Before selecting suitable high-quality Puncture Resistant Gloves,need to to understand their materials and protection ratings. This article will provide valuable insights in just 3 minutes.
How to Choose the Right Puncture-Resistant Gloves?
When selecting Puncture Resistant Gloves, focus on the following key aspects:
- Materials and coatings of Puncture-Resistant Gloves
- Rating levels of Puncture-Resistant Gloves
- Precautions for Puncture-Resistant Gloves
Many people confuse cut-resistant gloves with Puncture-Resistant Gloves.They assume cut-resistant gloves alone are enough.Yet, these protect against entirely different types of hazards.
To select the right Puncture Resistant Gloves, consider the following:
How to Select Puncture-Resistant Gloves Based on Lining Base Materials and Coatings?
Lining base materials and coatings determine the protective effectiveness of Puncture Resistant Gloves. Their properties differ significantly.Understanding the distinctions between these various coatings and materials enables a deeper comprehension of Puncture Resistant Gloves, leading to better selection.
Lining Base Materials for Puncture-Resistant Gloves
The material is the key factor determining a glove’s puncture resistance level.After research and compilation with engineers,We will introduce the most commonly used materials for Puncture-Resistant Gloves currently on the market.
Dyneema Fiber:A high-strength fiber material, specifically polyethylene fiber.
- Properties: High flexibility and comfort.Waterproof and moisture-resistant.Excellent breathability.
Kevlar Aramid Fiber: A robust, heat-resistant synthetic fiber.
Properties: High strength, lightweight. Excellent flexibility, heat resistance.
Spectra Fiber: Ultra-high molecular weight polyethylene fiber. Its strength is 15 times that of steel.
- Performance: High strength. High flexibility. Abrasion-resistant and durable.
Fibre-Metal Blends: Materials composed of fibers and metal.
- Performance: Durable and abrasion-resistant. Puncture-resistant and cut-resistant.Offers flexible and convenient usage.
Metal Mesh: Stainless steel mesh structure. Limited flexibility. Excellent strength and hardness.
- Performance: Puncture-resistant and durable. Cut-resistant and abrasion-resistant.
Currently, Kevlar aramid fiber is the most commonly selected material on the market.
If ranked by puncture resistance? The order is as follows:
Spectra fiber > Dyneema fiber > Kevlar aramid fiber > fiber-metal blends > metal mesh
Coatings for Puncture-Resistant Gloves
Coatings are another key factor influencing puncture resistance.
Currently, common coating options on the market include the following:
- Nitrile Coating: Nitrile coatings offer exceptional puncture resistance. They provide excellent slip resistance and flexibility. They also feature chemical resistance.
- Polyurethane Coatings: Offer outstanding flexibility and high comfort. Yet, their puncture resistance is limited.
- Latex Coatings: Provide excellent abrasion resistance and a strong grip. They also offer some puncture and cut resistance.
- PVC Coatings: Also known as polyvinyl chloride coatings. They provide some puncture resistance and are primarily used in the chemical industry.
These are the common coatings currently available on the market. When ranked by puncture resistance, the order is roughly as follows:
Nitrile Coatings >> PU Coatings > PVC Coatings > Latex Coatings
The puncture resistance of nitrile coatings is significantly superior to the latter three.
Selecting Puncture-Resistant Gloves Based on Puncture Resistance Rating
Puncture Resistant Gloves feature varying structural options based on different materials and coatings.They can be categorized into many distinct ratings.Each rating offers differing levels of protection.
Select Puncture Resistant Gloves according to their suitability for specific applications.Many puncture resistance ratings are currently available on the market.
These ratings are determined through distinct testing protocols for different sharp objects.The following table shows the puncture force each rating can withstand:
You may also select the appropriate level based on task type.
- Level 0: Suitable for minimal puncture risks. Component assembly. Wood handling.
- Level 1: Lightweight assembly work. Component assembly. Product packaging.
- Level 2: Handling or processing of lightweight building materials.
- Level 3: Handling of lightweight glass.
- Level 4: Metal stamping. Glass shard handling.
- Level 5: Heavy-duty applications, mining, metal fabrication.
EN388 Standard Puncture Test Rating
| Level | Puncture Force (Newton) |
|---|---|
| 0 | 0-9 N |
| 1 | 10-19 N |
| 2 | 20-59 N |
| 3 | 60-99 N |
| 4 | 100-149 N |
| 5 | 150+ N |
ANSI/ISEA 105 Standard Puncture Test Rating
| Level | Puncture Force (Newton) |
|---|---|
| 1 | 0-20 N |
| 2 | 20-59 N |
| 3 | 60-99 N |
| 4 | 100+ N |
Considerations for Selecting Puncture-Resistant Gloves
When choosing Puncture Resistant Gloves, focus on durability, comfort, and cleaning methods. Regular inspections are also essential. Recently, online reviews mentioned users stating,
“After buying, I found they didn’t fit my hands properly,” or “I didn’t know how to clean them.”
So pay close attention to the following!
- Durability of Puncture-Resistant Gloves
- Comfort of Puncture-Resistant Gloves
- Cleaning and Drying Methods for Puncture-Resistant Gloves
- After use, gently tap the gloves to shake off dust and dirt.
- Clean soiled areas with mild soapy water.
- Rinse thoroughly with cold or lukewarm water.
- Air-dry naturally.
- Regular Inspection of Puncture-Resistant Gloves