; 10 in³/hr

Metals, ceramics, and composites with minimum powder size 2 µm (D50)

X1 25Pro®

400 x 250 x 250

up to 3,600 cc/hr; 220 in³/hr

Metal, ceramic, and sand with minimum powder size 2 µm (D50)

X1 160Pro™

800 x 500 x 400

More than 10,000+ cm3/hr

Metals, ceramics and composites with minimum powder size 5 µm (D50)

InnoventPro 3L*

125 x 220 x 100

700 cc/hr

Metals, ceramics and composites with minimum powder size 5 µm (D50)

Innovent Pro 5L*

125 x 220 x 200

700 cc/hr

Metals, ceramics and composites with minimum powder size 5 µm (D50)

*preliminary figures for machine set to launch in late 2021 WHY IS BINDER JETTING HOT NOW? • Fastest method for 3D printing — a true production option • Lower capital and operating costs make binder jetting scalable • Final part density for metals is 97+% • Process a wide range of materials, including, sand, metal and ceramics • A sustainable earth-friendly process, with less than 10% waste

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New at ExOne: The ExOne Metal Designlab™ by Rapidia delivers Print Today, Parts Tomorrow™ sintered bound metal parts with innovative HydroFuse™ build material, an innovative water-based paste.

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WWW.ADDIBLAST.COM

post processing, redefined Addiblast™ product line by FerroECOBlast® Europe presents the most advanced postprocessing solutions for the additive manufacturing industry, combining 3 key post-processing solutions within the same product line: de-powdering, powder recovery & conditioning and surface treatment of 3D-printed parts. Addiblast™ line is compatible to post process all main brands of 3D printers existing on the market.

MARS01 is designed for manual de-powdering. The base plate with the 3D parts attached is loaded into the workspace on the hand-held rotating table on which the operator has the option of removing the powder with compressed air. The workspace is airtight and prevents any leakage of the powder. It is equipped with openings and built-in gloves, allowing the operator to clean and remove support structures in a controlled environment. Powder can be collected in the bin bellow or connected to the powder extraction unit for reuse.

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MARS02 is designed for automatic plastic powder removal together with surface finishing of complete printed batches. User loads complete batch into the rotating drum, which is located inside the workspace. Blasting and removing the powder is carried out by a process stored in the PLC unit.

BAM blasting cabinets are suitable for various manual processes such as surface smoothing, roughing, unifying and removing of excess sintered powder. Cabinets can be used also for removing support structures and precise removal of powder from extremely complex structures and internal cavitites. It is made of stainless steel and is suitable for all types of shot blasting media. It consists of both injection-suction and pressure blasting systems, giving users extreme flexibility.

MARS03 is designed for a fully automated metal powder removal process for extremely complex metal structures. The whole system is explosion-proof and fully complies with the ATEX Directive, so the treatment of titanium and aluminum powder is not a problem, as the system can produce and maintain a controlled inert atmosphere, keeping oxygen levels below 2%. Fully programmable recipes for rotation movements in X and Z directions along with vibration enables collection of non-sintered metal powders. For the safe loading of heavier jobs, stations are equipped with a unique automatic top lifting door, which allows easy and safe manipulation. STAR02 is designed as a central station that continuously and automatically provides pneumatic transfer, recycling, and conditioning of powder from various sources. It provides a direct connection to the 3D-printer, de-powdering station(MARS03), and can also be used to purify the virgin powder before it is used in the 3D-printer. Powder recovery and conditioning provide significant improvements for serial additive manufacturing production.

Machine Name

Machine Size (mm)

Purpose

Suitable for materials

Workspace Volume

BAM02 L: 800 W: 800 H: 1700

Smoothing, roughing, unifying, , removing support structures, precise powder removal

Stainless Steels, Tool Steels, Cooper Alloys, Titanium Alloys, Nickel Alloys, Stellites, All Nylons, PLA, ABS, TPU, TPE, Ceramic,

650 x 500 x 500 mm

L: 1500 W: 1200 H: 2050

Manual metal powder support structures removal

For reactive or/and nonreactive metal powders: Stainless Steels, Tool Steels, Cooper Alloys, Titanium Alloys, Nickel Alloys, Stellites

Accept build volumes up to 400x400x400mm

L: 1600 W: 1800 H: 2050

Automatic batch plastic de-powdering and surface finishing.

PA + TPU material groups

Accept build volumes up to 400x400x400mm

L: 2000 W: 1200 H: 2050

Fully controlled and automated metal powder removal.

For reactive or/and nonreactive metal powders: Stainless Steels, Tool Steels, Cooper Alloys, Titanium Alloys, Nickel Alloys, Stellites

Accept build volumes up to 400x400x400mm

L: 2000 W: 1100 H: 2080

Automated powder transfer, conditioning and collection. Recycling and conditioning of powder Purifying virgin powder.

For reactive or/and nonreactive metal powders: Stainless Steels, Tool Steels, Cooper Alloys, Titanium Alloys, Nickel Alloys, Stellites

40l powder collection bin

MARS01

MARS02

MARS03

STAR02

33

WWW.FORMLABS.COM

The 3D Printing All-Rounder: Cost-Effective SLS Printing for Your Workplace After spending several years of rigorous development, Formlabs is proud to present our affordable, benchtop SLS 3D printer that prints industrial-grade nylon parts right in your workshop. The Fuse 1 has unparalleled quality and ease of use among SLS printers, delivering production-ready nylon parts with a low unit and per part price. Its large build chamber prints projects of varying sizes - around the clock. The Fuse 1 offers advantages usually only found in industrial SLS printers that cost 10 times as much: 1. Low cost. Thanks to the large build chamber and the reusability of the nylon powder, the Fuse 1 offers industrial quality SLS 3D printing at a low cost per part. 2. High productivity and throughput. During printing, multiple parts can be closely spaced to maximize the available build volume. 3. Design freedom. Because no support structures are required, SLS 3D printing enables the production of complex geometries, interlocking parts, internal channels and other intricate designs. 4. Proven materials for end use. Nylon and its composites are proven, high-quality thermoplastics with mechanical properties comparable to products made from materials used in traditional manufacturing processes, such as injection molding.

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The Fuse 1’s greatest strength is its ability to produce durable nylon parts for end use. Nylon 3D printing combines strength and flexibility while producing parts with small and complex details. This makes it a powerful material for prototyping and end-use parts.

Take control of your product development process: ● Rapid prototyping ● Product models for direct customer feedback ● Functional prototypes ● Sophisticated functional tests of products Assume control of your supply chain and respond quickly to changing demands: ● End-use products ● Small batch production ● Production of novel consumer goods through serial customization ● Production of spare parts ● Durable, resilient fixtures and tooling ● Customized car and motorbike parts, marine equipment, “supply on demand” in the defence sector Together with the Fuse Sift, a complete endto-end ecosystem is created. The Fuse Sift powder recovery station combines part removal, powder recovery, storage and mixing in a single, freestanding unit. The practical and compact unit offers more functions that otherwise require separate tools or manual labor. The Fuse Sift helps you recycle powder, making your workflow more efficient and reducing costs. The Fuse 1 allows a 30% material refresh rate, which means you can print as many times as you like with up to 70% recycled powder.

Machine Name

Printer Dimensions 64.5 × 68.5 × 107 cm (165.5 cm with stand)

Fuse 1

25.4 × 27 × 42 in (65.0 in with stand) (W × D × H)

Build volume

Build materials

16.5 x 16.5 x 30 cm 6.5 x 6.5 x 11.8 in (W × D × H)

Nylon 11, Nylon 12, more coming soon

MEET FUSE 1 LIVE FOR A PERSONAL PRODUCT DEMO AT FORMNEXT, 16-19 NOVEMBER 2021, FRANKFURT, HALL 12.1, D39.

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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. Introduced in April 2018, our flagship 3D printer, the Fusion3 F410 provides industrial/professional 3D printing capabilities for only $4,599 USD.

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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 hightemperature 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, mission-critical 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.HANSWEBER.DE/ADDITIVE

“Made in Germany” is more than just a seal of approval for Hans Weber Maschinenfabrik GmbH. Based in Kronach in Upper Franconia, we exemplify German engineering in process technology as well as plant construction and engineering and consider this mark of quality to be a customer promise. Every single WEBER machine is developed and manufactured in Germany. This quality is part of our corporate identity and attracts customers from all over the world: we combine regionality with global business and rely solely on our own specialists when it comes to developing new techniques. Innovations are tested, refined and finally made ready for the market at the technical centre at our Kronach site. With the new division for additive manufacturing Weber Additive aims to provide its customermachine solutions and help them achieve a fast and cost-efficient use of the large scale 3D printing technology. A high material output of the extruder as well as the processability of a wide range of thermoplastics are the ideal prerequisites to optimally fulfil the technical requirements of the customers. Day by day our experts work on further developments and improvements of our DX technology. Through industrial partnerships and collaborations, we can guarantee rapid technological progress and customer-oriented development. In contrast to conventional manufacturing processes, additive manufacturing involves adding material instead of removing. Complex or internal textures can thus be manufactured very easily, but also very consistently. Another advantage of additive manufacturing is its high level of flexibility, which means it can be used to create products that would not be possible with conventional manufacturing processes.

“Direct extrusion” involves building up components layer by layer from plastified granules. The fact that filaments are not used has several advantages: •

• • • • •

A WEBER single screw extruder can be used to process highly filled, fibrereinforced, high-temperature materials or even soft materials, such as TPRs The high output of the extruder enables faster printing, especially for large-volume components The pellet form of manufacture is much more cost-effective than the common method using polymer filament Material storage and automatic feeding during the AM process live up industrial standards Various colours and customer-specific material blends are cost-effective and quick to produce With many years of experience and bundled know-how, we address the needs of our customers as early as the development phase. Together with our partners we’re moving towards high-tech, customized and user-friendly systems. Our partnerships includes the companies Reichenbacher Hamuel, an expert in CNC machining systems, AiBuild for advanced toolpath generating software and Colossus Printers with their outstanding expertise in development of print process parameters.

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You are welcome to get in touch with our experts to find your adapted machine configuration for your requirements and applications: www.hansweber.de/additive

Gantry System

Build Volume (wxdxh)

Kinematics

Control System

Printer Head

Max print bed temp.

Max build volume temp.

Dimensions (wxdxh)

DX-Series

1600 x 1200 x 1300 mm³

High precision linear axis with ball screw spindle

CNC control BoschRexroth MTX std

AE 20 15.5 D (up to 4.5 kg/h)

300 °C

100 °C (heated, controlled)

3360 x 2300 x 2740 mm³

Robotic System

Build Volume (wxdxh)

Kinematics

Control System

Extruder

Max print bed temp.

Max build volume temp.

Dimensions (wxdxh)

DXRSeries

2400 x 1200 x 1000 mm³ (adaptable)

6-axis industry robot (Kuka, Stäubli, ABB)

Windows IPC, Siemens S7-1500 PLC

AE Series extruders (up to 20 kg/h

300 °C

Print-Mill Combination

Printing/ Milling Volume

Kinematics

Control System

Extruder

Max print bed temp.

Eco LT HybriDX

up to 1335 x 758 x 650 mm³

5-axis milling head

Siemens SinumerikOne

Weber extruder AE20 / AE30 (up to 20 kg/h)

200 °C

Print-Mill Combination

Printing/ Milling Volume

Number of beds

Extruder

Max print bed temp.

Max build volume temp.

Dimensions (wxdxh)

HybridDX PRO

2500 x 2000 x 1000 mm³

Weber extruder AE20 / AE30 (up to 20 kg/h

200 °C

120 °C (heated, controlled)

8000 x 8000 x 3500 mm³

PRINTING: 2 MILLING: 2

PRINTING: 3-axis extruder MILLING: 5-axis milling head

TOOL CHANGE: 12- to 80-tool slots

Modular, adaptable

Max build volume temp.

Dimensions (wxdxh)

up to 5000 x 2800 x 3000 mm³

MACHINE CONTROL SYSTEM: Siemens SinumerikOne

DX 025

Eco LT HybriDX

DXR

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WWW.JUGGERBOT3D.COM

JuggerBot 3D manufactures industrial-grade 3D printers that are uniquely capable of processing performance materials. Their commitment to the industrialization of additive manufacturing led to the launch of their Tradesman Series™, a line of large-format 3D printers that deliver performance and reliability to manufacturers producing highvalue tooling and end-use parts. Use cases include: • Foundry tooling (patterns and core boxes) • Molds for high pressure vacuum forming • Forming dies for light gauge sheet metal • Nesting fixtures for ultrasonic welding • Large-format work holding for CNC machining • Drilling and assembly fixtures • Production parts

Boasting state-of-the-art filament and pellet extrusion technologies, JuggerBot 3D’s printers offer the most versatile capabilities in their class. Every machine fit for filament extrusion comes standard with JuggerBot 3D’s Interdependent Drive System, deploying push and pull forces to optimize control over material. JuggerBot 3D has also partnered with Strangpresse and Oak Ridge National Labs to commercialize pellet extruders capable of printing up to 200 times faster than traditional 3D printers. Manufacturers can access materials that fit their application best at market price, as JuggerBot 3D maintains an open material system. Their close relationships with material suppliers provide operators with additional support for successful development and implementation.

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JuggerBot 3D proudly manufactures their printers in Youngtown, Ohio. Learn more at www.juggerbot3d.com.

Machine Name

Machine Size (mm)

Build Volume (mm)

Build Materials

Build Speed

Third party materials in 1.75mm filament, including: Tradesman Series™ F3-32

2743 x 1829 x 1905

914 x 914 x 609

• Commodity thermoplastics • Flexible thermomplastics • Engineering thermoplastics • Reinforced thermoplastics • High temperature thermomplastics

Nominal Throughput: 60 mm/s

Third party materials in pellet form, including:

Tradesman Series™ P3-44

3175 x 1854 x 2565

1219 x 914 x 1219

• Commodity thermoplastics • Flexible thermomplastics • Engineering thermoplastics • Reinforced thermoplastics • High temperature thermomplastics

0.2 kg - 9 kg (0.5 lbs 20 lbs) per hour

41

WWW.MARKFORGED.COM

Markforged (NYSE: MKFG) is reimagining how humans build everything by leading a technology-driven transformation of manufacturing with solutions for enterprises and societies throughout the world. The Markforged Digital Forge brings the power and speed of agile software development to industrial manufacturing, combining hardware, software, and materials to solve supply chain problems right at the point-of-need. 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. Markforged is headquartered in Watertown, Mass., where it designs its products with over 350 employees worldwide.

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To learn more, visit www.markforged.com.

Machine Name

Machine Size (mm)

Build Volume (mm)

Base Materials

Continuous Fiber Options with Base Material

FX20

1325 x 900 x 1925 mm

525 x 400 x 400 mm

ULTEM™ 9085 filament, Onyx, Onyx FR, Onyx ESD, Nylon White

Carbon Fiber, Fiberglass, Aramid Fiber (Kevlar®), and HSHT Fiberglass

Metal X

575 x 467 x 1120 mm

300 x 220 x 180 mm

117-4 PH stainless steel, D2 tool steel, A2 tool steel, H13 tool steel, Inconel 625, Copper

Industrial Series X7

584 x 483 x 914 mm

330 x 270 x 200 mm

Nylon with Chopped Carbon Fiber (Onyx), Onyx FR (flame retardant), Nylon, Onyx ESD

Carbon Fiber, Fiberglass, Aramid Fiber (Kevlar®) and HSHT Fiberglass

Industrial Series X5

584 x 483 x 914 mm

330 x 270 x 200 mm

Nylon with Chopped Carbon Fiber (Onyx), Onyx FR (flame retardant), Nylon, Onyx ESD

Fiberglass

Industrial Series X3

584 x 483 x 914 mm

330 x 270 x 200 mm

Nylon with Chopped Carbon Fiber (Onyx), Onyx FR (flame retardant), Nylon, Onyx ESD

Desktop Series Mark Two

584 x 330 x 355 mm

320 x 132 x 154 mm

Nylon with Chopped Carbon Fiber (Onyx), Onyx FR (flame retardant)

Carbon Fiber, Fiberglass, Aramid Fiber (Kevlar®) and sHSHT Fiberglass

Desktop Series Onyx Pro

584 x 330 x 355 mm

320 x 132 x 154 mm

Nylon with Chopped Carbon Fiber (Onyx)

Fiberglass

Desktop Series Onyx One

584 x 330 x 355 mm

320 x 132 x 154 mm

Nylon with Chopped Carbon Fiber (Onyx)

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WWW.MASSIVIT3D.COM

Massivit 3D Printing Technologies Ltd. www.massivit3D.com (Tel Aviv Stock Exchange: MSVT) is the leading provider of large-scale 3D printing systems, serving a range of industries including Automotive, Marine, Rail, Architecture, and Scenic Fabrication. The company was established with a vision to overcome existing limitations in 3D printing production speed, size, and material versatility. Massivit 3D’s patented Gel Dispensing Printing (GDP) technology enables ultra-fast production of large-scale parts, prototypes, and molds – at up to 30 times the speed of existing 3D printers. The build volume of Massivit 3D printers facilitates parts up to 1450W x 1110D x 1800H mm. Massivit 3D manufactures and sells proprietary interdisciplinary systems comprising hardware, advanced photo polymer thermoset materials, and sophisticated software. To date, the company provides 5 printing materials developed to serve a range of purposes and industries. Massivit 3D continuously develops new applications to serve its global customers across 40 countries and provides end-to-end services. Founded in 2013, the company is headquartered in Lod, Israel with additional offices in Atlanta, USA and Belgium.

MASSIVIT 5000 – TRANSFORMING MANUFACTURING OF LARGE PARTS FOR AUTOMOTIVE, MARINE, & RAIL The Massivit 5000 is an industrial-grade, largescale 3D printer that empowers manufacturers and service providers to produce large parts, prototypes, and molds within hours, instead of days. Leveraging Massivit 3D’s unique Gel Dispensing Printing (GDP) technology, the Massivit 5000 is designed to serve a range of industries including: Automotive, Marine, Rail, Scenic Fabrication, and Education & Research. The Massivit 5000 enables production of fullscale custom parts up to 1800 mm in height at unprecedented speed. Massivit 3D’s cutting-edge Gel Dispensing Printing technology (GDP) leverages a proprietary, instantly-curing photo polymer gel that cures on-the-fly enabling production of large-scale, hollow models. The end parts are lightweight, durable, and receptive to a variety of post-processing methods. A range of layer thicknesses are available with the Massivit 5000 allowing flexibility for both definition and production speed: 0.5 mm, 0.8 mm, 1 mm, 1.3 mm, and 1.5 mm.

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The Massivit 5000 offers a printing material for high definition and model fidelity. The Dual Material Mechanism allows operators to simultaneously print with a different material on each print head according to application requirements, bringing greater workflow efficiency. Slicing features enable automated file preparation, and an additional 40” flat panel screen provides easy monitoring via 3 internal cameras that can also be used for marketing purposes.

Machine Name

Machine Size

Build Volume

Build Materials

Build Speed

Massivit 5000

3000 x 2200 x 2600 mm

1450 x 1110 x 1800 mm

DIM 110, DIM 100, DIM 90, DIM 20-FR (Flame-Retardant), DIM 300 (Translucent)

300 mm/sec linear speed 35cm /13.7” on Z axis per hour (Printing speed for 1-meter diameter cylinder)

Massivit 10000

3000 x 2200 x 2600 mm

1420 x 1110 x 1500 mm

MASSIVIT 10000 – DIGITALIZING TOOLING FOR COMPOSITE MATERIALS WITH ADVANCED ADDITIVE MANUFACTURING The Massivit 10000 is designed to overcome the bottlenecks of composites tooling with automated additive manufacturing. Based on Massivit 3D’s proprietary Cast-InMotion (CIM) technology, the Massivit 10000 shortens composites tooling workflows by up to 80% – from weeks to just days – across a range of industries including automotive, marine, rail, defense, and construction. It is designed to replace existing tooling methods that are slow, expensive, wasteful, and require extensive manual skilled labor.

Photo Polymer DIMENGEL for Sacrificial Shell Dual Component, Thermoset Casting Material

300 mm/sec linear speed 35cm /13.7” on Z axis per hour (Printing speed for 1-meter diameter cylinder)

Leveraging advanced dual-component, thermoset materials, the Massivit 10000 enables direct printing of a mold, thereby eliminating the need to produce an initial master, and shortening conventional moldproduction workflows from approximately 19 steps down to just four steps. Massivit 3D’s Cast-In-Motion process is more sustainable than existing tooling methods largely because it minimizes material waste at several different stages. The company’s advanced thermoset casting material withstands high temperatures, offers a low CTE equal to or better than aluminum, and provides the only existing true isotropic 3D printed mold. The Massivit 10000 reduces skilled laborassociated costs by 90%, decreases manufacturing costs by 75%, and dramatically shortens overall leads times for composite materials manufacturing.

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WWW.RAISE3D.COM

Raise3D designs and manufactures topperforming 3D printers and additive manufacturing solutions for SMEs and LSEs. With offices in California, Rotterdam, and Shanghai, Raise3D is an ISO9001:2015 and ISO14001certified company, positioned to be a leader in developing complete solutions using FFF additive manufacturing technology for polymers, composite, and metal materials. RAISE3D ECOSYSTEM RaiseFactory Exceptional 3D Printers for High Precision Prints that connect with Raise3D’s software ecosystem. ideaMaker Powerful Slicer with over 200,000 Users Worldwide. ideaMakerLibrary Raise3D’s platform to share and download different 3D printing models and filament settings. RaiseCloud Web-based 3D printing management software that remotely monitors the entire printing production.

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Raise3D Academy Knowledge database for how to use Raise3D products and understand 3D printing industry use cases.

PRO3 SERIES Forged from the Pro2 Series, Raise3D’s newly launched Pro3 Series professional dual extruder 3D printers meet the needs of both production and multi-sized rapid prototyping, with high precision and round-the-clock stable operation. The Pro3 includes features such as: • Interchangeable Hot Ends • Air Flow Manager for Better Heat Dissipation • Auto bed levelling with mesh-leveling and Flatness Detection • Built-in EVE assistant system, preloaded with common printing problems and corresponding solutions.

E2CF The E2CF is a desktop 3D printer optimised for the production of carbon fiber-reinforced parts and other composite materials. Carbon fiber filament has low density, high strength, and it is resistant to corrosion, static electricity and high temperature. It has potential for a wide range of applications within industries that need considerable strength-to-weight ratio in their solutions. The E2CF includes features such as: • High durability nozzle and feeding system enhanced for long term usage with Raise3D Industrial PA12 CF filament • Standalone dry boxes to deal with the high water absorption of nylon and fiberreinforced filaments • New assisted auto-bed levelling process for fiber-reinforced filaments PROFESSIONAL PORTFOLIO Machine Name

Build Volume (mm)

Max Build Plate Temperature

Print Head System

Build Materials

Prize (€)

Prize ($)

PA12 CF, PA12 CF Support, Certified ThirdParty Filaments

3,999

4,499

E2CF (NEW)

330×240×240

110 °C

E2

330×240×240

110 °C

2,999

3,499

PRO3 (NEW)

300×300×300

120 ºC

4,749

5,249

6,249

7,249

3,499

3,999

4,999

5,999

PRO3 PLUS (NEW)

300×300×605

PRO2

305×305×300

PRO2 PLUS

305×305×605

IDEX Independent Dual Extruders

120 ºC

110 °C

110 °C

Dual-head with electronic lifting system

PLA / ABS / HIPS / PC / TPU / TPE / PETG / ASA / PP / PVA / Nylon / Glass Fiber Infused / Carbon Fiber Infused / Metal Fill / Wood Fill

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WWW.RENA.COM

The industrial and fully automated chemicalelectrochemical Hirtisation® process is capable of removing support structures, powder cake and partially melted particles from 3D-printed metal parts and provides a levelling and cleaning of the surface. The process has been specifically developed for the post-treatment of 3D printed metal parts. The method is suitable for all common metals and alloys and all types of printing technology used in additive manufacturing (LBM, EBM, ...). The treatment media used in this multi-step process are material-specific and guarantee a gentle surface treatment. There are no mechanical processing steps involved. World´s first industrial and fully automated autonomous Post-processing of 3D printed metal parts Hirtisation® uses a combination of electrochemical pulse methods, hydrodynamic flow and particle assisted chemical removal with no mechanical processing steps involved. Reaching deeply into cavities and geometric undercuts, up to 100 parts can simultaneously be finished in the H6000. Powder cake and support structures are removed even at inner surfaces were no mechanical treatment can be applied. Thus Hirtisation® acts as enabler for numerous part geometries. In parallel the surface roughness will be reduced while the edge sharpness is retained.

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The full capability of the Hirtisation® process is included in our H-Series fully automated finishing modules:

The H-Series can provide the key factors for the post processing part of the process chain. The unique scalability of the Hirtisation® post-process enables a reproducible, high quality finishing at any scale. With the H-Series industrial finishing module there is no need for any error-prone manual post-treatment steps. The finishing of many parts within two runs simultaneously in the larger H-Series modules will reduce the costs for post processing significantly. This fully automated solution integrates seamlessly into the process chain of additive manufacturing. The post processing via the finishing modules will have no influence on the material properties of the 3D-printed parts. The composition remains unaltered; the mechanical properties stay the same, the parts will leave the finishing module cleaned and vacuum dried. Hirtisation® is the perfect surface pretreatment for subsequent finishing processes such as protective coatings and functional layers! Hirtisation® is based on dynamic chemical/ electrochemical processes. This electrochemistry enables the exact tailor-ing of field lines, on as well the macroscopic level as well as the microscopic level.The result is an electrode and geometry independent dissolution of support structures while leveling the (micro) roughness of the surface.

No Electropolishing – meet the power of dynamic Electrochemistry.

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WWW.RENISHAW.COM/AM

Renishaw designs and manufactures world-leading metal additive manufacturing systems for production of components in a variety of metals, using a process called metal powder bed fusion (or laser melting). Renishaw is a global engineering and scientific technologies company with expertise in additive manufacturing (AM), precision measurement and process control, position and motion control, and healthcare. Renishaw’s additive manufacturing solutions include metal AM systems, software, metal powders, ancillary equipment, accessories, and expert consultation and training. Renishaw can provide turnkey and optimised additive manufacturing solutions for a broad range of applications in the industrial and healthcare sectors.

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Using its experience as a manufacturer and its expertise in process development, Renishaw

supports its AM customers as they explore how metal 3D printing could revolutionise how they design and make products. From aerospace and medical to oil and gas, a wide range of customers use Renishaw’s advanced AM systems to fulfil a variety of industry applications where productivity, durability, customised parts and precision are key. All AM components require a degree of finishing and inspection after they come off the build plate. Renishaw is the only company in the 3D printing industry to offer the technologies and expertise that provide both highly productive metal 3D printing AND control of finishing and downstream processes.

Machine Name

Machine Size

AM 500Q/S series*

Height: 2,130 mm, width: 2,165, depth: 1,236 mm

Build Volume

Build Materials

Build Speed

250 × 250 × 350 mm

Titanium, Ti6Al4V, Aluminium, AlSi10Mg alloy, Cobalt chromium, CoCr, Stainless steel, 316L, Nickel alloys

Up to 150 cm³/hr

* RenAM 500Q/S are Renishaw’s multi-laser AM systems. The RenAM 500 series can be configured with one (S) or four (Q) high-power 500 W lasers, each able to access the whole powder bed surface simultaneously.

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WWW.SINTERIT.COM

Sinterit became well known for introducing the compact version of the most advanced SLS (selective laser sintering) 3D printers. The company’s mission is to support the innovation and creativity of engineers, researchers, programmers, scientists, and visionaries. The system created by Sinterit is present in over forty markets around the world. Now the product line includes three compact SLS 3D printers - Lisa, Lisa PRO, and Lisa X, as well as one new industrial laser sintering 3D printer - NILS 480 with large build volume, fast printing time, and the best ROI on the market.

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Sinterit’s vision, from day one, is to accelerate global development by providing everyone access to this innovative technology. The SLS 3S printing solution by Sinterit is based on ease of use, versatility, and availability, thanks to which the technology of the future becomes available today.

Since 2014, the equipment manufactured by Sinterit has been trusted by engineers, educators, companies from industries such as automotive, prototyping, and product design all over the world. With nine powders (PA 12 Smooth, PA 11 Onyx, PA 11 ESD, PA 11 CF, Flexa Bright, Flexa Soft, Flexa Grey, TPE, and PP Polypropylene) Sinterit has the widest material portfolio available for compact SLS 3D printers. The Powder Handling Station and the set of additional accessories make Sinterit’s solution multi-application ready.

Machine Name

Machine Size (mm)

Build Volume (mm)

Build Materials

Build Speed in mm/h

Lisa

620 x 400 x 660

620 x 400 x 660

“PA 12 Smooth Flexa Grey“

3

110 x 160 x 245

“PA 12 Smooth PA 11 Onyx PA 11 ESD PA 11 CF Flexa Bright Flexa Soft Flexa Grey TPE PP Polypropylene”

3

130 x 170 x 330

“PA 12 Smooth PA 11 Onyx PA 11 ESD PA 11 CF Flexa Bright Flexa Soft Flexa Grey TPE PP Polypropylene”

10-14

200 x 200 x 330

“PA 12 Smooth PA 11 Onyx PA 11 ESD PA 11 CF Flexa Bright Flexa Soft Flexa Grey TPE PP Polypropylene”

10-14

Lisa PRO

Lisa X

NILS 480

690 x 500 x 880

650 x 540 x 1300

1200 x 1200 x 1750

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WWW.SLM-SOLUTIONS.COM

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SLM Solutions is an integrated solutions provider and metal additive manufacturing partner. The company takes a vested interest in customer’s long-term success with metal additive manufacturing, and its robust Selective Laser Melting machines optimize fast, reliable, and cost-efficient part production. SLM Solutions’ experts work with customers at each stage of the process to provide support that elevates the use of the technology and ensures their return on investment is maximized. A publicly traded company, SLM Solutions Group AG is headquartered in Germany, with offices in Canada, China, France, India, Italy, Russia, Singapore, and the United States.

Machine name

Machine size in (mm; w x d x h)

Build Envelope reduced by substrate plate thickness (mm3; w x d x h)

SLM®125

1400 x 900 x 2460

125 x 125 x 125

SLM®280

4150 x 1200 x 2525 (incl. PSV)

280 x 280 x 365

SLM®500

8600 x 4500 x 2700 (incl. permanent filter module, chamber removal station, powder sieve and operating space for all peripheral equipment) 500 x 280 x 365

500 x 280 x 365

SLM NXG XII 600

SLM®800

3900 x 8900 x 4200 Varies depending on machine setup and automation options

Varies depending on machine setup and automation options

600x600x600

500 x 280 x 850

Build materials

Material Cost

Layer Thickness

Price

20 µm - 75 µm

Titanium, Aluminum, Tool Steel and Stainless Steel, CobaltChrome and IN. Parameters for other alloys available on request.

Titanium, Aluminum, Tool Steel and Stainless Steel, CobaltChrome and IN. Parameters for other alloys available on request. *Some materials still being developed and accessed. Titanium, Aluminum, Tool Steel and Stainless Steel, CobaltChrome and IN. Parameters for other alloys available on request.

20 µm - 90 µm

20 µm - 90 µm

Individualized quote available upon request.

Individualized quote available upon request.

20 – 120 µm

20 µm - 90 µm

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WWW.SOLUKON.DE

YOUR TRUSTED PARTNER FOR DEPOWDERING Solukon is the pioneer and technical leader of automated depowdering in additive manufacturing. The company, located in Augsburg, Germany, has extensive experience in the development of AM systems and related peripheral equipment and offers a full range of industrial postprocessing systems. Solukon products mee the highest functionality and safety standards. They are approved for safe and reliable processing of powder materials, including tough-to-handle and reactive metal powders. Solukon provides different systems, each of them optimized for your part size and application. The powder removal systems fit for every laser powder bed fusion manufacturing system on the market.

HOME OF SMART POWDER RECUPERATION SPR® With the introduction of the unique Smart Powder Recuperation technology SPR®, Solukon developed the state-of-the-art process for powder removal. Solukon systems clean metal laser melted parts within a sealed process chamber, using adjustable vibration and automated two-axis part rotation. Through programmable rotation of the build plate around two axes, unfused metal powder is completely removed from complex parts with intricate channels and support structures. Depending on the build material, the process chamber can be rendered inert with safety monitored inert gas infusion.

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ADVANTAGES OF AUTOMATED DEPOWDERING WITH SOLUKON

Machine name:

Machine size in mm

De-powdering volume in mm

Build materials

Maximum part weight in kg

1160 x 985 x 1140

300 x 300 x 230

Reactive and/or Nonreactive metal powders

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1310 x 1100 x 2140

350 x 350 x 420

Reactive and/or Nonreactive metal powders

60

2140 x 1370 x 2160

600 x 600 x 600

Reactive and/or Nonreactive metal powders

300

2160 x 1560 x 2160

600 x 600 x 1000

Reactive and/or Nonreactive metal powders

800

SFM-AT200

SFM-AT350

SFM-AT800/-S

SFM-AT1000-S

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WWW.SPEE3D.COM

SPEE3D IS FOCUSED ON MAKING MANUFACTURING EASIER. Manufacturing in metal is traditionally very complex, expensive, and inflexible and this contributes to supply chain issues for metal parts. These supply chain issues have been exacerbated globally by the recent COVID-19 Pandemic. The world, now more than ever, needs elegant, simple, clean, flexible & reliable metal manufacturing solutions. SPEE3D are here to help solve these issues with metal printers that enable the most affordable additive manufacturing process in the world. SPEE3D 3D metal printers make metal parts the fastest way possible, leveraging cold spray

technology for the production of industrial quality metal parts in just minutes, rather than days or weeks, at production costs. SPEE3D’s patented process works by shooting metal powder through a jet engine nozzle at speeds up to Mach 3. The metal powder is deposited layer by layer upon a substrate intelligently controlled by a robotic arm. The sheer kinetic energy of the process causes the powder to bind together, forming a high-density part without the need for heat to “melt” the metal. As a result, printed parts can safely be handled immediately after the build.

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SPEE3D technology suits the production of parts otherwise produced using sand or die casting with the added benefits of flexibility and the ability to produce parts on-demand at the point of need.

SPEE3D produce the only expedition-ready metal printers, field-tested and proven to be robust enough to be deployed by the Australian Army in 2020. SPEE3D technology is also currently being trialed by other defence forces including the Royal Australian Navy. Headquartered in Melbourne, Australian, SPEE3D is committed to helping manufacturers print their parts, their way, when they need them.

Machine Name

Machine Size (mm)

Build Volume (mm)

Materials

Build Speed

LightSPEE3D

Machine footprint: 3130 x 1460 x 2325mm

300 x 300 x 300mm (4kg)

Copper and Aluminium (In development: Alumium Bronze, Stainless Steel)

100g/minute

WarpSPEE3D

Machine footprint: 3910 x 2723 x 2742mm

1000 x 1000 x 700mm (40kg)

Copper and Aluminium (In development: Alumium Bronze, Stainless Steel)

100g/minute

SPEE3Dcell

Select either a WarpSPEE3D or LightSPEE3D depending on your needs

As above

Copper and Aluminium (In development: Alumium Bronze, Stainless Steel)

100g/minute

SPEE3Dcell is everything you need to go into production. The SPEE3Dcell packages a SPEE3D printer together with a heat treatment oven* and a CNC 3 axis milling machine* for post-processing.

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*Specifications vary depending on customer requirements

WWW.STRATASYS.COM

THE ADDITIVE MANUFACTURING LEADER During the last 18 months Stratasys has added an additional three 3D Printing technologies to its portfolio, bringing the widest range of polymer materials and application possibilities to industry. As well as producing PolyJet and FDM 3D printers, we have added stereolithography, a digital light processing (DLP) technology called P3 or Programmable PhotoPolymerization, as well as a powder bed process called SAF or Selection Absorption Fusion to its range of capabilities.

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STEREOLITHOGRAPHY The addition of stereolithography allows prototypes, rapid tooling and master patterns with the state-of-the-art Neo stereolithography range. The reliable and proven Neo builds high-quality parts with superior surface quality, accuracy and detail. It also delivers a reduction in finishing time by up to 50%. An open material system means users are not restricted by the usual parameter constraints, offering the ability to utilize any commercially available 355nm hybrid resin chemistry.

POLYJET PolyJet is still largely used by designers for early-stage form, fit and function prototypes to concept validation in high resolution fidelity. PolyJet technology offers multi-material and full colour 3D models with a smooth and accurate finish. FDM There has been a significant shift in the manufacturing industries acceptance of additive technology in the last few years, with jigs, fixtures, tooling and increasingly enduse production parts all being produced on FDM 3D printers. FDM offers a wide range of real thermoplastic polymers that can offer ESD, chemical resistance, biocompatibility, low FST and critically is certified for use in many industries including aerospace, automotive, rail and defence. PROGRAMMABLE PHOTOPOLYMERIZATION (P3) P3 technology is transformative, as it enables mass production of end-use parts in a diverse range of high-performance materials. It allows the repeatable industryleading accuracy, consistency, detail and throughput, from biocompatible medical devices to aerospace-grade components and everything in between.

Origin One’s P3 technology utilizes computer vision and 25+ environmental sensors to monitor and respond to every important aspect of the print process. In situ analytics, combined with automatic pressure, pull force and temperature regulation, ensure the first part is the same as the last. SELECTIVE ABSORPTION FUSION (SAF) SAF technology is behind the H350 3D printer, designed for production-level throughput of end-use parts. SAF uses powder-based additive manufacturing to achieve accurate, consistent production at competitive part costs. SAF technology uses an infrared-sensitive HAF (High Absorbing Fluid) to fuse particles of polymer powder together in discreet layers to build parts. It uses Big Wave™ powder management, a proprietary technology that includes powder distribution across a bed, where industrial-grade Piezo-electric print heads jet the fluid in prescribed areas to create each layer of the part. This is followed by exposure to infrared energy, which causes the areas with HAF to melt and fuse together. The sequence is repeated until the parts are completed.

Stratasys technology scales with you, helps you stay agile and flexible, and will be your partner in training staff, providing new materials options and application advice to help you unlock the capability of additive manufacturing. We pride ourselves on delivering systems to professional and industrial customers that depend and expect repeatability, high-tolerance prints and successful builds every time with minimum set up and automatic fast calibration.

MAKE IT WITH STRATASYS.

WHY STRATASYS? No other 3D Printer manufacturer can match the end-to-end easy capabilities and integration of Stratasys machines, with software that enables easy integration with your chosen CAD program, automatic drag and drop file preparation, tick box part build options and easy multi departments / site access to printers with upfront part build cost and print time information.

Technology

Stereolithography

Machine Name

Machine Size (mm)

Build Volume (mm)

Neo 800

1350 x 1630 x 2300 mm

800 x 800 x 600 mm

Neo 450s

1050 x 1225 x 1900 mm

400 x 400 x 450 mm

Neo 450e

1050 x 1225 x 1900 mm

400 x 400 x 450 mm

Build Materials

Open resin system, compatible with commercially available 355 nm stereolithography resin Open resin system, compatible with commercially available 355 nm stereolithography resin

Open resin system, compatible with commercially available 355 nm stereolithography resin

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Technology

Machine Name

J35 Pro

PolyJet

J55 Prime

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J8-Series

Machine Size (mm)

651 x 661 x 774 mm

651 x 661 x 1511 mm

Up to 1400 x 1260 x 1100 mm

Build Volume (mm)

Round Rotating Print Tray with up to 1,174 cm2 Print Height: 158 mm

Up to 490 x 390 x 200 mm

355 x 305 x 305

Build Materials

VeroUltra WhiteS VeroUltra BlackS VeroUltra ClearS DraftGrey Elastico Clear Elastico Black RGD531 (Ivory) RGD515+ SUP710™ Vero ContactClear

VeroCyanV VeroMagentaV VeroYellowV VeroPureWhite VeroBlackPlus VeroClear DraftGrey VeroUltra WhiteS VeroUltra BlackS VeroUltra ClearS Elastico Clear Elastico Black Vero ContactClear Digital ABS Plus

Vero family of materials in black, white and gray Agilus30 family of flexible materials Transparent VeroClear and VeroUltraClear VeroUltra materials in black and white

Technology

Machine Name

J5 - DentaJet

J5 - MediJet

Machine Size (mm)

651 x 661 x 1511 mm

651 x 661 x 1511 mm

Build Volume (mm)

Round Rotating Print Tray with up to 1,174 cm2 Print Height: 190 mm

Round Rotating Print Tray with up to 1,174 cm2 Print Height: 190 mm

PolyJet (Healthcare)

J-Series Dental

J750 Digital Anatomy 3D Printer (DAP)

1400 x 1260 x 1100 mm

1400 x 1260 x 1100 mm

490 x 390 x 200 mm

490 x 390 x 200 mm

Build Materials Biocompatible materials: Biocompatible Clear MED610 VeroGlaze (MED620) Flexible clear biocompatible material MED625FLX Vibrant colors including: VeroCyanV (RGD845) VeroMagentaV (RGD852) VeroYellowV (RGD838) VeroDent PureWhite (DEN847)

Biocompatible materials: Biocompatible rigid transparent (MED610) Biocompatible Opaque (MED615RGD IV) Rubber like: Elastico Clear (FLX934) Rigid Transparent Colors: VeroCyan V VeroMagenta V VeroYellow V VeroUltra ClearS VeroBlackPlus DraftWhite (MED837 VeroDent (MED670) VeroDentPlus (MED690) Biocompatible (MED610) Biocompatible (MED620) Biocompatible (MED625FLX) VeroCyanV, VeroMagentaV VeroYellowV VeroClear Tango Agilus30 VeroClear Vero VeroVivid colors Agilus30 TangoPlus TangoBlackPlus VeroClear VeroUltraClear TissueMatrix BoneMatrix Biocompatible Clear Digital ABS Plus Digital ABS2 Plus

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Technology

FDM

Machine Name

Build Volume (mm)

Build Materials PLA3 ABS-ESD7 ABSM30 ABS-CF10 ASA Diran 410 TPU 92A, PC-ABS QSR Support material

F123-Series

1626 x 864 x 711 mm

Up to 355 x 254 x 355 mm

F770

1750 x 1240 x 1960 mm

1000 x 610 x 610 mm

ASA – Ivory ABS-M30 – Black SR-30™ soluble support material

406 x 355 x 406 mm

ABS-M30, ABS-M30i, ABS-ESD7, Antero 800NA, Antero 840CN03™ ASA, PCISO, PC, PC-ABS, FDM Nylon 12, FDM Nylon 12CF, ST-130, ULTEM™ 9085 resin, ULTEM™ 1010 resin

FORTUS 450mc™

FORTUS 900mc™

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Machine Size (mm)

1295 x 902 x 1984 mm

2772 x 1683 x 2027 mm

914 x 610 x 914 mm

ABS-M30 ABS-M30i, ABS-ESD7 Antero 800NA Antero 840CN03 ASA PC-ISO, PC PC-ABS PPSF FDM Nylon 12 FDM Nylon 12CF FDM Nylon 6 ST-130 ULTEM 9085 resin ULTEM 1010 resin

Technology

Machine Name

Machine Size (mm)

Build Volume (mm)

Programmable Photopolymerization (P3)

Origin One

490 x 510 x 1130 mm

192 x 108 x 370 mm

Selective Absorption Fusion (SAF)

H350

1900 x 940 x 1730 mm

315 x 208 x 293 mm

Build Materials

Photocurable materials from Stratasys ecosystem material partners. Refer to Stratasys website for an up-to-date selection.

Stratasys High Yield PA11

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WWW.TIERTIME.COM

Beijing Tiertime Technology Co., Ltd. (Tiertime) is a leading innovator and 3D printing solution provider in global 3D printing industry. Its product line includes industrial 3D printer, the Inspire series, and the desktop 3D printer, the UP series, with respective 3D printing software and printing material. Tiertime headquarter locates in Beijing, China, and it reaches out the global market with business establishment all over the world.

With advanced technology and quality, ease of use and competitive price, Tiertime 3D printer has been used in various industries, including aerospace, aviation, medical treatment, manufacturing, education, design and fashion, and it is widely engaged in customized production, product sample design and model printing, product display, market research, educational experience and DIY work practice. Tiertime devotes to the commitment of best user experience as top business objective, with continuous elaboration on R&D of new technology and new product.

Below: UP300 - Fully Enclosed Industrial Printer

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Above: UP600/UP600D with Big Build Volume

Machine Name

Machine Size (mm)

Build Volume (mm)

UP600/UP600D

780x1150x850

500x400x600

UP350/UP350D

570x660x620

350x350x350

UP300

500x523x460

205x255x225

Dual:180x235x225

UP300D

500x523x460 Single: 205x255x225

X5 - Continuous 3D Printer

850x625x520

180x230x200

UP BOX+

493x517x493

205x255x205

UP Plus 2

240x355x340

140x140x135

Materials Build

Build Speed

ABS, ABS+, PLA, TPU, PVA, Breakaway and any thermal plastic filaments, including Industrial grade filaments.

15.6mm^3/s

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WWW.THERMWOOD.COM

Thermwood is a US based, multinational, diversified machinery manufacturer that markets its products through offices in 11 countries. Thermwood is the oldest manufacturer of highly flexible, 3 and 5 axis high-speed machining centers known as CNC routers. We primarily market to the aerospace, plastics, composites and woodworking industries, but have found applications in almost every major industry from medical to entertainment. Thermwood is also the technology leader in large scale additive manufacturing of thermoplastic composite molds, tooling, patterns and parts with its innovative line of LSAM (Large Scale Additive Manufacturing) machines that both 3D print and trim on the same machine. These are some of the largest and most capable additive manufacturing systems ever produced and are marketed to major companies in the aerospace, marine, automotive and foundry industries as well as military, government and defense contractors. Thermwood has a strong ongoing research and development effort combined with core skills in diverse technical areas such as ultra high-performance control system design, real

time software development, CAD/CAM software development, advanced machine structure design, machine motion dynamics, thermal design and polymer science. Thermwood was the first company to develop a CNC control system in the 1970s, and today our control has advanced to become one of the most powerful and capable available. It is highly regarded and used by major aerospace, automotive, government and defense contractors for some of their most demanding applications. Thermwood embraces all aspects of the essential technology, the machine, the control and the driving software. This better integrates all aspects of state-of-the-art technology into superb products to meet the most demanding customer requirements. Thermwood machines are designed to operate in real production environments 24 hours a day, 7 days a week, 365 days a year with minimal maintenance. Many, if not most, customers go years without experiencing a technical issue. Thermwood’s technical service is ready to help if ever needed. From highly innovative virtual service to the ability to ship almost any part of any machine overnight, to providing updates, upgrades and rebuilds of older machines, to indepth training both at the machine purchase and any time after. Thermwood service is available to anyone who owns a Thermwood machine whether it was purchased from us or on the used market.

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Our key guiding principal is to insure that Thermwood users continue to profit as a result of their relationship with us.

Machine Name

LSAM 1520

LSAM 1540

LSAM Additive Printer 5’ X 10’

LSAM Additive Printer 10’ X 5’

Machine Size (mm)

3048 x 4572 x 6096 (X - Y - Z)

3048 x 4572 x 12192 (X - Y - Z)

1524 X 3048 X 1219 (X - Y - Z)

3048 X 1524 X 1219 (X - Y - Z)

Build Volume (mm)

Materials

Build Speed

457,200

PSU, PESU, ABS (carbon fiber filled and glass filled), PEI/ULTEM, POLYCARBONATE, PPS, PETG, POLYETHEYLENE, POK

Deposition rates from 200 lbs per hour to 500 per hour depending on the melt core and polymer used.

1,097,280

PSU, PESU, ABS (carbon fiber filled and glass filled), PEI/ULTEM, POLYCARBONATE, PPS, PETG, POLYETHEYLENE, POK

Deposition rates from 200 lbs per hour to 500 per hour depending on the melt core and polymer used.

60,960

PSU, PESU, ABS (carbon fiber filled and glass filled), PEI/ULTEM, POLYCARBONATE, PPS, PETG, POLYETHEYLENE, POK

Deposition rates from 200 lbs per hour to 500 per hour depending on the melt core and polymer used.

60,960

PSU, PESU, ABS (carbon fiber filled and glass filled), PEI/ULTEM, POLYCARBONATE, PPS, PETG, POLYETHEYLENE, POK

Deposition rates from 200 lbs per hour to 500 per hour depending on the melt core and polymer used.

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WWW.TRUMPF.COM/S/ADDITIVEMANUFACTURING TRUPRINT 5000 WITH 500 °C PREHEATING OPTION: FIRST TIME RIGHT

THE RIGHT SOLUTION FOR EVERY METAL AM APPLICATION From prototyping to industrial series production. As a pioneer in additive technologies and laser specialist since 1979, we offer the right technology for every application requirement: Laser Powder Bed Fusion or Laser Metal Deposition. Benefit from complete industrial solutions with intelligent monitoring and smart services from a leading high-tech mechanical engineering company worldwide. Are you looking for an application that you would like to produce additively? Talk to our AM Consulting.

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Visit our AM showroom, live oder online: www.trumpf.info/am-showroom

Imagine being able to print larger components from titanium alloy Ti6Al4V (Ti64) or tool steels H11 (1.2343) / H13 (1.2344) and getting instantly perfect results. No cracks, less thermally induced stress in the component and no problems from detached support structures. NOT POSSIBLE? IT IS POSSIBLE: As a semi-automated, medium-format machine, the TruPrint 5000 features an industrial exchangeable cylinder principle combined with substrate plate preheating of up to 500 °C. This saves you money. Fast cylinder exchange despite the 500 °C hot parts inside - means the cylinder cools down outside the machine in a cooling station. The TruPrint 5000 instantly prints the next build job, increasing the productivity of your 3D printer. First time right.

POWDER BED FUSION (PBF): 3D METAL PRINTERS Machine Name

Machine Size (mm)

Build Volume (cylinder)

Build Materials

Max Laser Power at the Workpiece

Beam Diameter

TruPrint 1000 Green Edition

TruPrint 1000: 1445 x 730 x 1680 TruDisk 1020: 1340 x 728 x 1430

Ø 97 × H 100 mm

Copper, copper alloys or precious metal alloys

1 × 500 W (TruDisk Laser 1020)

200 μm

Unpacking: Internal Monitoring: Condition, Powder Bed, Performance

Ø 100 × H 100 mm

Stainless steels, tool steels, aluminum, nickel-based, cobaltchrome, copper, titanium or precious metal alloys, amorphous metals

30/55 μm

Unpacking: Internal Monitoring: Condition, Powder Bed, Performance New options: - Multiplate for 4 build plates printing without a stop - Preform for printing single abutments on pre-built base parts

Ø 200 × H 200 mm

Stainless steels, tool steels, aluminum, nickel-based, cobaltchrome or titanium alloys, amorphous metals

55 μm

Preheating: Up to 200 °C Unpacking: Internal under shielding gas Periphery: Powder preparation station Monitoring: Condition, Powder Bed, Melt Pool, Performance

80 μm

Preheating: Up to 200 °C Unpacking: Internal under shielding gas or external with interchangeable cylinder in depowdering station (optional under shielding gas) or with unpacking station Periphery: Industrial part and powder management Monitoring: Condition, Powder Bed, Melt Pool, Performance

80 μm

Preheating: Up to 200 °C (basic machine), up to 500 °C (optional) Automatic process start: Yes Unpacking: External with interchangeable cylinder in depowdering station (optional under shielding gas) or with unpacking station Periphery: Industrial part and powder management Monitoring: Condition, Powder Bed, Melt Pool, Performance

TruPrint 1000

TruPrint 2000

TruPrint 3000

TruPrint 5000

1445 x 730 x 1680

2180 x 2030 x 1400

3385 x 1750 x 2070

4616 x 1645 x 2038 With 500 °C option: 5266 x 1645 x 2038

Ø 300 × H 400 mm

Ø 300 × H 400 mm Ø 290 x H 390 (reduction with 500 °C preheating option)

Stainless steels, tool steels, aluminum, nickel-based, or titanium alloys

Stainless steels, tool steels, aluminum, nickel-based, or titanium alloys

1 × 200 W Multilaser option: 2 × 200 W (TRUMPF fiber laser)

1 × 300 W Fullfield multilaser option: 2 × 300 W (TRUMPF fiber laser)

1 × 500 W Fullfield multilaser option: 2 × 500 W (TRUMPF fiber laser)

3 × 500 W Fullfield multilaser (TRUMPF fiber laser)

Further Information

Laser Metal Deposition (LMD): From coating to repair through to additive manufacturing Machine Name

Build Volume

TruLaser Cell 3000

800 x 600 x 400 mm

TruLaser Cell 7040

4000 x 1500/2000 x 750/1000 mm

Build Materials Stainless steels, tool steels, aluminum, nickel-based, cobaltchrome, titanium or copper alloys, tungsten or titanium carbides

Further Information DepositionLine technology package for LMD: Configurable solution from beam source, powder feeder, optics, and nozzle High-speed laser metal deposition for rotationally symmetric components

Also individual integration into your OEM solution

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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.

The company’s customer base includes wellknown automotive manufacturers and their suppliers, foundries as well as innovative companies from the arts design, footware, construction, movie and entertainment industry.

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 wellcoordinated product range that reaches from smaller entry models to large-format machines, and therefore offers the perfect 3D print system for many application areas.

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.

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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.

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), Ethylenvinylacetat (EVA)

VX1000HSS

2320 x 2835 x 1965

1000 x 540 x 180

Polyamid 12

VX200

1.700 x 900 x 1.500 mm

300 x 200 x 150 mm

Sand/PMMA/Ceramic

VX500

1.750 x 1.850 x 2.100 mm

500 x 400 x 300 mm

Sand/PMMA/Ceramic

VX1000

2.800 x 2.400 x 2.300 mm

1.000 x 600 x 500 mm

Sand/PMMA/Ceramic

VX1300X

2570 x 3120 x 2500 mm

1300 x 500 x 600 mm

Sand

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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NOTES

NOTES

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INDEX

TCT | BUYERS’ GUIDE 2022 1 WELCOME LETTER 2 3D SYSTEMS 6 ADDITIVE INDUSTRIES 8 AON3D 10 AM FLOW 12 AM SOLUTIONS 14 ARBURG 16 CARBON 18 DIGITAL METAL 20 DLYTE 22 DMG 24 EOS 28 EX ONE 30 FARSOON 32 FERRO 34 FORMLABS 36 FUSION 3D 38 HANS WEBER 40 JUGGERBOT 42 MARKFORGED 44 MASSIVIT 3D 46 RAISE3D 48 RENA 50 RENISHAW 52 SINTERIT 54 SLM 56 SOLUKON 58 SPEE3D 60 STRATASYS 66 TIERTIME 68 THERMWOOD 70 TRUMPF 72 VOXELJET

3D PRINTING & ADDITIVE MANUFACTURING INTELLIGENCE

8 9 JUNE 2022 NEC, Birmingham, UK

Evaluation. Adoption. Optimisation. The UK’s premier showcase of additive manufacturing and 3D printing technology. An event focused on developing real understanding at all levels of UK industry of the potential of additive manufacturing and 3D printing. The best way to put your business in front of one of the fastest growing additive manufacturing markets in the world.

Book Your Stand Today! www.tct3sixty.com Co-located Shows

WEB

Rapid News Group Head Office: Carlton House, Sandpiper Way, Chester Business Park, Chester, CH4 9QE t: +44 (0) 1244 680 222 Company No: 4327046. Registered in England. VAT Registration No. GB 253 8299 74