Fiberglass Fabric Cloth

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Quick Details

Brand Name: Firewheel
Model Number: FG105T-1mm
Application: Blind
Weight: 800g/㎡
Width: 1-2m
Weave Type: Plain Woven
Yarn Type: E-Glass
Alkali Content: Alkali Free
Standing Temperature: 550℃/1022F
Thickness: 1mm
Weight: 800g/m2
Thread count(warp): 4.1
Thread count(fill): 4.3
Tensile strength(warp): 3000
Tensile strength(fill): 2500
Certificate: ISO9001:2000
HS.code: 701959

Packaging & Delivery

Packaging Details:	Cartons
Delivery Detail:	15~20 days

Specifications

Temp. resistance: 550C/1020F
Weight: 288g/m2~3400gm2
Thickness: 0.38mm-5mm
Width: 1m-1.5m
Roll length: 30m/50m

Q:How does fiberglass fabric compare to carbon fiber fabric?: Fiberglass fabric and carbon fiber fabric are materials that are widely used in different industries because of their exceptional strength and durability. However, there are distinct differences that set them apart. One major difference lies in their composition. Fiberglass fabric is made by weaving together fine strands of glass, while carbon fiber fabric is composed of tightly woven thin strands of carbon atoms. This fundamental dissimilarity in composition leads to variations in their mechanical properties and performance. In terms of strength, carbon fiber fabric surpasses fiberglass fabric in tensile strength. It is renowned for its stiffness and light weight, making it highly sought after for applications that require a high strength-to-weight ratio. Carbon fiber is commonly utilized in aerospace, automotive, and sports industries where lightweight yet strong materials are essential. Conversely, fiberglass fabric provides good tensile strength but is generally less robust than carbon fiber. However, fiberglass fabric is known for its excellent impact resistance and ability to withstand high temperatures better than carbon fiber. This makes it suitable for applications where heat and impact resistance are important, such as insulation, boat building, and electrical insulation. Another significant difference between these two fabrics is their cost. Carbon fiber fabric is significantly more expensive than fiberglass fabric due to the complexity and cost of the manufacturing process involved. On the other hand, fiberglass fabric is more readily available and easier to produce, making it comparatively more affordable. Furthermore, carbon fiber fabric has a distinct appearance with its black, glossy finish, while fiberglass fabric is typically white or off-white in color. This aesthetic difference can be a factor in certain applications where visual appeal is important. To sum up, fiberglass fabric and carbon fiber fabric possess unique properties and advantages. Carbon fiber fabric offers superior strength, stiffness, and lightweight characteristics, making it ideal for high-performance applications. Fiberglass fabric, on the other hand, excels in impact resistance and heat resistance, making it suitable for applications where these properties are crucial. Ultimately, the choice between these two fabrics depends on the specific requirements of the intended application, considering factors such as strength, weight, cost, and environmental conditions.

Q:What is the "three proof cloth"? How to correctly use the three proof cloth?: Three cloth is coated on the surface of PVC, PTFE refractory fiber, flame retardant silicone and other refractory materials, make fire waterproof mildew proof function, refractory fiber with fire, PVC, PTFE, silica gel has a waterproof function.

Q:Can fiberglass fabric be used for making flags and banners?: Indeed, flags and banners can be crafted using fiberglass fabric. Renowned for its endurance, robustness, and ability to withstand different weather conditions, fiberglass fabric proves to be an impeccable substance for outdoor purposes, specifically flags and banners. With its lightweight and pliable nature, it facilitates effortless handling and installation. Moreover, various printing techniques can be employed on fiberglass fabric, guaranteeing vivid and enduring colors on the flags and banners. In summary, fiberglass fabric emerges as a dependable option for producing visually captivating and long-lasting flags and banners.

Q:Is fiberglass fabric resistant to pests in agricultural settings?: Yes, fiberglass fabric is generally resistant to pests in agricultural settings. Its non-porous and smooth surface makes it difficult for pests to chew through or attach to, making it an effective barrier against common agricultural pests such as rodents, insects, and birds. Additionally, fiberglass fabric is not susceptible to rot or decay, further preventing pest infestations.

Q:What are the characteristics of glass fiber acoustic panels?: Because the biological function of rock wool is similar to that of asbestos, its harmful degree is much lower than that of asbestos, and its behavior in human body, transfer and removal are similar to asbestos, and its mechanism of carcinogenesis is similar. The production of fibrosis and carcinogenesis must be based on the accumulation of sufficient quantities of fiber in the tissues. Therefore, reducing contact is the basic countermeasure to prevent occupational hazards of asbestos substitutes. Sealed dust source: mainly producing machinery airtight.

Q:How does fiberglass fabric perform in electromagnetic shielding?: Fiberglass fabric performs fairly well in electromagnetic shielding due to its insulating properties and ability to block electromagnetic waves. However, it may not be as effective as other materials specifically designed for electromagnetic shielding, such as copper or aluminum.

Q:Are fiberglass fabrics suitable for use in the telecommunications industry?: Yes, fiberglass fabrics are suitable for use in the telecommunications industry. Fiberglass fabrics offer several advantages that make them ideal for this industry. Firstly, fiberglass fabrics are known for their high strength and durability, making them capable of withstanding harsh environmental conditions, such as extreme temperatures, moisture, and UV exposure. This durability ensures that the telecommunications equipment, such as antennas and cables, are protected and can function optimally for an extended period. Additionally, fiberglass fabrics have excellent electrical insulation properties. This is crucial in the telecommunications industry as it helps prevent interference and signal loss, ensuring the transmission of clear and reliable signals. Fiberglass fabrics also have low dielectric constant and loss tangent, which further contribute to minimizing signal attenuation. Moreover, fiberglass fabrics are lightweight and flexible, making them easy to handle and install. This is particularly beneficial in the telecommunications industry as it allows for efficient and cost-effective installation of equipment and infrastructure. Furthermore, fiberglass fabrics have excellent resistance to chemicals, corrosion, and fire, making them highly reliable and safe for use in telecommunications equipment. This resistance ensures the longevity and reliability of the equipment, reducing maintenance and replacement costs. Overall, the high strength, durability, electrical insulation properties, lightweight nature, and resistance to chemicals and fire make fiberglass fabrics highly suitable for use in the telecommunications industry. They provide the necessary protection, reliability, and performance required for efficient and effective telecommunications operations.

Q:Asphalt + glass fiber cloth: First spread a layer of asphalt oil, wrapped in glass cloth, oil cloth, and finally coated asphalt oil. Just OK

Q:How is fiberglass fabric used in the production of insulation tapes?: Due to its excellent thermal insulation properties and durability, fiberglass fabric is frequently utilized in the manufacturing of insulation tapes. Typically composed of woven glass fibers, this fabric offers a high level of heat resistance and insulation. When creating insulation tapes, a layer of adhesive material is applied to the fiberglass fabric. This adhesive layer aids in the tape's adherence to surfaces and creates a secure insulation barrier. The fiberglass fabric acts as a reinforcement for the adhesive, providing strength and stability to the tape. By incorporating fiberglass fabric into insulation tapes, effective thermal insulation can be achieved in various applications. It effectively prevents heat transfer, maintaining the desired internal temperature while safeguarding against external temperature fluctuations. Moreover, fiberglass fabric is resistant to moisture, chemicals, and UV radiation, making it suitable for both indoor and outdoor use. The versatility of fiberglass fabric also allows for insulation tapes to be widely utilized across different industries. They are commonly employed in HVAC systems, electrical installations, automotive applications, and construction projects. The fabric's strength and flexibility facilitate easy wrapping and sealing around pipes, wires, and other irregular surfaces, ensuring efficient insulation and preventing leaks or heat loss. In conclusion, fiberglass fabric plays a critical role in the production of insulation tapes by providing thermal insulation, durability, and resistance against various environmental factors. Its combination of heat resistance and adhesive properties makes it an ideal choice for insulating and protecting different surfaces, ensuring the effectiveness and longevity of insulation tapes.

Q:Can fiberglass fabric be used for insulation in aerospace applications?: Yes, fiberglass fabric can be used for insulation in aerospace applications. Fiberglass fabric is known for its excellent thermal insulation properties, making it an ideal choice for aerospace applications where temperature regulation is crucial. It is lightweight, flexible, and can withstand high temperatures, making it suitable for use in various aerospace components such as engine compartments, fuel tanks, and aircraft interiors. Additionally, fiberglass fabric is resistant to chemicals, moisture, and fire, providing an added layer of safety and protection in aerospace environments. Overall, fiberglass fabric is a reliable and widely used insulation material in aerospace applications due to its excellent thermal properties and durability.

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