Superior Glove - Beeswift by Beeswift Nederland

WORK GLOVES FOR COMFORT, SAFETY AND SAVINGS E U R O

P R O D U C T

C A T A L O G

2017-2018

INTRO.................................................3-11 CUT-RESISTANT GLOVES...............12-23 Leather Palm Cut-Resistant Gloves Palm Coated Cut-Resistant Gloves String-Knit Cut-Resistant Gloves PALM-COATED GLOVES.................24-26 IMPACT-RESISTANT GLOVES.........29-33 CUT-RESISTANT SLEEVES..............33-35 HEAT-RESISTANT GLOVES...................37 ANSI/EN388 STANDARDS...............38-42

Welcome to Superior Glove’s latest catalog. Why the bare hands on the cover? Because that’s what we design for. We don’t design for the coolest look. We don’t design to formulate the most advanced palm coatings. We don’t design with technical yarn fabrication in mind. We design for your bare hands. Your bare hands, in their purest form, are one of the world’s most adept and advanced tools. With 27 bones and 123 ligaments, the human hand is unparalleled in the animal kingdom. And we know that what you do each day, when you arrive at work, puts those hands at risk. Our job is simply to mitigate that risk. And so we design, and we innovate. We test, adjust, and redefine what it means to wear work gloves. Safety gloves. That’s what we create for you. It’s your hands that do all the work – we just keep them safe. Like the rest of the human body’s moving parts, the functions of the hand are defined by muscular movements; the flexor muscles on the underside of the forearm (this is what allows you to bend the fingers and thumbs) and the extensor muscles on top of the forearm (this is what allows you to straighten out the fingers and thumbs). This catalog showcases our finest selection of safety gloves. It also features our award-winning lineup of protective sleeves. Arms protected, hands protected. Delivered to you in comfortable, lightweight, and ergonomically designed solutions, this armor will ensure that you have a great day at work. (Want to know more about Superior Glove? Check out the “About Us” page on superiorglove.com.) Thank you,

Tony Geng President

European Office +44 (0) 7748 801 833 | graham.ayers@superiorglove.com superiorglove.com

ADVANTAGES OF TENACTIV™ IN PROTECTIVE GLOVES HIGH ABRASION RESISTANCE

The most important difference between other fibres and TenActiv™ fibre is the level of comfort it can give to a glove. Today, wearing comfort is as important an attribute as technical performance in protective gloves. If gloves are not comfortable to wear, employees won’t wear them all the time, especially if they need to do other things (work or non-work related) where a high level of dexterity is required. The risk therefore of employees returning to their work stations and not wearing adequate glove protection is high, and this can lead to potential injuries (which can lead to ‘indirect’ costs). TenActiv™ fibre disperses body heat quickly to the outside of the glove, unlike traditional materials like leather or cotton that insulate. Thanks to this, hands stay cool all day long! Tests have demonstrated that when wearing a glove with TenActiv™, the actual hand temperature stays very close to normal body temperature, while gloves with other fibres (like cotton, leather or aramids) caused an increase in hand temperature of 3-4°C degrees above body temperature (see figure 3). This will cause sweating and an uncomfortable feeling.

Thanks to the smoothness and high crystalline properties of the TenActiv™ fibre, the abrasion resistance is extremely high and cannot be matched by any other fibre. Tests have demonstrated that gloves made with TenActiv™ have up to 20 times better abrasion resistance than gloves made, for example, with Aramid (spun) yarns, which will have a significant effect on the durability and longevity of the glove.

Figure 1: Relative protection level decline in relation to abrasion.

Dyneema® is a registered trademark of Royal DSM N.V.

ANSI

COMFORT

TenActiv™

Protective gloves are often exposed to sharp objects that can abrade the glove. The more a glove is abraded the less protection it offers. Naturally, the higher the abrasion resistance a glove offers, the longer the wearer is protected in a consistent way. As can be seen in ﬁgure 1, gloves with TenActiv™ offer a consistent cut performance during the lifetime of the glove, where other materials deteriorate during wear.

LAUNDERABILITY AND RE-USE Thanks to its chemical structure, TenActiv™ is inert to most of the aggressive agents used in industrial laundering, as well as and environmental influences such as UV. This enables you to wash TenActiv™ under the most harsh conditions, such as dry-cleaning and bleaching without affecting the specific properties of TenActiv™. Standard chemicals, typically used in industrial laundering such as detergents, ammonium, sodium hydroxides, hydrochloric acid, etc., are not known to affect the performances of the TenActiv™ fibre. This enables you to wash and re-use the gloves many times. In figure 2, the effect of industrial washing on cut and abrasion resistance is shown. Figure 2: Effect of washing on Cut and Abrasion resistance of TenActiv™.

TENACTIV™ KEEPS YOUR HANDS COOL The heat accumulation on the inside of a glove after one hour of static wear shows that there is a correlation between hand temperature and TenActiv™ content in a glove. Figure 3: Hand temperature compared between wearing a glove w/TenActiv™ or p-Aramid.

The pictures illustrate what the end user will feel. The hands will stay dry and cool when wearing gloves all day. The actual hand temperature will stay close to body temperature while gloves with other ﬁbres cause an increase in hand temperature of several degrees above body temperature. The result is that the more TenActiv™ ﬁbre is used in the glove, the more comfortable and cooler it will feel.

40°C/104°F

36°C/97°F

25%

50%

100%

™

The more TenActiv , the cooler the hand.

ADVANTAGES OF KEVLAR® Kevlar® fibre is incredibly strong, tough, and resistant to heat, flame and cuts. This unique combination of high-performance properties makes Kevlar® ﬁbre the solution for many demanding applications: – Ballistic vests & hard armour – Cut and heat-resistant gloves & sleeves – Fireﬁghter turnout gear

– Ropes & cables – Tires / Mechanical rubber goods – Composites In addition to its impressive list of inherent properties, Kevlar® is available in a wide range of fibre forms, providing protective-apparel manufacturers with plenty of design flexibility. Some of these fibre forms include spun yarns, textured filaments, and engineered blends that incorporate other fibres and colours. Consequently, end users can rely on the fact that they will be able to benefit from the protection offered by Kevlar® regardless of their industrial application. As an example, the range of Kevlar® gloves goes from 15-gauge, lightweight cut-resistant gloves, all the way to heavyweight, heat-resistant mitts. Gloves made with 100% Kevlar® fibre provide good thermal-insulation properties for hot or cold working environments. Another important performance criteria to consider when selecting the appropriate PPE is the care, cleaning and disposal of the product. The ability to launder and recondition gloves made of Kevlar® has been an important element of the overall value proposition and widespread industrial acceptance. Laundering to clean the most challenging greases and oils does not affect the cut resistance of Kevlar®. Kevlar® brand fibres are resistant to many chemicals and solvents. However, strong acids, bases, and certain oxidizers like chlorine bleach, cause rapid degradation of the fibre. Industrial launderers operate in the mid PH ranges (4-8), never lower or higher. In addition, the elimination of chlorine bleach in the cleaning of industrial apparel does not hinder the ability to clean it. Keep in mind that bleach would have to be avoided if the PPE contained spandex fibres anyway, so if it is absolutely necessary to bleach PPE, then oxygen bleaches can be used as an alternative without issue.

Kevlar® is a registered trademark of E.I. du Pont de Nemours and Company.

KEVLAR® THERMAL PROTECTION: Kevlar® offers exceptional thermal resistance and very low thermal conductivity. It is inherently flame resistant, does not melt and will decompose between 426 - 482°C, which is extraordinarily high when compared to the melting points of other materials, such as the following: – UHMWPE: (Dyneema® and Spectra®) 143 - 148°C – Nylon: (6, 6-6) 204 - 260°C – Polyester: 204 - 260°C The chart on the right compares the thermal resistance of leather and Kevlar® exposed to a hot surface measuring 536°C, and measured in seconds to pain. It was evaluated using the standard test method used to gauge the amount of contact thermal protection provided by high-heat PPE. Gloves made with 100% Kevlar® fibre provide good thermal insulation for those working in hot or cold environments. Glove design, coating type and companion fibres can also greatly impact wearer comfort.

ENGINEERED (COMPOSITE) YARNS Engineered composite yarns are yarns made with two or more components (i.e., Kevlar® and steel). These yarns allow glove manufacturers to make gloves with higher levels of cut resistance, without sacriﬁcing comfort or dexterity, than with high-strength ﬁbres, such as Kevlar® or TenActiv™ alone. 1.

Strength: Examples of high-strength yarns would be TenActiv™ or Kevlar®.

Hardness (dulling): An example of hard yarn would be stainless steel, which is often a primary component in composite yarns.

Lubricity (slickness): slippery yarns such as TenActiv™ allow a blade to slide over their surface without cutting through. Rolling action (knit construction): Most knit gloves allow the individual yarns to ‘roll’ as a sharp edge slides over them, producing somewhat of a ball-bearing effect. The edge slides across without cutting through the material.

Typically, the more of these factors that can be engineered into a yarn, the more cut resistant it will be. For example, an engineered yarn may consist of high molecular-weight polyethylene (HMPE) such as TenActiv™, which is both high strength and slick; and stainless steel, which is hard, and then knit in to a seamless glove, which provides ‘rolling’. Taken together, these characteristics result in a material that is far more cut resistant than a material made with only one component. Engineered yarns are typically used in applications requiring higher levels of cut resistance, such as sharp or heavy sheet-metal handling, glass handling, or meat processing where sharp blades are used. 7

GLOVE LAUNDERING Washing gloves very often results in signiﬁcant savings, especially if you are using high quality leather, TenActiv™ or Kevlar® gloves. Superior will gladly assist you with any questions and provide you with information on laundering. Contact our customer service department for tips, especially the do’s and don’ts of glove laundering. We will also provide you with information you need to locate the best launderers in your area. Professional glove launderers will know how to wash any type of glove. Here is a rough guideline that may be helpful.

KEVLAR® GLOVES

OTHER MATERIALS

Kevlar is inherently cut-resistant, meaning that cut resistance is unchanged over the lifetime of the glove. Despite repeated laundering, Kevlar® can be washed over and over, with no effect on shrinkage, weight loss or changes in tensile strength. Kevlar® is resistant to many chemicals and solvents, with the exception of strong acids, bases and oxidizers Kevlar® must never be bleached. However, oxygen ‘bleach’ can be used in place of chlorine bleach.

Detergent Wash 1. Use approx. 5 lbs commercial laundry soap or detergent per 100 lbs Kevlar® 2. Use hot water: 75°C 3. Wash for 20 minutes 4. Rinse with hot water 5. Repeat steps 3 and 4 if necessary 6. Rinse in cold water 7. Tumble dry for 35 minutes at 70°C Dry Cleaning 1. Pre wash using perchloroethylene for 5 minutes 2. Drain 3. Wash for 20 minutes using perchloroethylene and 12 oz of anionic surfactant/100 lbs of Kevlar® 4. Tumble dry at 60°C or less.

TENACTIV AND/OR DYNEEMA GLOVES ™

Leather Gloves – It is generally recommended that leather gloves be dry cleaned. Soap and water removes the natural oils present in the leather, causing them to stiffen and become brittle Nylon Gloves – Use warm water: 40°C – Wash with a regular detergent – Tumble dry at low or no heat Wool Gloves – Use cold water only: 20°C or less. – Use a mild detergent and gently wash – Tumble dry at low or no heat Cotton/Polyester Gloves – Use warm water: 40°C – Wash with a regular detergent – Tumble dry, medium heat Coated Gloves – Use cold water: 30°C or less – Use a mild detergent – Tumble dry low or no heat – Bleach is not recommended

Kevlar®

TenActiv™ can be washed, dry-cleaned, and bleached, all without affecting the speciﬁc properties of TenActiv™. However, Dyneema® does have one limitation: temperature. It will not withstand temperatures—wet or dry—over 144°C, so keep this in mind.

– Standard detergents, ammonium, sodium hydroxides, hydrochloric acid, etc., are not known to affect the performances of the TenActiv™ ﬁber. This enables you to wash and re-use the gloves many times – Use cold water only: 40°C or less – Tumble dry low or no heat 8

TenActiv™

Other Materials

Kevlar® is a registered trademark of E.I. du Pont de Nemours and Company. Dyneema® is a registered trademark of Royal DSM N.V. Proban® is a registered trademark of Rhodia Operations.

EN STANDARDS EXPLAINED The Personal Protective Equipment (PPE) Directive (89/686/EEC) is written to ensure all PPE meets common standards of quality and performance and is categorised to enable safety professionals to match the PPE to the level of risk or hazard identified. Protective gloves, which are classified as PPE, must be CE marked and comply with relevant EN standards (described below). The PPE Directive specifies three classes of gloves for different levels of user risk: ‘minimal’, ‘intermediate’ and ‘mortal or irreversible’.

SIMPLE DESIGN - Minimal risk Gloves which may be used in low risk situations such as gardening gloves or cleaning gloves. Manufacturers are permitted to test and certify gloves themselves - gloves within this category are CE marked as follows:

INTERMEDIATE DESIGN - Intermediate risk Gloves which may be used to protect against intermediate risks such as mechanical protection gloves providing cut, puncture and abrasion resistance, must be subjected to independent testing and certified by a notified body. Only approved bodies may issue a CE mark, without which the gloves may not be sold. The name and address of the Notified Body must appear on the instructions for use that accompany the gloves. Gloves of intermediate design are CE marked as follows:

COMPLEX DESIGN - Irreversible or mortal risk Gloves which are designed to protect against the highest level of risk (e.g., chemicals) must be tested and certified by a Notified Body. The quality assurance system used by the manufacturer to guarantee homogeneity of production must be independently checked. The body carrying out this evaluation will be identified by a number which must appear alongside the CE mark. Gloves of complex design are CE marked as follows: Note: The original PPE Directive 89/686/EEC has been amended by both the 93/95/EEC Directive and the CE marking Directives 93/68/EEC and 95/58/EEC.

EN420: 2003 - General requirements for protective gloves Deﬁnes the general requirements for most types of protective gloves which includes: - Glove construction - Ergonomy - Dexterity

- Innocuousness - Product marking and packaging information - Sizing

- Water vapour transmission and absorption - Electrostatic properties

Sizing of gloves according to hand length and circumference:

GLOVE SIZE

HAND CIRCUMFERENCE (MM)

HAND LENGTH (MM)

LENGTH OF GLOVE (MM)

6 7 8 9 10 11

152 178 203 229 254 279

160 171 182 192 204 215

220 230 240 250 260 270

This pictogram indicates that the user should always consult the instructions for use:

EN388: 2015 - Mechanical protection The Mechanical Risks pictogram is shown with four numbers, representing performance levels against a speciﬁc hazard test.

PERFORMANCE LEVEL

A - ABRASION RESISTANCE (CYCLES)

100 1.2 10 20 2

500 2.5 25 60 5

2000 5.0 50 100 10

8000 10.0*1 75 150 15

N/A 20.0*2 N/A N/A 22

N/A N/A N/A N/A 30

B - BLADE CUT RESISTANCE (INDEX) C - TEAR RESISTANCE (NEWTONS) D - PUNCTURE RESISTANCE (NEWTONS) E - BLADE CUT RESISTANCE (TDM-100)(NEWTONS)

F - IMPACT (ONLY TESTED IF GLOVE HAS IMPACT PROTECTION) RATED AS PASS OR FAIL) *1 Also > 13N ISO 13997 Test *2 Also > 22N ISO 13997 Test

EN407: 2004 - Protection from thermal hazards The heat and ﬂame pictogram is shown with six numbers, representing performance levels against speciﬁc thermal hazard tests.

PERFORMANCE LEVEL a. Burning Behaviour

After ﬂame time

< 20 S

< 10 S

<3S

<2S

After glow time

no requir.

< 120 s

< 25 s

<5s

Contact temperature

100°C

250°C

350°C

500°C

Threshold time

> 15 s

c. Convective heat (heat transfer delay)

>4s

>7s

> 10 s

> 18 s

d. Radiant heat (heat transfer delay)

>7s

> 20 s

> 50 s

> 95 s

e. Small drops molten metal (# drops)

> 10

> 15

> 25

> 35

f. Large quantity molten metal (mass)

30g

60g

120g

200g

b. Contact Heat

EC Food Directive Superior Glove products are approved for contact with all foodstuffs in compliance with the parent directive 1935/2004/EC. They also comply with the speciﬁc requirements laid down in European Commission Directive 2002/72/EC which governs the substances that may be used in the manufacture of food contact materials (including gloves for food handling) and specify that under normal foreseeable conditions of use, they do not transfer their constituents to food in quantities which could: - endanger human health; or - bring about an unacceptable change in the composition of the food; or - bring about a deterioration in the organoleptic characteristics (i.e., texture, taste, aroma) To ensure food contact materials comply with these regulations a series of test standards are applied (EN 1186) to determine migration levels from contact materials into the food using a variety of food simulants. Compliance with the allowable limits enables food handling gloves to be marked with the following ‘food safe’ pictogram:

LEATHER PALM CUT-RESISTANT GLOVES

ENDURA®

#69SBSKGCG | ONE SIZE • • • •

Heavy-duty premium split-leather Full lining of cut-resistant Kevlar®/composite filament fiber blend Gunn-cut pattern 4” cotton cuff

APPLICATIONS: Steel Plants, Foundries, Metal Stamping

EN 388 TESTING

ENDURA®

#69BSKFFL | S-XL • • • •

Heavy-duty premium split-leather Full lining of cut-resistant Kevlar®/composite filament fiber blend Gunn-cut pattern Leather knuckle straps and elasticised wrists

APPLICATIONS: Steel Plants, Foundries, Metal Stamping EN 388 TESTING

EMERALD CX®

#SKWCPLP | XS-2XL • 7-gauge Kevlar®/stainless steel composite yarn blended with polyester • Grade A split leather palm

APPLICATIONS: Steel Plants, Metal Stamping and Fabrication, Glass Handling EN 388 TESTING

ACTION™

#SKGLP | S-XL • These feature an abrasion-resistant grain leather over a seamless-knit Kevlar® glove • Fingers of the leather palms extend around the sides

APPLICATIONS: Construction, Metal Stamping, Glass Handling, Forestry, Material Handling, Assembly, Sheet Metal Work, Automotive, General Purpose

EN 388 TESTING EN511

X2X

EMERALD CX®

#S13KBGLP | L • 13-gauge nylon/steel composite string knit • Goat-grain palms, extra protection in the thumb-crotch area

APPLICATIONS: HVAC, Automotive, Sharp Steel, Glass, Metal Fabrication, Light Metal Stamping EN 388 TESTING

CLUTCH GEAR®

#MXHV2PB | S-2XL • • • •

PVC Sure Grip® palm patches Fully lined with Punkban™ Hi-viz lime-green backs ASTM F 2878 7.83 (palm) and 4.47 (back) Newtons of puncture protection

APPLICATIONS: Lumber Yards, Plywood, Material Handling, Waste Handling, Recycling, Medical Waste Handling

(palm & back)

EN 388 TESTING

PALM-COATED CUT-RESISTANT GLOVES All the beneﬁts of cut-resistant gloves, plus the added protection of various palm coating materials. Choose from latex, polyurethane, nitrile, PVC, or steel-mesh palms. With lots of options to choose from, we’ve got you covered.

EMERALD CX®

#S13CXPNT | 6-11 • Blend of Kevlar® and stainless steel Wire-Core™ • Puncture and abrasion-resistant micropore nitrile palm coating • Touchscreen compatible

APPLICATIONS: Automotive, Metal Stamping, Fabrication, Assembly, Glass Handling, Sheet Metal Work EN 388 TESTING

EMERALD CX®

#SCXPNTFC | 6-10 • Blend of Kevlar®, and stainless-steel Wire-Core™ • Full nitrile coating under a micropore coating renders these gloves liquid proof

APPLICATIONS: Metal Fabrication, Assembly, Glass Handling, Sheet Metal Work, Automotive EN 388 TESTING

TENACTIV™

#STAGHVPN | 5-12 • 13-gauge hi-viz TenActiv™ string knit glove • Micropore grip nitrile coating

APPLICATIONS: EN 388 TESTING

Handling Sharp Objects, Glass Plants, Construction, Automotive, Aerospace, Metal Fabrication, Metal Stamping

WORKING HAND IN HAND Superior Glove Works has chosen Beeswift in the UK as its exclusive sales, marketing and distribution partner for the European Economic area. This area is inclusive of all EU countries as well as Iceland, Norway, Switzerland and Turkey. The two companies share a scientific and passionate approach to safety, and hand protection is what brings them together in a commitment to deliver first-in-class PPE to the European Union. A significant stock holding is held at Beeswift’s headquarters based in the West Midlands, United Kingdom.

SUPERIOR TOUCH®

#S13SXGBFN

6-12

• 13-gauge lint-free, string knit glove made with Dyneema® • Black foam-nitrile palm coating • 558 grams of cut protection APPLICATIONS: Sharp Steel, Glass, Circuit Boards, Automotive EN 388 TESTING

DEXTERITY®

#S10LXPB | 6-10 • • • •

Hi-viz lime green puncture-resistant latex coating 10-gauge cotton/poly string knit Lined with two layers of Punkban™ in palm ASTM F2878 6.73 Newtons of puncture protection

APPLICATIONS: Lumber Yards, Waste Handling, Plywood, Recycling, Material Handling

EN 388 TESTING

PALM-COATED CUT-RESISTANT GLOVES These gloves feature the strength of Kevlar® combined with the tactility and dexterity of high-quality design. These coated gloves will enhance — not impede — your skills on the job.

-5°C (23°F)

EMERALD CX®

#SCXTAPVC | M-2XL • • • •

Blended Kevlar®/steel 13-gauge string-knit Crinkle-grip PVC palm coat Acrylic fleece lining Touchscreen compatible

APPLICATIONS: Cold Storage Facilities, Construction, Agriculture, Utilities EN 388 TESTING EN511

120

EMERALD CX®

#S13CXLX | 7-11 • 13-gauge blend of Kevlar®, Wire-Core™ steel and Cordura® nylon • Puncture and abrasion-resistant latex palm coating

APPLICATIONS: Glass Manufacturing, Window Manufacturing, HVAC, Construction, Masonry EN 388 TESTING

DEXTERITY®

#S13KFGPU | 5-12 • 13-gauge composite filament fiber wrapped with Kevlar® fiber • Non-shedding polyurethane palm coating

APPLICATIONS: EN 388 TESTING

Automotive, Light Metal Stamping, Fabrication, Small Parts Handling, Assembly, Glass Handling, Sheet Metal Work

DEXTERITY®

#S13KFGFNT | 5-12 • 13-gauge knit, composite filament fiber wrapped with Kevlar® fiber • Foam nitrile coating

APPLICATIONS: Automotive, Light Metal Stamping, Fabrication, Small Parts Handling, Assembly, Glass Handling, Sheet Metal Work

EN 388 TESTING

TENACTIV™

#STAFGFNT | 5-12 • Lint-free, continuous high-tenacity composite yarn • Black foam nitrile palm coating

APPLICATIONS: Glass Plants, Construction, Automotive, Aerospace, Metal Fabrication, Metal Stamping EN 388 TESTING

TENACTIV™

#S18TAFGFN | 5-11 • • • •

18-gauge composite ﬁlament ﬁber knit glove Foam nitrile palm coating Touchscreen compatible These gloves are treated with Ultra-Fresh to achieve 99.9% antimicrobial status

APPLICATIONS: Automotive, Light Metal Stamping, Fabrication, Assembly, Glass Handling, Sheet Metal Work

EN 388 TESTING

PALM-COATED CUT-RESISTANT GLOVES These gloves are so comfortable, it’s easy to forget you’re wearing them. And when your gloves are that comfortable, you’re more likely to wear them.

TESTIMONIAL

TENACTIV™

EVAN D.,

#STAFGPU | 5-11

INTEGRATED SUPPLY SUPERVISOR, FORMET INDUSTRIES

“I have had ‘zero’ complaints about the glove, which is good seeing how many people use them on a daily basis!”

• 13-gauge string-knit glove made with composite filament fiber • Polyurethane coating is non-shedding

APPLICATIONS: Glass Plants, Construction, Automotive Industry, Aerospace Industry, Metal Fabrication, Metal Stamping

EN 388 TESTING

TENACTIV™

#S15TAFGPU | 6-12 • Lint-free, 15-gauge continuous filament yarn • Grey polyurethane coating

APPLICATIONS: Glass Plants, Construction, Automotive, Aerospace, Metal Fabrication EN 388 TESTING

EMERALD CX®

#S13KBFNT | 6-11 • Combination of nylon and fine-gauge steel for cut protection • Foam nitrile coating on palm; 3 ¾”/ 9 cm knit wrists • Touchscreen compatible

APPLICATIONS: EN 388 TESTING

HVAC, Automotive, Sharp Steel, Glass, Metal Fabrication, Light Metal Stamping

DEXTERITY®

#S18KGFN | 6-11 • Ultrafine 18-gauge Kevlar®-blended knit glove • Foam nitrile palm coating • Touchscreen compatible • These gloves are treated with Ultra-Fresh to achieve 99.9% antimicrobial status

APPLICATIONS: General Construction & Carpentry, HVAC, Plumbing, Automotive, Metal Working & Fabrication, Appliance Manufacturing, Small Parts Assembly, Electronics, Paper, Plastics

EN 388 TESTING

TENACTIV™

#S13TAGPU | 6-12 • Lint-free, 13-gauge composite knit • Polyurethane palm coating

APPLICATIONS: Glass Plants, Construction, Automotive, Aerospace, Metal Fabrication EN 388 TESTING

The reduction in risk for an acute traumatic hand injury while wearing the right work gloves.

ASK US HOW. 19

PALM-COATED CUT-RESISTANT GLOVES

TESTIMONIAL TYRONE S., EHS TECH, TRANE

“From the standpoint of people liking the glove, Superior makes the best glove for production I have ever seen. I don’t receive any complaints on the glove.”

SUPERIOR TOUCH®

#S13SXGPUQ | 9 • 13-gauge lint-free, string knit glove made with Dyneema® • Grey polyurethane palm coating

EN 388 TESTING

APPLICATIONS: HVAC, Circuit Boards, Automotive, Food Handling

SUPERIOR TOUCH®

#S13SXPU | 6-10 • Lint-free, 13-gauge string knit made with Dyneema® • Polyurethane palm coating • Washable and bleachable (under 145 °C)

APPLICATIONS: EN 388 TESTING

Sharp Steel, Glass, Circuit Boards, Automotive, Food Handling

SUPERIOR TOUCH®

#S13SXFCNT | 7-11 • 13-gauge string-knit glove made with HPPE • Fully nitrile coated, (DMF), silicone-free and lint free

APPLICATIONS: Sharp Steel, Petrochemical, Glass, Aerospace, Circuit Boards, Metal Fabrication, Automotive

EN 388 TESTING

SEE WHAT PEOPLE ARE SAYING ABOUT SUPERIOR GLOVE. Because we create gloves and protective solutions with our customers in mind, we are able to make you more money, make you safer, and make your job easier. Don’t take it from us — see what our customers have to say!

Craig J. ETBO Tool & Die

“Superior Glove is a great, family company that demonstrates to others that good service and good products are not mutually exclusive. The sales staff are quick to respond, knowledgeable about your products, and very easy to deal with.”

Cheryl K. HSE Manager (Terrapro)

“Doing business with Superior Glove is extremely easy. Everyone is so accommodating with my quest to ﬁnd the best gloves for our workers.”

STRING-KNIT CUT-RESISTANT GLOVES These string-knit gloves range from 7 to 10-gauge and provide solutions for multiple job hazards. The following styles offer the utmost in cut protection.

SURE KNIT®

#S10SXB | XS-XL • 10-gauge composite yarn • High pressure steam treated with Size-Lock™ • Blue color allows for easy spotting • These gloves are treated with Ultra-Fresh to achieve 99.9% antimicrobial status

APPLICATIONS: Meat/Fish Processing, Canning and Food Processing EN 388 TESTING

SURE KNIT®

#S10SXB6 | XS-XL • 10-gauge composite yarn • High pressure steam treated with Size-Lock™ • Blue color allows for easy spotting • These gloves are treated with Ultra-Fresh to achieve 99.9% antimicrobial status • 15 cm knitwrist cuff

APPLICATIONS: EN 388 TESTING

Beef/pork/poultry/fish processing, Canning and Food Processing

SURE KNIT®

#SDYF | XS-XL • 7-gauge spun yarn is a blend of high tenacity yarn, composite filament fiber, nylon and cotton • Gloves can withstand intermittent thermal contact up to 162°C

APPLICATIONS: EN 388 TESTING

Automotive, Sharp Steel, Light Metal Stamping, Glass Handling, Sharp-Edged Objects

Made with DuPont™ Kevlar®. 18-gauge level dexterity used to be for the other guys, now it’s for everyone. Wish you could whip your gloves off and feel what you’re working on? You can now get that feeling, while staying comfortably protected. Designed with you in mind. Allowing you to work better and faster.

DEXTERITY®

#S18KG | 7-11 • Lightweight, barehand feel for optimal dexterity • High tactility; perfect for delicate precision work • Made with cut-resistant Kevlar® fiber

APPLICATIONS: HVAC, Plumbing, Automotive, Metal Working & Fabrication, Electronics, Paper, Plastics

EN 388 TESTING

0520

PALM-COATED WORK GLOVES Adding a layer of protection to a string-knit glove can change everything. You get the same comfort, but with a lot more possibility. We use a wide range of tough materials in our palm-coated gloves, over a wide range of string knits.

DEXTERITY®

#S13BFNT | 7-11 • 13-gauge 100% nylon seamless-knit shell • Foam nitrile palm coating

APPLICATIONS: Automotive, Small-Parts Handling, General Industry, Furniture Manufacturing EN 388 TESTING

DEXTERITY®

#S13PNT | 6-11 • 13-gauge 100% nylon seamless-knit shell • Micropore nitrile grip palm coating

APPLICATIONS: Oily Metal Parts, Automotive, Construction, Small Parts Handling, General Maintenance EN 388 TESTING

SUPERIOR TOUCH®

#S13BKPUQ | 6-11 • Black 13-gauge 100% nylon seamless-knit shell • Polyurethane palm coating • Non-linting

APPLICATIONS: EN 388 TESTING

Electronics, Cleanroom, Assembly, Automotive, Small Parts Handling, Aerospace, General Industry

SUPERIOR TOUCH®

#S13GPPU | Grey | 6-11 #S13WPPU | White | 5-11 • 13-gauge polyester seamless-knit shell • Polyurethane coating • Low-particulate shed

APPLICATIONS: Electronics, Cleanroom, Assembly, Automotive, Small Parts Handling

EN 388 TESTING

SUPERIOR TOUCH®

#S13GPU | 6-10 • • • •

13-gauge 100% nylon seamless-knit shell Polyurethane coating Low-particulate shed DMF free

APPLICATIONS: Electronics, Cleanroom, Assembly, Automotive, Small Parts Handling, Aerospace, General Industry

EN 388 TESTING

70% of workers who experienced hand injuries were not wearing gloves.

DON’T BE A STATISTIC, WEAR YOUR GLOVES. 25

PALM-COATED WORK GLOVES Endless combinations of palm-coated gloves are the results of combining cotton, nylon, Kevlar®, Dyneema® and composite-yarn gloves with various palm coatings, such as nitrile and polyurethane.

DEXTERITY®

#S15NT | 7-11 • 15-gauge 100% cotton seamless knit shell • Nitrile palm coating

APPLICATIONS: Automotive, Fabrication, Assembly, Glass Handling, Sheet Metal Work

EN 388 TESTING

-10°C (-14°F)

DEXTERITY®

#TKYLX | M-XL • Hi-viz neon yellow 100% nylon, seamless-knit shell • Thick crinkle-grip latex palm • Napped lining

APPLICATIONS: EN 388 TESTING EN511

X20

Material Handling, Warehouses, Construction, Masonry Work, Forestry

LIFE CYCLE of a Biodegradable

S15NT! Our bestselling

Canadian made palm dipped glove

ELEMENT 01 The glove starts as a spool of 100% cotton thread.

ELEMENT 02 This thread is then woven into a seamless shell.

ELEMENT 03

ELEMENT 10

The glove shell is shipped from our Point Leamington, NL plant to our headquarters in Acton, ON.

Clean Energy is made and used for electricity, fuel and more!

ELEMENT 09 ELEMENT 04

Instead of “more waste,” biodegradation creates clean energy.

A biodegradable dip is made using a special additive.

ELEMENT 08 The glove’s life cycle is coming to an end and is tossed in the bin, just like a normal glove.

ELEMENT 05

ELEMENT 07

ELEMENT 06

The glove is used by workers in automotive, parts handling, maintenance and construction.

The completed glove is shipped to our customers. The biodegradable palm dip has the same shelf life stability as a normal palm coating.

The additive and Superior Glove’s nitrile coating are applied to palm of the cotton glove.

MICROPORE TECHNOLOGY

#S13PNT ®

Dexterity micropore nitrile grip high abrasion lint-free nylon gloves.

Sizes 6 - 11

Kevlar® is a registered trademark of E.I. du Pont de Nemours and Company.

#STAGYPNVB TenActiv™ anti-impact hi-viz glove made with micropore nitrile grip palms.

Sizes 6 - 12

*200x magniﬁcation of actual glove coating.

28 Kevlar® is a registered trademark of E.I. du Pont de Nemours and Company.

ANTI-IMPACT GLOVES Jobs involving repetitive impact and vibration can lead to carpal tunnel syndrome and other debilitating injuries. These styles have been speciﬁcally designed to absorb impact to protect the hands.

#MXVSB

CLUTCH GEAR®

#MXVSB | S-XL #MXVSBFL | Waterproof, Windproof lining | S-XL • • • •

TPR anti-impact backing PVC Sure Grip® palm patches Kevlar® thumb patch Adjustable Velcro® cuffs

#MXVSBFL

APPLICATIONS: Drilling, Oilfield, Mining, Construction, Railroads

-15°C (5°F) EN511

13X

EN 388 TESTING

CLUTCH GEAR®

#MXVSBA | S-2XL #MXVSBAFL | Fleece lining | S-2XL • Abrasion-resistant red Armortex® palms • TPR anti-impact backing • Hi-viz backs

EN 388 TESTING

APPLICATIONS: Drilling, Oilfield, Mining, Construction, Railroads

-10°C (14°F)

CLUTCH GEAR®

#MXVSBKWT | S-3XL • • • •

Hi-viz yellow-green knit shell, Kevlar® lining on palm only TPR anti-impact backing Waterproof membrane Fully ﬂeece-lined for additional warmth

APPLICATIONS: Assembly, Automotive, Construction, General Purpose EN 388 TESTING

CLUTCH GEAR®

#MXHV5VSB | S-2XL • • • •

Abrasion-resistant red Armortex® palms Kevlar® blended liner Hi-viz TPR anti-impact backing Neoprene cuffs

APPLICATIONS: Drilling, Oilfield, Mining, Construction EN 388 TESTING

DEXTERITY®

#SKFGFNVB | S-3XL • 13-gauge Kevlar® blended knit shell • TPR anti-impact backing • Foam nitrile palm coating

APPLICATIONS: EN 388 TESTING

Oilfield, Mining, Construction, Maintenance

TENACTIV™

#STAGYPNVB | 6-12 • 13-gauge TenActiv™ knit shell • TPR anti-impact backing • Micropore nitrile coating

APPLICATIONS: Oilfield, Mining, Construction, Maintenance

EN 388 TESTING

TENACTIV™

#STAFGFNVB | 6-12 • 13-gauge composite-knit shell • TPR anti-impact backing • Foam nitrile palm coating

APPLICATIONS: Oilfield, Mining, Construction, Maintenance

EN 388 TESTING

EMERALD CX®

#SKBFNTVB | S-2XL • Seamless knit black nylon and fine-gauge steel • TPR anti-impact backing • Foam nitrile palm coating

APPLICATIONS: Oilfield, Mining, Construction, Maintenance

EN 388 TESTING

DEXTERITY®

#S13YPNVB | 7-11 • Hi-viz 13-gauge 100% nylon seamless-knit shell • TPR anti-impact backing • Black micropore nitrile palm coating

APPLICATIONS: Oilfield, Mining, Construction, Maintenance

EN 388 TESTING

TENACTIV™

#SHVPNFBVB | 7-10 • 13-gauge hi-viz TenActiv™ yarn • Hi-viz neon green TPR • ¾-back micropore nitrile coating

APPLICATIONS: Construction, Oil & Gas, Petrochemical EN 388 TESTING

TENACTIV™

#STACXPNVB | 7-11 • 13-gauge blend of TenActiv™ HPPE • High-visibility neon green TPR backing extends right to the fingertips • Micropore nitrile coating

APPLICATIONS: EN 388 TESTING

Construction, Oil & Gas, Petrochemical

ENDURA®

#378GKGVB | S-3XL • • • •

Vibration-dampening gel padded palm Fully lined with a blend of Kevlar® Treated with Oilbloc™ Arc-flash testing placed these gloves at level 3, with a rating of ATPV = 36 Cal/cm².

APPLICATIONS: Oilfield, Mining, Construction, Railroads EN 388 TESTING

3 ARC FLASH RATING

CUT-RESISTANT SLEEVES Our protective sleeves offer great versatility and speciﬁc protection against abrasion, heat, slash, and more. The best in cut protection combined with comfort, for all-day wearability.

CONTENDER™

#EKFG1T /#EKFG1TH (Tapered version) • Single-layer aramid-encased, composite filament fiber, tapered knit sleeve • Elasticized STAYz-UP™ non-slip biceps • Time to pain is 4.5 seconds at 600 °F

APPLICATIONS: Metal Handling, Automotive, Metal Fabrication, Welding, Grinding

Tapered version #EKFGT18 #EKFGT22

18” 22”

Available with thumbhole #EKFGT18TH 18” #EKFGT22TH 22”

Stocked Item Made to order

One size One size

Made to order Stocked Item

S-XL S-XL

600 °F

for 4.50 secs

EN407

X1XXXX

TENACTIV™

#KTAG • • • •

Single-layer tapered knit, lint-free UHMWPE filament fiber Elasticized STAYz-UP™ non-slip biceps Naturally cool feel Time to pain is 2 seconds at 500 °F

APPLICATIONS: Aerospace, Material Handling, Automotive Assembly, Metal Fabrication, Electronics Assembly

500 °F for 2 secs

#KTAG1T18 #KTAG1T22

18” 22”

Available with thumbhole #KTAG1T18TH 18” #KTAG1T22TH 22”

Stocked Item Stocked Item

XS-XL S-XL

Stocked Item Stocked Item

XS-XL XS-XL

CUTBAN™

#EKPGT22TH | L-XL EN 388 TESTING

• • • •

Single-layer tapered knit high-tenacity/composite filament fiber Elasticized STAYz-UP™ non-slip biceps 1400 grams of cut protection Available lengths: 22”

APPLICATIONS: NOT for spark and ﬂame applications.

Metal Handling, Automotive, Metal Fabrication

STAYz-UP™ sleeve technology No more slipping! Sleeves with arm openings featuring “STAYz-Up™” technology hold up— comfortably gripping onto underlying fabric or skin to ensure sleeves stay in place, and keep you protected no matter what. Unlike other products on the market, we won’t let you down.

Tapered vs. Non-Tapered Sleeves For a more natural fit, sleeves come in an optional tapered version, which provides extra comfort and staying power.Tapered sleeves are designed to fit the contours of your arm and actually come in sizes. Traditionalists will find comfort in our classic non-tapered version; these sleeves are straight up-anddown while still offering the protection you need.

TAPERED

NON-TAPERED (Tubular or Stockinette)

SUPERIOR®

#SLPB9TH • Unique Punkban™ material • Adjustable Velcro® closure • ASTM F2878 7.35 Newtons of puncture protection

APPLICATIONS: Metal Handling, Automotive, Metal Fabrication, Glass Handling

PUNKBAN™ Punkban™ offers unparalleled protection in a woven material. This breakthrough has been made possible by bringing together leading edge textile technology in spinning and weaving para-aramids, in a method pioneered by Superior Glove. The resultant super densely woven Kevlar® fabric is still ﬂexible and supple, but unbelievably puncture resistant. This engineered fabric is incorporated in our exclusive range of gloves that provide incredible puncture protection. You’ll experience dexterity like never before in the new Punkban™ series.

CHOOSE THE

Pros and Cons of

BEST PUNCTURE

Materials

Epoxy Plates

GLOVE

PROS: • Very high cut resistance • Good puncture resistance CONS: • Must be used in multiple layers to deliver puncture protection because of gaps in plates • Multiple layers can result in stiff and bulky gloves

Woven Kevlar ® (similar to Punkban™)

Choose the right puncture standard

PROS: • Good puncture resistance • Good cut resistance CONS: • Different manufacturers offer a wide range of ﬂexibility and puncture resistance. • May not be as cut-resistant as epoxy plates.

Fine object puncture threat:

ASTM F2878

Steel Mesh PROS: • High cut and puncture resistance when applied in multiple layers.

modiﬁed standard.

If you are dealing with ﬁne.

sharp h objects bj t such h as

waste handling

medical needles.

CONS: • “Chainy” or “Scrunchy” feel to the glove. • Puncture resistance decreases over time as steel mesh breaks in.

law enforcement

Palm or Full Coverage? recycling (risk of needles)

pulp & paper

Most puncture gloves only protect the palm area of the hand, which is okay for many applications — just be sure you are aware of this. Full-coverage puncture gloves are also available but the tradeoff is they tend to be higher in price and comfort and dexterity becomes slightly diminished.

sharps handling

Large object puncture threat:

385 ,0

EN 388:1994

When dealing with larger objects

that pose a puncture threat

Each year 385,000 needlestick injuries and other sharps-related injuries are sustained by hospital-based healthcare personnel. This equates to an average of around 1,000 sharps injuries occurring per day in U.S. hospitals.

(lumber industry, metal fabrication, waste collection)

Layers of a Punkban™ Glove (Superior Glove (Sup Glo Part #MXVSBPB) Brushed ﬂeece B nylon liner nylo

glass

recycling (without risk of needles)

Punkban™

lumber

PVC Sur Sure ure Grip® palm patc p patches

17.3 13.1

These recommendations are of a general nature and are not speciﬁc to everyone’s needs. Always ensure your glove complies with the mandated safety standard for your application.

7.9

5.7

Sup erio S with 10LXP r Pun B kba n

Hex am 901 or 4

HP Poly PE w ure ith Palmthane

Spli

t Le Palmather

1.5 Cot to with n Glo v Coa Latex e ting

Exo-Tekt water-repellant micro-suede

WHICH ANSI PUNCTURE Level Do I Choose?

9.4

Knit Kevlar ® ted Glo ve

Kg of Puncture Resistance

EN 388 Puncture Test

Kevlar® is a registered Trademark of P.E. du Pont de Nemours and Company.

HEAT-RESISTANT GLOVES These heavy-duty gloves feature a heat-resistant SilaChlor® —a revolutionary new material that protects against thermal heat between 200 °C and 315 °C.

COOL GRIP®

#TBG-6 | One size • For brief handling of hot objects up to 232°C • Fully lined with 11oz. knit cotton • 15” overall length, reinforced Kevlar® thumb patch

APPLICATIONS: Food Processing, Bakeries, Restaurants EN 388 TESTING EN407

12XXXX

ACTION™

#SKSCTB | S-XL • Thermal heat protection; 400°F - 600°F (200°C - 315°C) • 100% Kevlar® string knit glove • Silicone/Kevlar®-blend Temperbloc™ palms

APPLICATIONS: Steel Mills, Metal Fabrication, Casting, Foundries, Light Welding, High-Heat Jobs EN 388 TESTING

EN407

43XXXX

The reduction in risk for an acute traumatic hand injury while wearing the right work gloves.

ASK US HOW. 37

HAND & SLEEVE SIZE GUIDE A proper ﬁt is extremely important. An uncomfortable ﬁt causes hand fatigue and ultimately could lead to a potential workplace hazard.

GLOVE SIZES: How To Measure Your Hand Measure the width of your hand from the base of your ﬁrst ﬁnger and across your knuckles.

mm inches

50 2

63 2.5

75 3

88 3.5

101 4

113 4.5

SLEEVE SIZES: How To Measure Your Arm To ﬁnd the best ﬁt, measure the circumference of your bicep and choose sizing according to the chart below.

5 / 2XS 6 / XS

250 mm / 9.75 inches

7/S 8/M

265 mm / 10.5 inches

9/L 10 / XL

295 mm / 11.75 inches

260 mm / 10.25 inches 280 mm / 11 inches 370 mm / 14.5 inches

11 / 2XL 450 mm / 17.5 inches

126 5

140 5.5

EN 388 STANDARD EN 388 is the European standard used to evaluate mechanical risks for hand protection, but more than that, to be legally sold in Europe, a glove has to be EN 388 certiﬁed. Gloves with an EN 388 rating must be third-party tested and can be rated for abrasion, cut, tear and puncture resistance. -Cut resistance is rated 1-5 -The other factors are rated from 1-4 Up until now, cut resistance was measured using the “Coup Test,” which uses a rotating blade under a ﬁxed load. The blade moves back and forth across the surface of the test glove. The 2016 update to the EN 388 standard will now use the Coup Test and the ISO 13997 standard which uses a TDM-100 machine for a more accurate measure of cut resistance.

CUT TEST UPDATES A common complaint about the Coup Test was that the blade would dull during the test, especially over highly-engineered yarns that feature steel or glass strands. The Coup Test has been revised to limit the number of passes the blade can make over the test fabric to 60. Whether cut through has occurred or not. The rest of test will remain the same. If the Coup Test blade makes 60 passes over the fabric, it is then mandatory to test the glove under the ISO 13997 cut resistance method to assess the glove’s performance.

WHAT IS THE ISO 13997 TEST METHOD (TDM-100 TEST)? For those of you who are familiar with your cut resistance testing methods, this test is similar to the ANSI/ISEA 105-2016 cut test standard. If you aren’t familiar, here’s the rundown: The goal of this test is to measure the load – applied to a blade – that is required to achieve a cut-through in a known distance on a test fabric. 1. The glove sample is placed on a conductive strip and loaded onto the TDM-100. 2. A straight blade is loaded into the machine. 3. Weight is added to serve as force. 4. The blade moves across the fabric. 5. The blade is replaced with a new one to ensure accuracy. 6. The sample is cut ﬁve times, each with three different loads. 7. The distance traveled to cause cut through at various forces is recorded. 8. The data is used to determine the load in Newtons required to cut through the sample.

WHEN WILL

TDM-100 BE USED VS.

COUP TEST?

The manufacturer decides only to use TDM-100 for cut resistance.

COUP TEST

Glove is tested

Achieves score of A through F Based on Newtons to cut

The manufacturer chooses to use EN 388 COUP TEST DOES DULLING OCCUR? (ie. Blade makes 60 passes across fabric)

Glove displays an X in the second position and a letter in ﬁfth position

YES

TDM-100 TEST

Manufacturer MUST use the TDM-100 test to determine cut resistance. A score of A through F will appear in the ﬁfth position indicating the Newtons to cut. A score of ‘5’ may or may not appear in the second position to indicate the glove reached the highest coup test results. I.e. 4X22E or 4522E

NO Score out of ‘4’ will appear in the second position (cut) and an ‘X’ in the ﬁfth position (indicating TDM-100 test wasn’t used) e.g., 2412X

NEWTON TO GRAM CONVERSION What’s a Newton you ask? One Newton is equal to 101.97 grams – about the same weight as a bar of soap. There is no correlation between the ISO 13997 and EN 388 standards, so converting the Newtons from the ISO 13997 testing will not provide accurate grams to cut on the EN 388 rating.

CHANGES TO THE MARKINGS To account for the new additions of the TDM-100 cut test and impact test to the EN 388 standard, the glove marking will now feature two additional components as seen in the “New Marking” diagram to the right.

Rating

Abrasion

1-4

Cut (Coup Test)

1-5

Tear

1-4

Puncture

1-4

4442

NEW TEST METHODS ABRASION TEST New abrasive test paper will be used. Some abrasion scores may change when a product is recertiﬁed under the new test conditions.

CUT TEST If the TDM-100 test is used, a letter between A and F may appear on the marking to represent cut resistance. A letter was chosen to avoid confusion with the Coup Test results.

IMPACT TEST This test is new to the EN 388:2016 standard and is optional. It should only be included for gloves that claim speciﬁc impact resistant properties. The marking will include a ‘P’ to indicate the glove has passed the impact test.

Rating

Abrasion

1-4

Cut (Coup Test)

1-5

Tear

1-4

Puncture

1-4

Cut (TDM-100 Test)

A-F

Impact Protection

4 4 4 2CX

WHICH EN 388 LEVEL SHOULD I CHOOSE? For gloves tested using the TDM-100 machine.

2 newtons = 203 grams to cut

15 newtons = 1529 grams to cut

Light material handling, small parts assembly without sharp edges

Light duty metal handling, appliance manufacturing, bottle and light glass handling, canning, dry walling, electrical, carpet installation, HVAC

5 newtons = 509 grams to cut

22 newtons = 2243 grams to cut

Packaging, warehouse, light duty general purpose

Metal stamping, sheet metal handling, glass handling, automotive assembly

10 newtons = 1019 grams to cut

30 newtons = 3059 grams to cut

Light duty metal handling, metal stamping, HVAC, light duty glass handling, plastics, material handling

Heavy duty metal stamping, metal recycling, food processing, pulp and paper

How it should appear on the marking Test Method:

Abrasion

Cut (Coup Test)

Exampe No. 1

Level 2

Level 4

Level 3

Level 2

Level D

Passed

Example No. 2

Level 2

Test not performed

Level 1 not achieved

Level E

Test not performed or not applicable

Example No. 3

Level 2

Level 1 not achieved

Level 2

Test not performed

Passed

Tear

Puncture

Cut (TDM-100)

Impact Protection

2432DP 22X0E 2202XP

Notes:

European Office +44 (0) 7748 801 833 | graham.ayers@superiorglove.com superiorglove.com