Reliable PVC-Coated Glove Manufacturer
M-tide has been manufacturing PVC-coated gloves for over a decade. Our PVC dipping process delivers oil resistance, abrasion resistance, warmth retention, and cut protection. Suitable for industrial and household applications. Choose from acrylic, cotton, synthetic leather, or knit linings. Features a safety cuff design and interlocking lining structure. Meets international standards for petroleum industries, automotive maintenance, fisheries, and more. We offer OEM and ODM customization. Contact our engineers for inquiries.
Resists grease, acids, and alkalis
Protects against liquid splashes
Volume discounts available
Product Specifications
We offer a variety of PVC-coated gloves, such as fully dipped PVC gloves and double-dipped PVC gloves. These are great for both light protection and tough jobs in chemical, petroleum, and other industries. They are particularly suitable for individuals with latex allergies.
We offer multiple surface finishes: PVC dotted, rough, sandy, and smooth. Lining options include leather, polyester, cotton, acrylic, and fleece. Available colors encompass black, blue, red, yellow, and orange. Both short and long glove styles are provided. We deliver 100% customization services—contact M-tide engineers for inquiries.
High Elasticity Chemical Resistant PVC Gloves
Waterproof PVC Coated Gloves
Extended Cuff PVC Safety Gloves
Cotton Lined Sandy PVC Gloves
Anti-Slip PVC Granule Gloves
Anti-Static PVC Coated Gloves
Breathable PVC Gloves
Thickened Chemical Resistant PVC Gloves
Why Choose Our PVC-Coated Gloves?
M-tide is committed to producing high-quality PVC-coated gloves. With 10 years of manufacturing and several international certifications, M-tide’s gloves provide great comfort. We provide a variety of knit materials and coating processes to meet personalized requirements. We have four automated production lines. With strict quality control, our gloves are always 100% safe. An increasing number of customers choose to partner with M-tide. We deliver the best PVC-coated glove solutions for your needs. |
- Professional OEM/ODM order fulfillment
- Fully automated supply chain with stable production
- Significant cost advantages
- Eco-friendly production philosophy
Features of PVC-Coated Gloves
Why Choose PVC-Coated Gloves?
PVC-coated gloves feature a polyvinyl chloride (PVC) coating that provides oil and water resistance. They resist abrasion and are chemically durable, which makes them great for oily and humid places.
- Water and Oil Resistance: Blocks grease, engine oil, gasoline, and lubricants effectively. Also resists acidic and alkaline materials.
- Durability: Offers thermal insulation, heat resistance, abrasion resistance, and anti-aging properties. Ensures extended service life.
- Chemical Stability: Resists corrosion and performs reliably in acidic or alkaline environments.
When selecting PVC-coated gloves, refer to EN388 and ANSI industry standards to choose certified gloves that provide 100% protection.
Single/Double PVC-Coated Gloves:
Single PVC-Coated Gloves:
Featuring a single PVC coating with a thickness of 0.8 mm to 1.2mm. PVC coating applied to the palm and fingers, making it suitable for light-duty tasks and providing basic protection against water, oil, and mild chemicals. Cost-effective and efficient. Offers enhanced comfort during wear.
Double-dipped PVC:
Consists of a base layer and a thickened coating. Thickness: 1.5mm–2.5mm. Features a coating on both the back and palm for better protection. It’s ideal for chemical, petroleum, machining, and heavy oil industries. (Highly recommended)
Seeking superior chemical resistance? We provide a PVC + Nitrile composite coating. This improves flexibility and stretch for a better palm fit. It also offers greater chemical resistance.
Custom PVC-Coated Glove Solutions
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Colors:
Black, Orange, Blue, Green, Red, White -
Linings:
Fleece, Cotton, Polyester, etc. -
Surface Finishes:
Smooth, Sanded, PVC Dot -
Coating Process:
Single dip, double dip, full dip, half dip - Customizable PVC + Nitrile composite coating
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Special Features:
Fluorescent reflective strips, touchscreen solution -
Sizes:
XS–XXXL, women's/small hands friendly
Primary Uses of Cut-Resistant Gloves
Light Cut-Resistant Applications:
Primarily EN388 Level 3 or ANSI A3/A4, suitable for contact with general sharp objects. Resists cuts from everyday sharp tools and metal debris while maintaining operational flexibility. Commonly used in food processing, automotive repair, equipment maintenance, warehouse sorting, and horticultural work.Heavy-duty cut-resistant applications:
Primarily Level 5 and ANSI A5. Designed for equipment operation, tool handling, construction, metal stamping, glass/building materials processing, and oil/gas industries. Withstands cutting and puncture risks in high-intensity tasks, providing robust hand protection for workers.
Frequentiy Asked Questions
What is the delivery time for custom-made cut-resistant gloves?
What are cut-resistant gloves?
Cut-resistant gloves can protect against cuts and scratches from sharp objects during work. They use a high-performance woven liner made of HPPE, Kevlar, and fiberglass. The outer layer is coated with nitrile or latex to enhance anti-slip and wear resistance. M-tide’s cut-resistant gloves comply with EU EN388 or ANSI cut resistance standards, suitable for different risk levels. They can also offer touchscreen compatibility, warmth, and oil resistance, increasing their usability.
What are the cut resistance standards for EN388 vs ANSI?
EN388 and ANSI are currently the world’s leading protective standards for cut-resistant gloves. Their differences lie in their scope, grading systems, and testing methods.
EN388 is the European Union standard for mechanical protective gloves. Beyond cut resistance, it includes performance tests for abrasion, puncture, tear, and impact resistance. Cut resistance is graded from A to F. Testing involves repeated cuts with a circular blade; higher grades indicate stronger protection.
ANSI/ISEA 105 is the U.S. standard. It classifies cut resistance into levels A1-A9. Testing uses a straight-edge blade cutting vertically downward.
EN388 is widely adopted in Europe and most Asian countries, while ANSI standards primarily serve the U.S., Australian, and Canadian markets.
Can cut-resistant gloves completely prevent cuts?
No, they cannot completely prevent cuts. The core function of cut-resistant gloves is to reduce the probability and severity of cuts, not to provide absolute protection against cutting.
The performance of cut-resistant gloves depends on their protection rating. Even the highest-rated gloves may fail when subjected to forceful slashes from blades or intense punctures from sharp objects.
Additionally, the condition of the gloves affects their protective effectiveness. Prolonged use causes fiber wear, coating peeling, and material aging, significantly reducing cut resistance. Therefore, gloves should be selected at an appropriate rating, inspected regularly, and replaced promptly.
Finally, selecting a high-quality supplier of cut-resistant gloves is crucial for minimizing the risks of lacerations. Choosing M-tide may be a better option.
How can I determine the cut resistance rating of cut-resistant gloves?
The cut resistance rating of cut-resistant gloves can be identified by the standard symbols on the label. Pay attention to the symbols for the EN388 and ANSI/ISEA 105 standards.
First, the EN388 symbol uses a 6-digit number and letter format. The second digit represents the Coup Test cut resistance level, ranging from 1 to 5, where a higher number indicates greater protection. The fifth digit indicates the TDM cut level, ranging from A to F. A later letter denotes stronger protection.
The ANSI/ISEA 105 standard uses a pentagonal badge. The central section displays the cut resistance level, categorized from A1 to A9. A higher number signifies greater cut resistance capability.
How to choose the right cut-resistant gloves?
Selecting appropriate cut-resistant gloves requires consideration of the work environment, protection level, and material. First, identify the specific risk type involved in the task.
For light industrial settings like logistics warehousing or equipment maintenance, ANSI A2-A4 grade gloves are suitable, prioritizing flexibility.
For heavy industrial settings like glass manufacturing or construction materials handling, opt for A6-A9 grade gloves to ensure adequate protection.
Second, match the glove material to the environment. HPPE gloves are lightweight and flexible, ideal for precision tasks. Nitrile-coated gloves offer oil resistance and slip resistance, making them suitable for greasy conditions.
What types of cut-resistant gloves are available?
Cut-resistant gloves can be categorized based on material and coating to suit different work requirements.
By inner lining material:
– HPPE gloves: Lightweight and flexible with excellent cut resistance, ideal for precision tasks. Kevlar cut-resistant gloves, which are heat-resistant and tear-resistant, suitable for high-temperature operations; composite gloves, featuring high-strength cut resistance for heavy industrial use.
By coating type, they can be categorized into nitrile-coated gloves and latex-coated gloves. Nitrile-coated gloves offer oil resistance, slip resistance, and resistance to mild chemical corrosion. Latex-coated gloves provide strong grip and are suitable for both dry and wet environments.
How should cut-resistant gloves be cleaned?
Proper cleaning methods can effectively extend the service life of cut-resistant gloves while maintaining consistent performance.
First, for light stains, hand wash using lukewarm water below 30°C (86°F) with a neutral detergent, gently rubbing the gloves. For heavy oil stains, pre-treat with a neutral degreaser before hand washing. Alternatively, place gloves in a laundry bag and wash on a gentle cycle in the washing machine. Never use bleach or strong acidic/alkaline cleaners, as these can damage the fiber and coating structure.
After washing, lay gloves flat to air dry in a cool, well-ventilated area. Avoid direct sunlight or high-temperature drying.
Does contact with oil reduce the cut resistance of gloves?
Contact with oil will reduce the cut resistance of gloves to varying degrees.
Oil can penetrate the fibers of the glove lining, damaging their structure. This reduces resistance to blade cuts, weakening the protective effect. Heavy oil contamination may cause the coating to soften and peel off, further compromising protection.
Therefore, for oil-contaminated work environments, we recommend selecting nitrile-coated gloves with oil resistance. Additionally, promptly clean oil residue from the glove surface after use. If gloves show signs of material degradation due to heavy oil contamination, replace them immediately.
When should cut-resistant gloves be replaced?
If the gloves develop holes, fiber breaks, or coating peeling, they must be replaced immediately regardless of usage duration. Even without visible damage, gloves used for over six months should undergo performance testing and be replaced if necessary.
