Cut Protection Levels Explained: EN388:2016 Standards & Choosing the Right Safety Gloves

Hand injuries remain one of the most common workplace accidents in the UK. From minor lacerations in a warehouse to life-altering injuries in manufacturing and construction, the cost isn’t just measured in lost time, it’s measured in livelihoods.

Yet despite this, many businesses still choose gloves based on price, comfort, or habit rather than protection level. That’s where understanding EN388 glove standards becomes essential.

In this guide, we break down the EN388:2016 rating system, explain what changed from the previous standard, and show you how to match the right cut protection levels to real-world tasks across warehousing, construction, and manufacturing.

Understanding EN388:2016 – The Standard Explained

EN388 is the European standard used to assess mechanical risks for protective gloves. If you’re responsible for PPE procurement or workplace safety, this isn’t optional knowledge, it’s fundamental.

EN388:2016 vs 2003 – What Changed?

The 2016 revision addressed inconsistencies in cut testing, particularly with high-performance fibres that could blunt the test blade.

Key changes:

• Introduction of the ISO 13997 cut test (TDM test)
• Replacement of the old 1–5 cut rating with an A–F rating scale
• Addition of impact protection marking (if applicable)
• More accurate testing for modern materials

The EN388 2016 update isn’t a minor tweak, it’s a significant improvement in reliability.

The EN388 Pictogram and What the Numbers Mean

You’ve seen the hammer shield icon. But what do the numbers actually mean?

Under EN388:2016, gloves are rated against:

• Abrasion resistance (0–4)
• Blade cut resistance (Coupe test) (0–5)
• Tear resistance (0–4)
• Puncture resistance (0–4)
• ISO 13997 cut resistance (A–F)

An example marking might look like:

4X43C

Where:

• 4 = Abrasion resistance
• X = Coupe test not applicable
• 4 = Tear resistance
• 3 = Puncture resistance
• C = ISO cut resistance level

The most important rating when handling sharp materials? The A–F cut resistance scale.

Cut Protection Levels Explained (A–F)

The A–F rating measures the force (in Newtons) required to cut through the glove material using the ISO 13997 test.

• A (2–5N): Very low risk
• B (5–10N): Low risk
• C (10–15N): Medium risk
• D (15–22N): High risk
• E (22–30N): Very high risk
• F (30+N): Extreme risk

Let’s translate that into real workplace scenarios.

Warehouse Tasks: What Level Do You Need?

Picking & Packing

• Handling cardboard
• Opening boxes
• Light strapping

Recommended level: A–B
Lightweight, dexterous gloves are ideal.

Handling Metal Components

• Sheet metal
• Sharp edges
• Strapping removal

Recommended level: C–D
This is where many operations under-specify protection.

Heavy Strapping & Pallet Work

• Steel banding
• Repetitive handling

Recommended level: D–E
Basic PU gloves are rarely sufficient here.

Construction: Higher Risk, Higher Protection

Demolition & Sharp Debris

• Jagged materials
• Broken metal
• Hidden sharp edges

Recommended level: D–F

Fabrication & Steel Fixing

• Rebar
• Fabricated metal
• Structural components

Recommended level: E–F

The sharper and heavier the material, the higher the Newton force required, and the higher the protection level needed.

Manufacturing: Balancing Precision & Protection

Light Assembly

• Small components
• Fine motor tasks

Recommended level: B–C

Machinery & Metalwork

• Pressed parts
• CNC operations
• Sheet handling

Recommended level: C–E (depending on exposure)

Too much protection can reduce dexterity. Too little protection increases injury risk. Proper glove trials matter.

Common Mistakes When Selecting Cut-Resistant Gloves

• Choosing based on price alone
• Confusing old “Level 5” gloves with modern A–F ratings
• Ignoring dexterity requirements
• Failing to update risk assessments
• Not involving operatives in glove trials

Protection that isn’t worn properly isn’t protection at all.

Glove Maintenance & Replacement

Even the highest-rated glove won’t last forever.

Replace gloves when:

• Fibres are visibly worn or fraying
• Grip coatings degrade
• Gloves become saturated or stiff
• Any visible cut penetration appears

Regular inspection should be part of your PPE management system, ideally before every shift.

Final Thoughts: Protection Should Be Intentional

Understanding cut protection levels isn’t about memorising letters and numbers. It’s about aligning the right protection with the real risks your site faces.

Hand injuries are predictable, preventable, and often the result of under-specifying PPE.

If you’re unsure whether your current gloves meet EN388:2016 standards, or whether your teams are adequately protected, it may be time for a review. Because when it comes to hands, “good enough” rarely is.