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 perform in fire-resistant applications?: Fiberglass fabric is an excellent choice for fire-resistant applications due to its inherent properties. When exposed to fire, fiberglass fabric does not burn or support combustion. It has a high melting point, which allows it to retain its structural integrity even at high temperatures. Furthermore, fiberglass fabric does not release toxic gases or smoke when exposed to fire, making it a safe option for fire-resistant applications. This is particularly important in enclosed spaces, as the absence of toxic fumes can help prevent health hazards and promote safe evacuation. In addition to its fire resistance, fiberglass fabric also offers other benefits. It is lightweight and flexible, making it easy to handle and install. It is also highly durable and resistant to chemicals, moisture, and UV radiation. Overall, fiberglass fabric is an excellent choice for fire-resistant applications due to its ability to withstand high temperatures, its non-combustible nature, and its resistance to toxic fumes. It provides a reliable and safe solution for various industries where fire protection is crucial, such as construction, automotive, aerospace, and manufacturing.

Q: How does fiberglass fabric perform in electromagnetic fields?: Fiberglass fabric is known for its good performance in electromagnetic fields. This is due to its non-conductive nature, which allows it to act as an effective barrier against electromagnetic interference (EMI). When exposed to electromagnetic fields, fiberglass fabric does not absorb or conduct the electromagnetic waves. Instead, it reflects and disperses them, preventing them from penetrating through the material. This property makes fiberglass fabric an excellent choice for applications where protection against EMI is required, such as in electronic devices, communication equipment, and aerospace applications. Furthermore, fiberglass fabric also has a high dielectric strength, meaning it can withstand high voltage without breaking down or becoming conductive. This makes it suitable for applications that involve high electrical potential, such as insulation in electrical cables or transformers. In summary, fiberglass fabric performs exceptionally well in electromagnetic fields by effectively blocking and dispersing electromagnetic waves, while also providing high dielectric strength. Its non-conductive nature and ability to withstand high voltage make it a preferred choice for EMI shielding and electrical insulation applications.

Q: Is fiberglass fabric resistant to water absorption?: Yes, fiberglass fabric is resistant to water absorption. Fiberglass is made from very fine fibers of glass, which are then woven together to create a fabric. The glass fibers are naturally hydrophobic, meaning they repel water. This inherent property of fiberglass fabric makes it highly resistant to water absorption. When exposed to water, the fabric will not soak up the liquid but rather allow it to bead and roll off the surface. This characteristic makes fiberglass fabric ideal for applications where water resistance is desired, such as in manufacturing boats, shower curtains, and protective clothing. Additionally, the water resistance of fiberglass fabric contributes to its durability, as it helps prevent the growth of mold and mildew, which can compromise the fabric's integrity.

Q: Can fiberglass fabric be used for making curtains and drapes?: Yes, fiberglass fabric can be used for making curtains and drapes. It is a durable and versatile material that offers several benefits such as being fire-resistant, lightweight, and easy to maintain. Additionally, fiberglass fabric can provide insulation and light control, making it a suitable choice for curtains and drapes in various settings.

Q: Can fiberglass fabric be used for insulation in breweries?: Yes, fiberglass fabric can be used for insulation in breweries. Fiberglass fabric is known for its excellent insulation properties, as it has a low thermal conductivity and high resistance to heat transfer. This makes it an ideal material for insulating various applications, including breweries. Insulation in breweries is crucial to maintain specific temperature conditions for various processes involved in brewing, such as fermentation, mashing, and boiling. Fiberglass fabric can be used to insulate brewing vessels, pipes, and tanks, ensuring that heat is retained or prevented from entering the system, depending on the specific requirement. Fiberglass fabric is also resistant to moisture, which is essential in brewery environments where there may be high humidity levels or exposure to liquids. It does not absorb moisture, ensuring that its insulation properties are not compromised over time. Additionally, fiberglass fabric is easy to install and can be customized to fit different sizes and shapes, making it a versatile choice for insulation in breweries. It is lightweight and flexible, allowing for easy handling and installation in various areas of the brewery. Overall, fiberglass fabric is a suitable choice for insulation in breweries due to its excellent thermal insulation properties, moisture resistance, and ease of installation. It helps maintain optimal temperature conditions, improving energy efficiency and ensuring the quality of the brewing process.

Q: Can fiberglass fabric be used for reinforcement in power plant tanks?: Indeed, power plant tanks can benefit from the utilization of fiberglass fabric as reinforcement. Renowned for its robustness and longevity, fiberglass fabric finds widespread application in multiple industries, including power plants, for reinforcement purposes. This material boasts remarkable tensile strength and exceptional resistance to corrosive elements, chemicals, and extreme temperatures. Moreover, its lightweight nature and effortless manageability render it an ideal option for reinforcing power plant tanks. By bolstering the structural integrity of the tanks, fiberglass fabric not only fortifies them but also safeguards against potential leaks or breakdowns.

Q: How do fiberglass fabrics perform in terms of thermal conductivity?: Fiberglass fabrics have low thermal conductivity, meaning they are poor conductors of heat. This property allows them to insulate and retain heat effectively, making them suitable for applications where thermal insulation is required.

Q: How is fiberglass fabric used in the production of insulation papers?: Fiberglass fabric is commonly used in the production of insulation papers as it provides excellent thermal resistance and insulation properties. It is typically woven into a thin and flexible sheet, which is then combined with other materials to create insulation papers. The fiberglass fabric helps to trap air pockets, reducing heat transfer and enhancing the overall insulation effectiveness of the papers. Additionally, it adds strength and durability to the final product, making it suitable for various insulation applications.

Q: How is fiberglass fabric used in the environmental industry?: Due to its unique properties and benefits, fiberglass fabric sees widespread use in the environmental industry for a range of applications. One notable use is in air filtration systems, where the fabric's strength and durability make it an ideal material for manufacturing effective filters that can trap and remove particles, pollutants, and contaminants from the air. Additionally, fiberglass fabric finds application in the construction of wastewater treatment plants and water filtration systems. Its resistance to corrosion, non-reactivity with chemicals, and impressive tensile strength make it suitable for manufacturing pipes, tanks, and other components that are exposed to harsh chemicals or corrosive environments. It is also utilized as a reinforcement material in the construction of water tanks and reservoirs, ensuring their structural integrity and preventing leaks or damages. Furthermore, fiberglass fabric is employed in the environmental industry for the production of geotextiles, which serve various purposes such as erosion control, soil stabilization, and land reclamation. The fabric's high porosity and permeability allow water to pass through while retaining soil particles, effectively preventing erosion and maintaining soil stability. Moreover, fiberglass fabric plays a role in producing insulation materials used in the construction of environmentally friendly buildings and energy-efficient structures. Its excellent thermal insulation properties help reduce energy consumption by preventing heat transfer through walls, roofs, and other building components. In summary, fiberglass fabric is of significant importance in the environmental industry, providing solutions for air and water filtration, erosion control, insulation, and corrosion-resistant infrastructure. Its versatility, durability, and eco-friendly characteristics make it a favored choice for numerous environmental applications.

Q: Can fiberglass fabrics be used for insulation in HVAC systems?: Indeed, insulation in HVAC systems can utilize fiberglass fabrics. The preference for fiberglass as an insulation material in HVAC systems stems from its exceptional thermal characteristics. Its low thermal conductivity enables it to effectively impede heat transfer. Fiberglass fabrics are typically employed to encase air ducts, pipes, and other components in HVAC systems to prevent heat loss or gain. Aside from its thermal efficiency, fiberglass fabrics possess other advantageous properties that render them suitable for insulation purposes. They are lightweight, flexible, and simple to install, making them a convenient option for HVAC insulation. Additionally, fiberglass fabrics exhibit resistance to moisture, mold, and mildew, thus contributing to the maintenance of satisfactory indoor air quality. Moreover, fiberglass fabrics boast outstanding fire-resistant qualities. They are non-combustible and do not emit toxic gases when exposed to high temperatures. Consequently, fiberglass fabrics constitute a safe choice for insulation in HVAC systems. All in all, the utilization of fiberglass fabrics for insulation in HVAC systems proves to be highly effective due to their thermal efficiency, ease of installation, resistance to moisture, and fire safety.

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