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 is fiberglass fabric woven?: Fiberglass fabric undergoes the process of either plain weave or leno weave to be woven. In the plain weave technique, the warp and weft yarns intersect perpendicularly, resulting in a straightforward crisscross pattern. This particular arrangement ensures a well-balanced and robust fabric structure. Conversely, the leno weave method entails intertwining neighboring warp yarns to secure the weft yarns in position. This approach yields a more breathable and adaptable fabric that offers enhanced stability. The selection between these two weaving techniques depends on the specific attributes and intended uses of the fiberglass fabric in question.

Q:What are the main characteristics and differences between CEM-3 high thermal conductivity and aluminum substrate? Which kind of board is more advantageous to make lamps and lanterns?: The thermal conductivity of CEM-3 material can reach 1.0~2.0, with high thermal conductivity and strong price advantage, and few domestic manufacturers can produce. This is a new and high technology.

Q:What material is that board on the computer main board? Is it harmful to your health?: Even if not to harm the body, but you said dust inhalation lung excess can cause silicosis, is very serious, suggest that you take protective measures to do again, with more than N95 level with masks, protective glasses, can effectively reduce the harm!

Q:How is fiberglass fabric laminated?: Fiberglass fabric is laminated using a process called resin infusion. This process involves saturating the fabric with a liquid resin, which can be epoxy, polyester, or vinyl ester resin. The resin is typically mixed with a catalyst to initiate the curing process. To laminate fiberglass fabric, the fabric is first laid out on a mold or surface. The resin is then poured or applied onto the fabric, spreading it evenly across the surface. The resin is absorbed by the fabric, impregnating it completely. This process is usually done in multiple layers to achieve the desired thickness and strength. Once the fabric is saturated with the resin, it is left to cure. The curing time depends on the type of resin used and can range from a few hours to several days. During the curing process, the resin hardens, creating a solid and durable laminate. After the curing process, the fiberglass laminate may undergo additional processes such as trimming, sanding, or polishing to achieve the final desired shape and finish. These additional steps may vary depending on the specific application or product being manufactured. Overall, the lamination of fiberglass fabric involves saturating the fabric with resin and allowing it to cure, resulting in a strong and rigid composite material that is widely used in various industries, including aerospace, automotive, construction, and marine.

Q:Is fiberglass fabric suitable for making backpacks and bags?: While fiberglass fabric can indeed be used for creating backpacks and bags, it does not rank as the most prevalent or favored material. Renowned for its robustness, endurance, and fire resistance, fiberglass fabric proves to be an excellent option for applications that necessitate these qualities. Nevertheless, it may lack the flexibility and lightweight nature commonly found in backpacks and bags fashioned from polyester or nylon, materials more frequently utilized for this purpose. Moreover, fiberglass fabric tends to be pricier and less skin-friendly. In addition, precautionary measures must be taken during manufacturing to prevent the release of loose fibers, which can cause skin and respiratory irritations. Therefore, while fiberglass fabric can be deemed suitable for certain scenarios, it may not be the most practical or comfortable choice for everyday use or individuals with specific needs or sensitivities.

Q:How does fiberglass fabric perform in fatigue strength?: Fiberglass fabric is known for its excellent fatigue strength performance. Fatigue strength refers to the ability of a material to withstand repeated loading and unloading cycles without failure. In the case of fiberglass fabric, its unique structure and composition contribute to its exceptional fatigue strength. Fiberglass is made up of fine strands of glass fibers that are woven together to form a fabric. These fibers are known for their high tensile strength, meaning they can resist pulling forces without breaking. When subjected to cyclic loading, such as repeated bending or flexing, fiberglass fabric exhibits a high resistance to fatigue. The flexibility and elasticity of the glass fibers allow the fabric to absorb and distribute stress more evenly, preventing the accumulation of localized damage that can lead to failure. Furthermore, fiberglass fabric has a relatively low coefficient of thermal expansion, which means it does not expand or contract significantly with temperature changes. This stability helps to maintain its fatigue strength performance, even under varying environmental conditions. Overall, fiberglass fabric is widely recognized for its excellent fatigue strength, making it a preferred material choice in applications where repeated loading and unloading cycles are expected, such as in the construction of composite structures, aerospace components, and sports equipment.

Q:What are the different fiberglass fabric coatings for weather resistance?: Some different fiberglass fabric coatings for weather resistance include silicone coatings, polyurethane coatings, acrylic coatings, and vinyl coatings. These coatings help to provide protection against moisture, UV rays, and other environmental elements, enhancing the durability and longevity of fiberglass fabric in various weather conditions.

Q:Can fiberglass fabric be used for making curtains or dividers?: Fiberglass fabric is capable of being utilized in the creation of curtains or dividers. Its reputation lies in its durability, strength, and fire resistance, rendering it an appropriate material for these purposes. Additionally, it possesses a lightweight and flexible nature, facilitating effortless manipulation and installation. Furthermore, fiberglass fabric boasts easy cleaning and maintenance, making it a practical selection for curtains or dividers across diverse settings, including homes, offices, and industrial spaces.

Q:Can fiberglass fabric be used for insulation in oil and gas facilities?: Yes, fiberglass fabric can be used for insulation in oil and gas facilities. It is a commonly used material due to its excellent thermal insulation properties, resistance to high temperatures, and durability in harsh environments. Additionally, fiberglass fabric is non-combustible and can help prevent heat transfer, making it suitable for insulating pipes, tanks, and equipment in oil and gas facilities.

Q:How does fiberglass fabric handle moisture and humidity?: Fiberglass fabric is highly resistant to moisture and humidity due to its inherent properties. Unlike natural fibers such as cotton or wool, fiberglass is hydrophobic, meaning it repels water and does not readily absorb moisture. This feature allows the fabric to resist mold and mildew growth, making it suitable for use in humid environments. Furthermore, fiberglass fabric does not retain moisture, which prevents it from becoming heavy or sagging when exposed to water or high humidity. This characteristic is especially beneficial in applications where the fabric needs to maintain its strength and shape despite moisture exposure. Additionally, fiberglass fabric is known for its dimensional stability, meaning it does not significantly expand or contract when subjected to changes in humidity levels. This stability ensures that the fabric retains its original shape and size under varying moisture conditions, making it a reliable choice for applications that require consistent performance. Overall, fiberglass fabric's resistance to moisture and humidity makes it a durable and reliable material for a wide range of applications, including boat covers, outdoor furniture, and industrial insulation.

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