Protective Glove Safety Standards

Overview

All our gloves are rigorously tested in accordance with internationally recognized safety standards to ensure consistent and reliable protection in demanding environments.

These standards evaluate performance across a wide range of hazards, including mechanical protection, thermal protection (heat and cold), anti-vibration performance, welding protection, chainsaw resistance, arc flash hazards, and specialized firefighter glove requirements.

Each glove is assigned certified performance levels, enabling users to quickly assess and select the appropriate level of protection for their specific application.

Mechanical Protection

EN 388:2016

The EN 388 standard describes the test procedures for determining the performance levels of certain mechanical risks. The pictogram is marked with five or six level values.

EN 388:2016 mechanical risks pictogram

EN 388:2016 Mechanical Protection Guide

(European Standard for Protective Gloves)

Performance ratings12345
A. Abrasion Resistance (Cycles)1005002,0008,000
B. Blade Cut Resistance (Coupe Test)1.22.55.010.020.0
C. Tear Resistance (Newtons)10255075
D. Puncture Resistance (Newtons)2060100150
ISO cut & impact ratings
ABCDEF
E. EN ISO Cut Resistance (Newtons)2510152230
F. EN Impact Protection\\PASSorFAIL\

Extra Notes:

  • 0 = failed
  • X = test not done or not relevant
  • Example: "4243 X" or "3X43 C P" combines all results

ANSI/ISEA 105 rates gloves for mechanical protection—abrasion, cut, tear, puncture, and needle resistance—so your hands stay safe from cuts and scrapes.

PropertyShort descriptionLevel
Abrasion ResistanceWithstands rubbing & wear0–6
Cut ResistanceProtects against blades & sharp edgesA1–A9
Tear ResistanceResistant to ripping or tearing0–6
Puncture ResistanceGuards against nails & splinters0–5
Needle Puncture ResistanceProtects from fine sharp points0–5
Impact ProtectionAbsorbs shocks to knuckles & fingersLevel 1–3
ANSI/ISEA 105-2024 mechanical protection marking diagram

ANSI/ISEA 105-2024 Cut Resistance

ANSI cutCut force (g)Typical tasks / applications
A1≥ 200General purpose, warehousing, small parts assembly
A2≥ 500General purpose, plastics, injection & molding, pulp & paper
A3≥ 1,000Raw material handling, general manufacturing, construction
A4≥ 1,500HVAC, aerospace, food prep
A5≥ 2,200Glass or metal sheet handling, automotive assembly, HVAC
A6≥ 3,000Metal fabrication, glass manufacturing, changing blades
A7≥ 4,000Meat prep/processing, glass manufacturing, metal stamping
A8≥ 5,000Metal stamping, recycling, heavy assembly
A9≥ 6,000Sharp metal stamping, recycle sorting, metal fabrication

ANSI/ISEA 105-2024 Abrasion Resistance Guide

ANSI levelTest loadPerformance milestoneDuty intensityTypical hazards & tasks
0500g< 100 RevolutionsMinimalLight tasks, no friction
1500g100+ RevolutionsLight DutyPainting, Food Prep, Inspection
2500g500+ RevolutionsLight - MediumElectronic Assembly, Pharmaceuticals
3500g1,000+ RevolutionsMedium DutyGeneral Assembly, Automotive
41000g3,000+ RevolutionsMedium - HeavyConstruction, Metal Fabrication
51000g10,000+ RevolutionsHeavy DutyMechanics, Warehousing, Brickwork
61000g20,000+ RevolutionsExtra HeavyMining, Oil & Gas, Heavy Equipment

ANSI/ISEA 105 Puncture Resistance Guide

(Non-Hypodermic Needle Test)

ANSI levelPuncture forceProtection levelTypical applications
0< 10 NewtonsMinimalPaper/Cardboard Cuts, Light Parts Assembly
1≥ 10 NewtonsLight DutyPackaging, Small Parts Assembly, Material Handling
2≥ 20 NewtonsLight - MediumLight Construction, General Material Handling
3≥ 60 NewtonsMedium DutyManufacturing, Light Glass Handling, Metal Stamping
4≥ 100 NewtonsHeavy DutyMetal Stamping, Glass Handling, Recycling, Injection Molding
5≥ 150 Newtons*Extra HeavyOil & Gas, Mining, Heavy Construction, Demolition

*Note: While both 4 and 5 are rated for high force, Level 5 is designed for the most extreme industrial environments.

ANSI/ISEA 105 Needle-Stick Resistance Guide

(ASTM F2878 Hypodermic Needle Test)

ANSI levelPuncture forceProtection levelTypical applications
1≥ 2 NewtonsLowGeneral waste handling, janitorial services
2≥ 4 NewtonsLight - MediumMedical waste, laundry services, law enforcement
3≥ 6 NewtonsMedium DutySanitation, recycling center sorting, search/patrol
4≥ 8 NewtonsHeavy DutyHigh-risk needle handling, waste management
5≥ 10 NewtonsExtra HeavyHazardous waste cleanup, emergency response

ANSI/ISEA 138 covers impact protection, reducing shocks to knuckles and fingers from dropped tools or pinch hazards. Together, they ensure tested, reliable hand protection for industrial, construction, healthcare, and safety tasks.

ANSI/ISEA 138 impact protection levels 1, 2, and 3

ANSI/ISEA 138 Impact Resistance Guide

Impact levelProtectionPerformance intensityTypical tasks & environments
Level 1Provides minimal protection; designed to reduce the effect of low-impact hazards.LightGeneral material handling, light assembly work.
Level 2Offers moderate protection; capable of withstanding medium-impact hazards.MediumConstruction, assembly line work, light power tool use.
Level 3Delivers high protection; designed for heavy-impact hazards and extreme conditions.HighOil and gas work, heavy machinery, high-impact environments.

Thermal protection (heat)

EN 407:2020 Thermal risks (heat)

This standard specifies the thermal performance of gloves for protection against heat and/or fire hazards. The pictogram is accompanied by six performance levels (1–4). If a test is not performed, the digit is replaced by an "X".

EN 407: claimed flame resistance and no claimed flame resistance pictograms

There are 2 pictograms with clear differences between flame resistance and non-flame resistance. Both pictograms may not be used at the same time.

EN 407:2020 Thermal Protection Guide

Performance1234
A. Limited Flame Spread (After-burn time)≤ 20s≤ 10s≤ 3s≤ 2s
B. Contact Heat (Temp. for ≥ 15s)100°C250°C350°C500°C
C. Convective Heat (Heat transfer delay)≥ 4s≥ 7s≥ 10s≥ 18s
D. Radiant Heat (Heat transfer delay)≥ 7s≥ 20s≥ 50s≥ 95s
E. Small Splashes (Molten Metal) (Drops)≥ 10≥ 15≥ 25≥ 35
F. Large Quantities (Molten Metal) (Mass)30g60g120g200g

Thermal protection (cold)

EN 511 Thermal risks (cold)

This standard applies to gloves that offer protection against convective and contact cold down to -50°C. The pictogram is accompanied by three performance levels. If a test is not performed, the digit is replaced by an "X".

EN 511:2006 cold hazard pictogram — convective cold, contact cold, water penetration

EN 511:2006 Protection Guide(Standard for Protective Gloves Against Cold)

PERFORMANCE LEVEL1234
1. Convective Cold (Thermal Insulation ITR in m² K/W)0.10 – 0.150.15 – 0.220.22 – 0.30≥ 0.30
2. Contact Cold (Thermal Resistance R in m² K/W)0.025 – 0.0500.050 – 0.1000.100 – 0.150≥ 0.150
3. Water Penetration (30-minute test)PASS (1)

Water Penetration: Pass (1) or Fail (0). If a glove is rated 0, it may lose its insulating properties if it gets wet.

Anti-Vibration Protection

EN ISO 10819 Anti-Vibration Protection

The EN ISO 10819:2013 (with Amendments A1:2019 and A2:2022) standard is the international benchmark for measuring and evaluating the vibration transmissibility of protective gloves. It identifies gloves that effectively reduce the risk of Hand-Arm Vibration Syndrome (HAVS), commonly known as "white finger".Common applications: jackhammers, drills, construction equipment.

EN ISO 10819 anti-vibration marking — TRM and TRH performance

EN ISO 10819 Performance Guide

The glove is tested across two frequency spectrums. Transmissibility (TR) measures how much vibration passes through the glove to the palm; a lower number means better protection.

Frequency RangeSpectrum TypeRequirement (TR)Performance Meaning
Medium Frequency (25 Hz – 200 Hz)TRM≤ 0.90Must reduce vibration by at least 10% (cannot amplify it).
High Frequency (200 Hz – 1250 Hz)TRH≤ 0.60Must reduce vibration by at least 40%.

Welding

EN 12477 Welding Gloves

EN 12477:2001 is the European standard specifically for protective gloves for welders. It ensures that gloves provide a combined defense against mechanical risks (EN 388) and thermal hazards (EN 407) encountered during welding and cutting.

EN 12477 Classification: Type A vs. Type B

  • Type A (Higher Protection): Recommended for welding processes where high heat and mechanical protection are critical, such as Stick (SMAW) or MIG welding. They are typically thicker and less flexible.
  • Type B (Higher Dexterity): Recommended for processes requiring fine motor control and high dexterity, specifically TIG welding. They offer lower thermal and mechanical resistance

Protection Guide: Minimum Performance Levels

To be certified under EN 12477, a glove must meet the following minimum levels from the EN 388 (Mechanical) and EN 407 (Thermal) standards:

Performance requirementTest standardType A (High Protect)Type B (High Dexterity)
Abrasion ResistanceEN 388Level 2Level 1
Blade Cut ResistanceEN 388Level 1Level 1
Tear ResistanceEN 388Level 2Level 1
Puncture ResistanceEN 388Level 2Level 1
Burning BehaviorEN 407Level 3Level 2
Contact Heat ResistanceEN 407Level 1Level 1
Convective Heat ResistanceEN 407Level 2Not Required
Small Molten Metal SplashesEN 407Level 3Level 2
Manual DexterityEN 420Level 1Level 4

Technical Requirements & Sizing

Welding glove marking example: EN 388 mechanical pictogram with performance code; EN 12477 Type B with EN 407 thermal pictogram and performance code
  • Electrical Insulation: The standard also checks for electrical resistance. Certified gloves must provide protection against incidental contact with electrical conductors up to 100V (DC) for arc welding.
  • Minimum Glove Length: Unlike standard work gloves, welding gloves must have an extended cuff to protect the wrist and forearm. The minimum length depends on the hand size:
    • Size 9 (L): 330 mm
    • Size 10 (XL): 340 mm
    • Size 11 (XXL): 350 mm
  • There is no unique EN 12477 icon; instead, the glove will display the EN 388 and EN 407 icons followed by the text "EN 12477 Type A" or "Type B", as illustrated above.

Chainsaw Protection

EN ISO 11393-4 Chainsaw Protection

EN ISO 11393-4 chainsaw glove marking — class, design, type and shield pictogram

EN ISO 11393 defines the requirements for personal protective equipment (PPE) for users of handheld chainsaws. Part 4 of this standard deals with protective gloves.

Classes:

ClassChain speed (m/s)Usage description
Class 016 m/sSuitable for occasional users or light-duty tasks.
Class 120 m/sThe industry standard for professional forestry and home use.
Class 224 m/sDesigned for heavy-duty professional operations.
Class 328 m/sMaximum protection for extreme high-power chainsaw conditions.

Type: Hand Protection Coverage

  • Type 1 gloves provide saw protection on both hands.
  • Type 2 gloves offer protection only on the left hand, typically used by right-handed chainsaw operators.

Design: Protective Areas

  • Design A includes protection on the back of the hand.
  • Design B extends protection to both the back of the hand and the fingers.

ARC FLASH protection

1. Key Testing Standards:

  • ASTM F2675 / F2675M: The primary global standard for testing the arc rating of protective gloves. It measures the thermal protection provided by the glove material when exposed to an open arc.
  • NFPA 70E: The US workplace safety standard that defines the PPE Category required based on the calculated risk of an electrical environment.

2. Performance Ratings (The Numbers)

  • Arc Rating (ATPV/EBT): The primary output of this test is the Arc Thermal Performance Value (ATPV) or Energy Breakopen Threshold (EBT), measured in cal/cm².

3. Protection Levels (PPE Categories)

Arc rating label: triangle with arc flash symbol, ARC RATING and example cal/cm² value

Based on NFPA 70E, arc-rated gloves are classified into four categories:

ASTM F2675 Arc RatingNFPA 70E PPE Category
≥ 4 cal/cm²Category 1
≥ 8 cal/cm²Category 2
≥ 25 cal/cm²Category 3
≥ 40 cal/cm²Category 4

NFPA Firefighter Glove Standards

NFPA 1970 (1971) – Structural Firefighting Gloves

NFPA 1970 establishes the minimum requirements for the design, performance, and testing of protective ensembles for structural firefighting. The section previously known as NFPA 1971 specifically covers gloves, ensuring firefighters are protected against thermal, mechanical, and liquid-borne hazards.

Key Performance Requirements

Key Test ItemNFPA 1970/1971 Requirement
TPP RATING≥ 35 cal/cm²
Time to second-degree burn> 10 s
Time to pain> 6 s

NFPA 1950(1977) – Wildland Firefighting Gloves

Wildland firefighting is an endurance test. NFPA 1977 certified gloves balance flame resistance with heat dissipation. They provide essential protection against radiant heat and momentary flame contact while remaining light and flexible enough for 12-16 hour shifts in rugged terrain.

Key Performance Requirements

Key Test ItemsNFPA 1977 Requirement
TPP RATING≥ 20 cal/cm²
Time to second-degree burn> 7 s
Time to pain> 4 s