Welding Garment Material Performance
Hand Protection
G-Tek® D3O® Impact Glove Series
UNRAVELING THE DYNAMICS OF ESD
Bouton® FogLess® 3Sixty™ Technology
Addressing AR/FR Pain Points
Specialized PPE for ELECTRIC VEHICLE MANUFACTURING
BioSoft™ Sustainable Bio-Based Ear Plugs
PIP® Field Installable 4-Point Hard Hat Chin Strap Demo
G-Tek® VRX™ ADVANCED PROTECTION
Bisley X-Airflow™ Workwear Shirts
6 Key Facts to Help Understand ARC FLASH RISKS
Head Protection
REUSABLE VS. DISPOSABLEUsing The Right Garment For The Right Job
Experience Barrier Protection and Flexibility With EXTENDED USE GLOVES
Bouton OpticalAdvanced Lens Technologies in Safety Eyewear™
What to Consider When Choosing HIGH VISIBILITY MULTI-SEASON WORKWEAR
What is Double Hearing Protection And When Would You Need It?
Mips®HELMET SAFETY SYSTEM TECHNOLOGY
4 HIDDEN JOBSITE RISKS And How To Avoid Them
SURVIVIVNG THE SUMMER HEAT A Guide to Workplace Safety and Hydration
MULTI-TASK WELDERS GLOVES Offer The Protection And Dexterity Welders Need
WELDING SAFETY SELECTOR GUIDE
HAND PROTECTION SELECTOR GUIDE
Protective Clothing
CONTROLLED ENVIRONMENT SELECTOR GUIDE
EYE PROTECTION SELECTOR GUIDE
INTERACTIVE CROSS REFERENCE
BioSoft™ THE WORLD'S FIRST SUSTAINABLE BIO-BASED EAR PLUGS
NOVAX ELECTRICAL SAFETYNot All Gloves Are Created Equal
Enhancing Workplace Safety in the Construction Industry with MULTI-DIRECTIONAL HEAD PROTECTION TECHNOLOGY
THORZT™ RAPID REHYDRATIONFor the Industrial Athlete
ON-SITE PPE ASSESSMENT
Hand Protection
Specialized PPE for ELECTRIC VEHICLE MANUFACTURING
INTERACTIVE CROSS REFERENCE
Addressing AR/FR Pain Points
Bouton® FogLess® 3Sixty™ Technology
UNRAVELING THE DYNAMICS OF ESD
G-Tek® D3O® Impact Glove Series
JSP Force Typhoon™ 8 Twin Filter Half Masks with PressToCheck™
PIP® Field Installable 4-Point Hard Hat Chin Strap Demo
BioSoft™ Sustainable Bio-Based Ear Plugs
PPE For Emergency Responders
ATA Fiber Technology Strength Meets Comfort
G-Tek® VRX™ ADVANCED PROTECTION
PPE For Emergency Responders
Heated Apparel For Cold Climates
INTERACTIVE CROSS REFERENCE
INTERACTIVE CROSS REFERENCE
Welding Garment Material Performance
Bisley X-Airflow™ Workwear Shirts
ON-SITE PPE ASSESSMENT
3 COMMON TYPES OF COLD STRESS And How You Can Prepare For Them
SUSTAINABLE SOLUTIONS IN PPE
PROTECTIVE SLEEVE BUYERS GUIDE
MULTI-TASK WELDERS GLOVES Offer The Protection And Dexterity Welders Need
ON-SITE PPE ASSESSMENT
SURVIVIVNG THE SUMMER HEAT A Guide to Workplace Safety and Hydration
HALF MASK RESPIRATORS REVOLUTIONARY FORCE TYPHOON™8
SUSTAINABLE SOLUTIONS IN PPE
4 HIDDEN JOBSITE RISKS And How To Avoid Them
Mips®HELMET SAFETY SYSTEM TECHNOLOGY
Bouton OpticalAdvanced Lens Technologies in Safety Eyewear™
What to Consider When Choosing HIGH VISIBILITY MULTI-SEASON WORKWEAR
6 Key Facts to Help Understand ARC FLASH RISKS
ON-SITE PPE ASSESSMENT
Head Protection
REUSABLE VS. DISPOSABLEUsing The Right Garment For The Right Job
Experience Barrier Protection and Flexibility With EXTENDED USE GLOVES
What is Double Hearing Protection And When Would You Need It?
CUSTOM LOGO SERVICES FAST, EASY & PRECISE
SUSTAINABLE SOLUTIONS IN PPE
WELDING SAFETY SELECTOR GUIDE
3SP ONLINE TRAINING
BisleyPREMIUM MULTI-SEASON WORKWEAR
Natural Disaster Relief PPE EXPECT THE UNEXPECTED
MADE-TO-ORDER SLEEVES Custom Options for Enhanced Performance
Enhancing Workplace Safety in the Construction Industry with MULTI-DIRECTIONAL HEAD PROTECTION TECHNOLOGY
ON-SITE PPE ASSESSMENT
THORZT™ RAPID REHYDRATIONFor the Industrial Athlete
Protective Clothing
BioSoft™ THE WORLD'S FIRST SUSTAINABLE BIO-BASED EAR PLUGS
NOVAX ELECTRICAL SAFETYNot All Gloves Are Created Equal
INTERACTIVE CROSS REFERENCE
CONTROLLED ENVIRONMENT SELECTOR GUIDE
3SP ONLINE TRAINING
3SP ONLINE TRAINING
EYE PROTECTION SELECTOR GUIDE
HAND PROTECTION SELECTOR GUIDE
Nitrile is a versatile synthetic rubber compound that offers excellent puncture, tear and abrasion resistance. Nitrile is also known for its resistance to hydrocarbon-based oils or solvents. Nitrile coated gloves are the first choice for industrial and construction jobs which require handling of oily parts. Nitrile is durable and helps to maximize protection.
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34-8743
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4331B
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
44-3745
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4442C
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
09-K1600
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X32F
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
The ANSI/ISEA 105-2016 standard outlines test methods for contact heat and scored from 0-5. The ASTM F1060-18 test is used to test conductive heat resistance against gloves and PPE. Measuring the highest contact temperature for which the time to second-degree burn is at least 15 seconds and the alarm time is at least four seconds. Learn More
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
16-351
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
3X42E
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-1743
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4331D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
X1XXXX
EN 407 is a general European standard designed to be used for any glove that is to be sold as providing protection against thermal hazards. All six tests are graded on a scale from 0 to 4, with 0 signifying that the glove failed the test, and 4 demonstrating it has achieved the maximum resistance in that specific area.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-348
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-8443
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4331B
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-MPT630
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42F
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
ANSI/ISEA 138 is a new, voluntary standard for the North American market designed to accurately classify different levels of impact protection offered by the impact-resistant gloves on the market. Click here for more information on our G-Tek Impact Series.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-MPT430
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
ANSI/ISEA 138 is a new, voluntary standard for the North American market designed to accurately classify different levels of impact protection offered by the impact-resistant gloves on the market. Click here for more information on our G-Tek Impact Series.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-350
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X43D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
16-854
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-939
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42C
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
555
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X41E
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-635
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42E
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
16-CUT229MS
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X43D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
1CF7007NTPR
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
3X42F
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
ANSI/ISEA 138 is a new, voluntary standard for the North American market designed to accurately classify different levels of impact protection offered by the impact-resistant gloves on the market. Click here for more information on our G-Tek Impact Series.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
44-4745D
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4343D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
120-5150
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X44D
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
ANSI/ISEA 138 is a new, voluntary standard for the North American market designed to accurately classify different levels of impact protection offered by the impact-resistant gloves on the market. Click here for more information on our G-Tek Impact Series.
16-333
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X42C
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
44-6745F
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4243F
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
16-354
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X43E
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
16-361
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4X41F
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.
The ANSI/ISEA 105-2016 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3389-10 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher ANSI Abrasion Level.
The ANSI/ISEA 105-2016 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.
Reduce waste put into landfill by recycling used PPE through the EasyPak™ recycling program. EasyPak™ containers are a safe and simple way to recycle your PPE.
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
44-5745E
New edition ANSI/ISEA 105-2016 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.
4343E
EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.