industrial work gloves
M-tide offers a wide range of industrial gloves, including cut-resistant gloves, cotton gloves, and industrial glove solutions. These gloves provide reliable protection against cuts, impacts, and high temperatures. They offer flexibility and wearing comfort, improving dexterity and grip performance. We provide OEM/ODM services and welcome manufacturers to partner with us.
Meets manufacturing protection requirements
Breathable and form-fitting
Reinforced at key areas
Product Specifications
M-tide offers durable industrial gloves in over 20 styles, including cut-resistant, waterproof, impact-resistant, and corrosion-resistant gloves to meet protective needs across multiple industries. With a wide range of yarn materials and coating processes, we can customize glove structures based on specific applications and support mass production.
We offer liner materials such as HPPE, aramid, and nylon, as well as cotton glove options. Coating options include nitrile and latex coatings, and TPR impact protection modules can be added to enhance protection. With over 12 types of yarn materials to choose from, we support surface treatments such as sandy finish and foam coating. Below are some of our glove samples. For OEM services, please contact us, and our team will provide tailored solutions.
Ultra-Thin Nitrile-Coated Cut-Resistant Gloves for Metalworking, Glass Handling, and Touchscreen Use
Waterproof latex/nitrile-coated gloves
Vibration Resistant Leather Gloves
M-tide: A Professional Supplier of Automotive Gloves
Our gloves are designed for durability and strength. Our R&D team continuously optimizes product durability and service life. Choose us to enhance worker protection. Reduce usage and replacement costs. Improve production efficiency, enhance workplace safety and meet compliance requirements. M-tide operates four production lines and operates a complete production system to ensure consistent product quality.
- Stable Lead Times:10–60 days
- Rigorous Quality Control:Full-process quality control
- Supply Chain Strengths:Over 10 years of supply chain management experience, with cost control
- R&D Team: Over 10 years of experience in R&D and factory management
M-tide’s Core Manufacturing Processes for Gloves
Industrial gloves require higher durability and grip performance. Below are the common manufacturing processes used by M-tide:
Our gloves are primarily use nitrile, latex, and PVC coatings, providing excellent oil and chemical resistance in chemical and oily environments. We use a knitted liner to provide a improved fit and breathability for precision assembly, and the 18-gauge liner improves dexterity and grip performance.
We typically apply foam and sandy finish treatments to enhance grip. For the assembly of electronic components and bolts, this reduces slippage risk, and during material handling operations, it prevents items from falling.
If you require higher abrasion, heat, and flame resistance, you can choose cut and sewn gloves for heavy-duty handling, machinery maintenance, and other medium to heavy-duty applications. Additionally, we offer TPR gloves, which absorb and disperse impact energy, providing hand protection and reduce impact injury risk.
Customize Your industrial work gloves
- Liner Materials:
Aramid, nylon, acrylic, leather, polyester, spandex - Coatings:
Nitrile, PU, latex, or uncoated - Coating Coverage:
Palm coated, full coated, 3/4 coated - Gauge:
13, 15, 18 gauge - Sizes:
6–12 / XS–XXL - Logo Printing:
Heat transfer printing, screen printing, woven labels - Packaging:
Boxed, individually wrapped, custom cartons
Uses of industrial work gloves
Metalworking
Used for cutting, stamping, grinding, and handling parts to prevent cuts from sharp edges and ensure hand safety and a secure grip during operations.
Welding Operations
Used for welding, heat treatment, and high-temperature work to protect against sparks and contact with high temperatures, reducing the risk of burns.
Chemical Processing
Used for cleaning, degreasing, acid/alkali treatment, and processes involving liquid contact to prevent chemical irritation and corrosion of the skin.
Precision Assembly
Used for assembling electronic components and instruments, as well as fine-motor tasks, to ensure precision and prevent contamination and electrostatic damage.
Frequentiy Asked Questions
What is the difference between nitrile-coated gloves and latex-coated gloves?
Nitrile-coated gloves and latex-coated gloves are the two most commonly used types of gloves in industrial manufacturing, including applications in mechanical manufacturing, automotive parts production, and electronics processing.
Nitrile-Coated Gloves:
Offer excellent chemical resistance and perform well in oily environments with strong grip. They are latex-free and do not cause allergic reactions. These gloves provide a good balance of protection and flexibility. However, they generally come at a higher cost.
Latex-Coated Gloves:
Provide superior flexibility and good grip in wet environments. They are more cost-effective. However, they have limited chemical resistance and are not suitable for contact with oils or organic solvents such as engine oil.
How to choose the right industrial gloves?
There are many types of industrial gloves, including nitrile-coated, latex-coated, and PU-coated gloves. The selection should be based on specific tasks and risk levels.
Electronics Assembly:
Requires precise handling and anti-static properties. Powder-free gloves are preferred. PU-coated gloves are recommended due to their high dexterity, anti-static performance, and low lint generation.
Automotive & Mechanical Processing:
Tasks such as assembling automotive components, handling painted surfaces, and equipment maintenance often involve exposure to oils and mechanical risks like cuts and punctures. Nitrile-coated gloves are recommended due to their strong oil resistance, cut resistance, and chemical protection.
Logistics & Warehousing:
Require high abrasion resistance and comfort for long working hours. Gloves with nylon blended liners combined with PVC or latex coatings are commonly used.
What materials are commonly used in industrial gloves?
Industrial gloves are used across a wide range of applications, and different tasks require different protective properties.
- Nitrile Rubber (NBR): Excellent puncture resistance, chemical resistance, and oil resistance. Widely used in industrial gloves.
- Leather: Offers strong protection, abrasion resistance, heat resistance, and shock absorption. Common types include cowhide and synthetic leather.
- PVC: Good abrasion resistance and protection against mild acids and alkalis. Provides some chemical resistance but has limited breathability.
- Kevlar Fiber: A high-performance synthetic fiber commonly used for cut protection. Offers excellent tear resistance and enhances durability.
What is the difference between disposable examination gloves and industrial gloves?
Disposable examination gloves and industrial gloves are used in different industries and have different protection standards.
A key parameter is AQL (Acceptable Quality Level), which indicates the acceptable rate of defects such as pinholes during sampling inspection. A lower AQL means stricter quality requirements.
- Disposable Examination Gloves:
Primarily used in medical applications. AQL requirement is typically below 2.5. - Industrial Gloves:
Used in automotive manufacturing, cleaning, and food processing. AQL levels are usually between 4.0 and 10.0.
What should be considered when purchasing industrial gloves in bulk?
When sourcing industrial gloves in bulk, the following factors should be considered:
- Application Suitability:
Different industries and tasks involve different risks. Ensure the glove type matches the working environment and required certifications. - Product Quality:
Evaluate durability, protection level, fit, and wearing comfort. Sample testing is recommended before bulk purchase. - Safety Certifications:
Check manufacturer certifications and compliance with standards such as CE PPE, EN388 (cut resistance), and ANSI/ISEA.
How to choose a reliable industrial glove supplier?
Choosing the right supplier ensures stable and efficient project execution.
- Reputation & Experience:
Review the manufacturer’s experience and market reputation. M-tide has over 10 years of production experience. - Lead Time:
Lead time reflects the supplier’s ability to handle large orders. M-tide’s lead time is typically 30–120 days depending on customization. - Production Capacity:
Assess the manufacturer’s production lines and output capacity. - Customization Options:
Check available customization such as materials, coatings, packaging, and logo printing. - Certifications:
Verify compliance with CE PPE and protective standards such as EN388 and ANSI. - Minimum Order Quantity (MOQ):
MOQ balances production efficiency and raw material sourcing. M-tide’s MOQ is typically 10,000 pairs or 800 dozen, depending on the solution.
