What are the functional requirements of Double weave Corduroy Fabric in industrial use?

Double Weave Corduroy Fabric In industrial use, its functional requirements are usually closely related to its specific application scenarios. Due to the particularity of the industrial environment, this fabric needs to have certain functional properties to meet specific needs. The following are the main functional requirements and analysis of double weave corduroy in industrial use:

Flame retardancy
There may be dangerous factors such as high temperature, open flame or electric arc in the industrial environment, so flame retardancy is a core requirement for many industrial uses.
For example: used for protective clothing, welding work clothes, fire equipment covering materials, etc.
Functional requirements
The fabric must pass the relevant flame retardant standard test (such as EN ISO 11612, NFPA 70E, etc.).
It can self-extinguish when exposed to flames, reducing the risk of flame spread.
No toxic smoke or droplets are produced.
Implementation method
Use flame retardant fibers (such as aramid, Nomex, Kevlar) as raw materials.
Add flame retardant coatings or additives in the finishing stage.
Combined with double-layer woven structure, enhanced thermal insulation performance.
Wear resistance and durability
In industrial scenarios, fabrics may frequently contact rough surfaces or be subjected to high friction (such as conveyor belts, protective pads, and mechanical equipment covers).
It is necessary to ensure that the fabric is not easy to wear or tear during long-term use.
Functional requirements
High wear resistance and tear resistance.
Able to withstand repeated mechanical stress without deformation or damage.
Implementation method
Use high-strength fibers (such as polyester and nylon) as raw materials.
Increase fabric density and yarn count.
Resin coating treatment in the finishing stage to increase surface hardness.
Waterproof and oil-proof
In some industrial environments (such as chemical plants and food processing plants), fabrics may be exposed to liquids, oils or other chemicals and need to have waterproof and oil-proof properties.
For example: protective clothing, cleaning tool covering materials, equipment cover cloths, etc.
Functional requirements
The surface is hydrophobic and can effectively prevent liquid penetration.
Resistant to erosion by grease and other chemicals.
Implementation method

Apply fluorocarbon compound (such as Teflon) coating in the finishing stage.
Use waterproof and breathable membranes (such as Gore-Tex) to laminate to the fabric.
Double-layer woven structure can further enhance waterproof performance, and the inner layer provides additional protection.
Antistatic property
In electronic manufacturing, petrochemical and other industries that are sensitive to static electricity, static electricity may cause fire, explosion or damage precision equipment.
Fabrics need to have antistatic properties to avoid static electricity accumulation.
Functional requirements
Surface resistivity meets relevant standards (such as EN 1149-5).
Can quickly conduct static charges to avoid static electricity accumulation.
Implementation method
Mix conductive fibers (such as carbon fiber and metal fiber) into the yarn.
Add antistatic additives in the finishing stage.
The double-layer structure can further enhance the antistatic effect through the design of the conductive layer.
Heat insulation and thermal insulation
In high or low temperature environments (such as boiler rooms and cold storage), fabrics need to provide good thermal insulation or thermal insulation properties.
For example: heat-insulating gloves, thermal insulation covers, protective clothing, etc.
Functional requirements
Can effectively block heat transfer and keep the internal temperature stable.
Provide sufficient warmth in low temperature environments.
Implementation
Use thermal insulation fibers (such as aerogel fibers, glass fibers) as raw materials.
Use double-layer woven structures to form air interlayers to enhance thermal insulation.
Add thermal insulation coatings or fillers in the finishing stage.
Antibacterial and mildew-proof properties
In humid or multi-bacterial environments (such as medical equipment covers, food processing workshops), fabrics need to have antibacterial and mildew-proof properties to prevent bacterial growth and mildew.
For example: medical protective clothing, sanitary product covering materials, etc.
Functional requirements
Comply with antibacterial test standards (such as AATCC 100, ISO 22196).
Not prone to mold or rot under humid conditions.
Implementation
Add antibacterial agents (such as silver ions, quaternary ammonium salts) in the finishing stage.
Use natural antibacterial fibers (such as bamboo fiber, seaweed fiber).
Ensure that the fabric has good breathability and reduces moisture accumulation.
Chemical resistance
In industries such as chemical and pharmaceutical, fabrics may come into contact with strong acids, alkalis or other corrosive chemicals.
Fabrics need to have good chemical resistance to extend their service life.
Functional requirements
Resistant to common chemicals without dissolution or degradation.
The surface is not easily contaminated and easy to clean.
Implementation method
Use chemical-resistant fibers (such as PTFE, polypropylene).
Add chemical-resistant coatings in the finishing stage.
The double-layer structure can provide additional barrier protection.

The functional requirements of Double Weave Corduroy Fabric in industrial use mainly include flame retardancy, abrasion resistance, waterproof and oil repellency, antistatic properties, thermal insulation, antibacterial and mildew resistance, chemical resistance and dimensional stability. These functional requirements are usually achieved by selecting suitable raw materials, optimizing weaving structures and adopting advanced finishing technologies. Depending on the specific industrial application scenarios, the functional requirements of fabrics may be emphasized, so the actual use conditions need to be fully considered during the design and production process to ensure that the fabrics can meet the strict requirements of industrial use.