Your Trustful Coating Fabric Supplier
Since 2005, YEEDAH has been a leading manufacturer of fire-retardant coating fabrics in China. As a vertically integrated and professional fireproof fabric supplier, we offer a wide range of materials and specifications to support your business.
Your Trustful Coating Fabric Supplier
Since 2005, YEEDAH has been a leading manufacturer of fire-retardant coating fabrics in China. As a vertically integrated and professional fireproof fabric supplier, we offer a wide range of materials and specifications to support your business. Customized solutions are also available to meet your specific needs.
YEEDAH: Your Trusted Source for Flame Retardant Fabrics
These fabrics offer excellent flame resistance, heat insulation, and durability, making them ideal for use in industries such as construction, automotive, aerospace, and industrial equipment manufacturing. As a leading manufacturer, YEEDAH excels in producing fireproof fabrics tailored to diverse industry needs.
Whether you require pads, fabrics, or rubber sheets, our extensive selection caters to every specific application, promising exceptional flame retardant performance.
Choose YEEDAH as your trusted partner for flame retardant fabrics . Trust in our profound manufacturing expertise to deliver solutions that meet and exceed your fireproof and insulation application demands. Connect with us today to enhance your projects with our specialized, high-quality coating fabric.
Thickness | Coating | Decription | Spec | Base Fabric Model | Basic fabric Thickness (mm) | Total weight (G/M2) | Sqm/ Roll | Weight(KG) | Diameter of roll (cm) | Basic fabric weight (g) | Coating weight (g) | Width available (m) |
---|---|---|---|---|---|---|---|---|---|---|---|---|
0.4mm | Double sides | Silicone coated fabric | 1.0mx0.4mmx50m | 3732 | 0.38 | 700 | 50/60 | 35 | 20cm | 420 | 280 | 1.0/1.2 |
0.5mm | One side | Silicone coated fabric | 1.0mx0.5mmx50m | 3732 | 0.38 | 840 | 50/60 | 42 | 22 | 420 | 420 | 1.0/1.2 |
0.6mm | One side | Silicone coated fabric | 1.0mx0.6mmx50m | 3732 | 0.38 | 940 | 50/60 | 47 | 25 | 420 | 520 | 1.0/1.2 |
0.85mm | One side | Silicone coated fabric | 1.0mx0.85mmx50m | 3786 | 0.8 | 1500 | 50/60 | 75 | 30 | 1050 | 450 | 1.0/1.2 |
1.0mm | One side | Silicone coated fabric | 1.0mx1.0mmx50m | 3786 | 0.8 | 1700 | 50/60 | 85 | 30 | 1050 | 650 | 1.0/1.2 |
1.2mm | One side | Silicone coated fabric | 1.0mx1.2mmx50m | Plain wire cloth(C-glass) | 0.9 | 2000 | 50/62.5 | 100 | 35 | 1100 | 900 | 1.0/1.2/1.25 |
1.2mm | One side | Silicone coated fabric | 1.0mx1.2mmx50m | 3786-1050 | 0.8 | 2000 | 50/62.5 | 100 | 35 | 1050 | 950 | 1.0/1.2 |
1.2mm | One side | Silicone coated fabric | 1.0mx1.2mmx50m | 3786-1250 | 0.9 | 2000 | 50/60 | 100 | 35 | 1250 | 750 | 1.0/1.2 |
1.5mm | One side | Silicone coated fabric | 1.0mx1.5mmx50m | 3786-1250 | 0.9 | 2750 | 50/60 | 137.5 | 40 | 1250 | 1500 | 1.0/1.2 |
1.5mm | One side | Silicone coated fabric | 1.0mx1.5mmx50m | 3788 | 1.3 | 2750 | 50/60 | 137.5 | 40 | 1750 | 1000 | 1.0/1.2 |
0.75mm | Double sides | Silicone coated fabric | 1.0mx0.75mmx50m | 3732 | 0.38 | 1150 | 50/60 | 57.5 | 30 | 420 | 730 | 1.0/1.2 |
1.0mm | Double sides | Silicone coated fabric | 1.0mx1.0mmx50m | 3786 | 0.8 | 1900 | 50/60 | 95 | 35 | 1050 | 850 | 1.0/1.2 |
1.2mm | Double sides | Silicone coated fabric | 1.0mx1.2mmx50m | 3786 | 0.8 | 2100 | 50/60 | 105 | 35 | 1050 | 1050 | 1.0/1.2 |
1.3mm | Double sides | Silicone coated fabric | 1.0mx1.3mmx50m | Plain wire cloth(C-glass) | 0.9 | 2400 | 50/62.5 | 120 | 38 | 1100 | 1300 | 1.0/1.25 |
1.5mm | Double sides | Silicone coated fabric | 1.0mx1.5mmx50m | 3786-1250 | 0.9 | 2360 | 50/60 | 118 | 40 | 1250 | 1110 | 1.0/1.2 |
2.0mm | Double sides | Silicone coated fabric | 1.0mx2.0mmx50m | 3788 | 1.3 | 3300 | 50/60 | 165 | 50 | 1750 | 1550 | 1.0/1.2 |
2.5mm | Double sides | Silicone coated fabric | 1.0mx2.5mmx25m | 3788 | 1.3 | 4200 | 25 | 210 | 40 | 1750 | 2450 | 1.0/1.2 |
3.0mm | Double sides | Silicone rubber sheet | 1.0mx3.0mmx25m | 930 Plain | 0.9 | 5000 | 50/60 | 250 | 40 | 1860 | 3140 | 1.0/1.2 |
2.0mm | One side | Silicone coated textured fabric | 1.0mx2.0mmx50m | M44C | 1.5 | 3000 | 50/60 | 150 | 40 | 1500 | 1500 | 1.0/1.2 |
3.0mm | One side | Silicone coated textured fabric | 1.0mx3.0mmx25m | M64C | 2.2 | 4200 | 25 | 105 | 40 | 2180 | 2020 | 1.0/1.2 |
0.4mm | Double sides | PU coated fabric | 1.0mx0.4mmx50m | 3732 | 0.38 | 480 | 50/60 | 24 | 20 | 420 | 60 | 1.0/1.2/1.5/1.8/2 |
0.8mm | Double sides | PU coated fabric | 1.0mx0.8mmx50m | 3784 (C-glass) | 0.7 | 940 | 50/60 | 47 | 30 | 820 | 120 | 1.0/1.2 |
Custom | Custom | Silicone coated meta aramid fabric | 1.2mx1.0mmx50m | nomex | 0.3 | / | 60 | / | / | 130 | Custom | 1.2 |
Custom | Custom | Silicone coated para aramid fabric | 1.2mx1.0mmx50m | Kevlar | 0.35 | / | 60 | / | / | 200 | Custom | 1.2 |
0.45mm | Double sides | Neoprene coated fabric | 1.2mx0.45mmx50m | 3732 | 0.38 | 570 | 60 | 34.2 | 22 | 420 | 150 | 1.2 |
0.4mm | Double sides | PVC coated fabric | 2.1mx0.4mmx60m | polyester | / | 480 | 126 | 60.48 | 22 | / | / | 2.1 |
0.55mm | Double sides | PVC coated fabric | 2.06mx0.55mmx50m | polyester | / | 620 | 103 | 61.8 | 22 | / | / | 2.06 |
Liquid silicone rubber impregnated fabric
Thickness | Desription | Specs | Total weight kg | Basic fabric weight kg | Coating weight kg | Remark |
---|---|---|---|---|---|---|
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.5 | 0.42 | 0.08 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.52 | 0.42 | 0.1 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.54 | 0.42 | 0.12 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.57 | 0.42 | 0.15 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.6 | 0.42 | 0.18 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.62 | 0.42 | 0.2 | 11μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.5 | 0.42 | 0.08 | 9μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.52 | 0.42 | 0.1 | 9μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.54 | 0.42 | 0.12 | 9μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.57 | 0.42 | 0.15 | 9μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.6 | 0.42 | 0.18 | 9μm E-Glass |
0.4mm | Liquid silicone rubber impregnated fabric | 1.2mx0.4mmx100m | 0.62 | 0.42 | 0.2 | 9μm E-Glass |
0.6mm | Liquid silicone rubber impregnated fabric | 1.2mx0.6mmx100m | 0.85 | 0.65 | 0.2 | 9μm E-Glass |
0.6mm | Liquid silicone rubber impregnated fabric | 1.2mx0.6mmx100m | 0.95 | 0.65 | 0.3 | 9μm E-Glass |
0.8mm | Liquid silicone rubber impregnated fabric | 1.2mx0.8mmx100m | 1.04 | 0.84 | 0.2 | 9μm E-Glass |
0.8mm | Liquid silicone rubber impregnated fabric | 1.2mx0.8mmx100m | 1.14 | 0.84 | 0.3 | 9μm E-Glass |
Package Solution For Option
YEEDAH Fabric Workshop
All You Need to Know About Fireproof Fabrics
Fireproof fabric isn’t just your average material. It’s specifically engineered to resist ignition and slow down the spread of flames. If you’re involved in industries like construction, oil and gas, or hospitality, understanding the different fabric types and their uses is crucial for safeguarding lives and property.
This guide provides information about fireproof fabrics, we’ll take a closer look at the fabric types, how they’re made, knowing what to consider when buying them, as well as identifying various classifications of fire retardant fabrics.
What Is Fireproof Fabric?
Fireproof cloth, also known as flame-retardant fabric, is designed with special materials that resist combustion. Often made from materials like fiberglass, aramid fibers (think Kevlar), and treated cotton, fireproof cloth doesn’t just melt or ignite when exposed to high temperatures. Instead, it creates a barrier between the heat and the object or person it’s protecting.
While some fire-resistant fabrics are naturally resistant to flames, many undergo chemical treatments that enhance their protective properties. This allows them to withstand heat, spark, and flame exposure for extended periods.
How Does Flame Retardant Fabric Work?
Flame retardant fabrics don’t extinguish flames; they resist burning and help contain the spread of fire. These fabrics work by interrupting the chemical reactions that support combustion. Essentially, they release flame-inhibiting gases when exposed to high heat, lowering the temperature of the fabric and cutting off the oxygen supply needed to fuel the fire.
Key Benefits of Fire Retardant Fabric
Types of Fire Retardant Fabric: A Look at Different Materials
Now that we know how fire retardant fabrics work, let’s talk about the various fabric types that offer fire resistance. Not all fire retardant fabrics are made the same, and each type serves specific purposes depending on the industry or application.
1. Inherently Fire Retardant Fabric
These fabrics are made from fibers that are naturally resistant to fire. The fire retardant properties are built into the chemical structure of the fabric itself. This means that the protection lasts for the fabric’s lifetime—no matter how many times it’s washed or cleaned.
Common Inherently Fire Retardant Fabrics
Meta-Aramids (Nomex®): Extremely durable and heat resistant, commonly used in firefighting gear, military uniforms, and industrial safety wear.
Modacrylic: Known for its softness and comfort, this fabric type is often used in corporate uniforms, workwear, and even upholstery.
Kevlar®: Another aramid fiber that’s known for its strength and heat resistance, used primarily in industrial safety garments, such as gloves and helmets.
2. Treated Fire Retardant Fabric
Unlike inherently fire retardant fabrics, treated fabrics are made from materials like cotton or polyester, which undergo a chemical treatment process to give them flame-resistant properties. The treatment is usually applied as a coating or impregnated into the fibers.
Common Treated Fire Retardant Fabrics
Treated Cotton: A popular choice in industries where comfort is key, such as oil and gas or electrical utilities. The treatment, however, can wear off over time or with repeated washing.
Treated Polyester: Polyester fabric is chemically treated to resist flames. This type is widely used in curtains, furniture, and theatrical drapery, making it ideal for public spaces like theaters, hotels, and hospitals.
Fire retardant canvas cloth: Canvas is a heavy-duty fabric often used in industrial applications. When treated with fire retardant chemicals, canvas becomes resistant to flames and is widely used in tents, awnings, and tarps. Treated canvas is especially popular in camping gear and military applications, where fire safety is a concern in outdoor settings.
Silicone Coated Fiberglass Fabric: Silicone-coated fiberglass fabric is widely used for its excellent fire retardant properties, durability, and resistance to extreme temperatures. The fiberglass core offers inherent heat and flame resistance, while the silicone coating enhances its protection, making it resistant to moisture, chemicals, and high temperatures.
This type of fabric is frequently used in:
- Welding blankets
- Fire curtains
- Thermal insulation covers
- Flexible connectors
It is highly suitable for environments where exposure to extreme heat or flame is a constant risk.
Neoprene Coated Fiberglass Fabric: Neoprene-coated fiberglass fabric combines the fire resistance of fiberglass with the flexibility and chemical resistance of neoprene. This combination results in a fabric that is not only flame-retardant but also resistant to oils, chemicals, and weathering.
This type of fabric is frequently used in:
- Fire-resistant barriers
- Gaskets and seals
- Expansion joints
- High-temperature ventilation ducting
Neoprene coating also enhances the fabric’s abrasion resistance, making it ideal for rugged industrial applications.
PU (Polyurethane) Coated Fabric: Polyurethane-coated fabrics are popular for their lightweight yet durable nature. While PU itself is not fire retardant, when applied to flame-resistant base fabrics such as fiberglass or treated cotton, it can offer enhanced fire protection alongside additional water resistance and flexibility.
PU-coated fire retardant fabrics are commonly used in:
- Protective clothing (for industrial and military use)
- Tents and shelters
- Tarpaulins
- Upholstery
PU-coated fabrics are particularly valued for their versatility, providing flame resistance as well as water and abrasion resistance in a wide range of applications.
These treated fire retardant fabrics offer varying degrees of flame resistance depending on their applications. Providing fire resistance and additional durability, chemical protection, and flexibility. Making them suitable for high-risk environments, are essential in industries where fire hazards are a significant risk.
Why Use Fire Retardant Fabric?
Saving Lives and Reducing Risk. Fire retardant fabrics are designed not only to protect individuals from immediate danger but also to limit property damage and reduce financial loss in the event of a fire.
When it happens, having fireproof materials can make all the difference between a minor incident and a major disaster. Fireproof cloth can buy critical time, allowing people to evacuate and reducing the severity of damage. Whether it’s used in industrial settings, homes, or even transportation systems, this fabric is a literal lifesaver.
Common Industries Use Fire Retardant Fabric
# 1. Industrial Insulation
- Insulation Blankets: Used to insulate pipes, tanks, and equipment in high-temperature environments.
- Heat Shields: Employed as protective covers for machinery and equipment to prevent heat loss and protect against flames.
- Welding Curtain: Used to protect surrounding areas from sparks and heat during welding, to prevent ignition from sparks and heat. Such as welding blanket.
# 2. Protective Clothing
- Fire-Resistant Gear: Used in the production of protective clothing for workers in high-heat environments, such as welders and firefighters.
- Aprons and Gloves: Commonly found in industries involving molten metals or hot surfaces.
# 3. Automotive Industry
- Hood Liners and Underbody Coatings: Used for thermal insulation and protection against heat in automotive applications.
- Gaskets and Seals: Employed in automotive components to provide heat resistance and durability.
# 4. Aerospace
- Insulation Materials: Used in aircraft for thermal protection and insulation in high-heat areas.
- Protective Covers: Employed to shield sensitive equipment from extreme temperatures.
# 5. Marine Applications
- Sail Covers and Tents: Used in boat covers and other marine equipment due to its water resistance and durability.
- Protective Tarps: Commonly utilized for covering equipment and protecting surfaces from the elements.
# 6. Construction
- Fireproofing Materials: Used as protective wraps for pipes and cables to enhance fire resistance.
- Thermal Barriers: Employed in building applications to provide insulation against heat.
# 7. Electrical Insulation
- Cable and Wire Insulation: Used as protective jackets for cables and wires in high-temperature electrical applications.
- Insulation Sleeves: Employed to protect sensitive electrical components from heat and environmental damage.
# 8. Food Industry
- Baking Mats: Used in commercial kitchens and bakeries for their non-stick and heat-resistant properties.
- Conveyor Belts: Employed in food processing applications where heat resistance and safety are crucial.
# 9. HVAC Systems
- Duct Insulation: Used in heating, ventilation, and air conditioning systems to insulate ducts and prevent heat loss.
- Flexible Ducting: Employed in air handling systems for its heat resistance and flexibility.
# 10. Manufacturing and Processing
- Industrial Fabrics: Used in manufacturing processes that require high-temperature resistance and durability, such as laminating and curing, expansion joints.
- Flexible Duct Connectors: Used to make fabric connectors and flexible duct connectors for ventilation ductwork systems.
# 11. Fire Fighting Industry
- Fire Blanket: Designed to smother small fires by depriving them of oxygen. They are often used for personal protection and in kitchens or workshops.
- Smoke Barriers: Used to prevent the spread of smoke and toxic gases in the event of a fire. They are crucial for maintaining safe egress routes and protecting areas within a building.
The Environmental Impact of Fire Retardant Fabric
You might be wondering, “Is fire retardant fabric safe for the environment?” While treated fabrics often contain chemicals, advancements in fabric technology have led to the development of more eco-friendly options. Many manufacturers are now offering fire retardant fabrics that minimize environmental impact without compromising safety.
How to Choose the Right Fire Retardant Fabric for Your Needs
How do you choose the right one for your application? The choice depends on a few factors, including the environment you’re working in, the level of protection required, and even comfort. Let’s break it down.
1. Understand the Regulations
- Familiarize yourself with local fire safety regulations and standards applicable to your industry. Different industries may have specific requirements (e.g., NFPA, ASTM, ISO).
2. Identify the Application
- Determine how the fabric will be used (e.g., protective clothing, building materials, upholstery) as this influences the type of fire retardant fabric required.
3. Assess Flame Resistance Ratings
Look for fabrics with appropriate flame resistance ratings. Common standards include:
- NFPA 701: For textiles in interior applications.
- ISO9001:2015: For quality characteristics.
- UL94: For building and welding
4. Durability and Maintenance
- Evaluate the fabric’s durability, especially if it will be subjected to wear and tear. Some fabrics may require special care or maintenance.
5. Temperature Resistance
- Ensure the fabric can withstand the temperatures it will be exposed to in its application. This is crucial for protective clothing and insulation materials.
6. Testing and Certification
- Ensure the fabric has been tested and certified by a reputable laboratory. Request test reports or certificates to verify compliance with fire safety standards.
7. Cost and Supplier Reliability
- Compare prices, but also consider the reputation of the supplier. Reliable suppliers should provide documentation and support for their products.
Fire Retardant Fabric is a Lifesaver
In a world where fire hazards are a constant concern, fire retardant fabric serves as a critical line of defense. From industrial workers and first responders to everyday items in public spaces, these fabrics help protect lives and property by resisting flames and delaying fire spread. Understanding the different fabric types and their applications is key to choosing the right material for your needs—whether it’s Nomex® suits for firefighters, flame-resistant curtains for hotels, or treated cotton uniforms for factory workers.
Don’t Skimp on Quality
It’s tempting to cut corners on cost, but with fireproof cloth, you truly get what you pay for. Investing in high-quality materials can save you from greater financial and personal losses down the road. Prioritize fabrics that meet international safety standards like ISO or UL94 certifications.
Fireproof Cloth Is a Must-Have
Fireproof cloth is more than just fabric- it’s a vital safety tool that can protect lives, property, and livelihoods. Whether you’re looking to secure your home, workplace, or even a vehicle, fireproof cloth offers peace of mind and real-world protection in high-risk situations.
In industries where fire hazards are common, using the right fire-resistant materials isn’t optional—it’s a necessity. Fireproof fabrics are integral to the firefighting industry, offering reliable heat resistance and durability in various applications. Their use in fire blankets and smoke barriers enhances safety, protects against fire hazards, and helps in effective emergency response strategies. Fire safety starts with the right materials, and fireproof cloth is leading the charge.