Coated Fiberglass Fabric E-Glass Reinforced Fiberglass Cloth for Surfboard

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Quick Details

Brand Name: Joen
Model Number: ESP300
Width: 1-2m (customized)
Yarn Type: E-Glass
Alkali Content: Alkali Free
Standing Temperature: 550℃(1000℉)
Weave: Plain/Twill

Packaging & Delivery

Packaging Details:	plastic bag + carton
Delivery Detail:	30 days

Specifications

E glass reinforced fiberglass cloth for surfboard is made of high strength fiberglass yarn, with plain/twill weaving style.

E glass reinforced fiberglass cloth for surfboard is made of high strength E glass fiberglass yarn, with plain or twill weaving style. It can be compatible with polyester, epoxy and vinylester resins, and is widely used in aircraft and spaceflight industry, ship industry, chemical industry, medical industry, military industry and sports goods, etc. It can be used to produce golf pole, surfboard, sailboard, boat hull, FRP tank, swimming pools, car bodies, FRP pipe as well as other FRP products.

Item	Warp* Weft	Warp Yarn	Weft Yarn	Thickness	Weight	Weave
	Density	(tex)	(tex)	(mm)	(g/m2)
	(ends/cm)
ESP100	16*15	EC9-33*1Z40	EC9-33*1Z40	0.09	100	Plain
ESP135	10*10	EC9-33*2Z40	EC9-33*2Z40	0.12	134	Plain
ESP160	12*10	EC9-33*2Z40	EC9-33*2Z40	0.13	150	Plain
ESP200A	8*7	EC9-33*4Z40	EC9-33*4Z40	0.18	198	Plain/Twill
ESP200B	16*13	EC9-33*2Z40	EC9-33*2Z40	0.18	198	Plain
ESP300	8*7	EC9-33*6Z40	EC9-33*6Z40	0.28	300	Plain/Twill
ESP320	8*8	EC9-33*6Z40	EC9-33*6Z40	0.3	320	Plain/Twill
ESP340	9*8	EC9-33*6Z40	EC9-33*6Z40	0.32	340	Plain/Twill
ESP360	10*8	EC9-33*6Z40	EC9-33*6Z40	0.34	360	Plain/Twill
ESP400	8*7	EC9-33*8Z40	EC9-33*8Z40	0.38	400	Plain/Twill
ESP430	8*8	EC9-33*8Z40	EC9-33*8Z40	0.4	430	Plain/Twill

Q: How is fiberglass fabric used in the packaging industry?: Fiberglass fabric is widely used in the packaging industry for various purposes. It is known for its strength, durability, and heat resistance properties, making it an ideal material for packaging applications. One of the primary uses of fiberglass fabric in the packaging industry is as a reinforcement material. It is often used to reinforce cardboard boxes, crates, and other packaging materials to increase their load-bearing capacity. By adding a layer of fiberglass fabric, the packaging becomes more robust and can withstand heavier loads without getting damaged. Fiberglass fabric is also commonly used as a protective lining or wrapping material. It can be used to line the inside of packaging containers, such as drums or barrels, to provide an additional layer of protection. This helps to prevent any leakage or damage to the contents during transportation or storage. Furthermore, fiberglass fabric is utilized for insulation purposes in the packaging industry. It is commonly used to insulate packaging materials that need to maintain a specific temperature, such as cold chain packaging for perishable goods or thermal insulation for sensitive electronics. The heat resistance property of fiberglass fabric helps in maintaining the desired temperature inside the packaging, ensuring the safety and quality of the products. Additionally, fiberglass fabric is also used as a barrier material in the packaging industry. It can be used to create a moisture or vapor barrier by laminating it with other materials. This helps to protect the packaged goods from moisture, humidity, or other external factors that could potentially damage them. In summary, fiberglass fabric is extensively used in the packaging industry for reinforcement, protective lining, insulation, and barrier purposes. Its strength, durability, heat resistance, and insulating properties make it an excellent choice for various packaging applications, ensuring the safety and integrity of the packaged goods.

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Q: Can fiberglass fabric be used for making backpacking or camping gear?: Yes, fiberglass fabric can be used for making backpacking or camping gear. Fiberglass is a strong and durable material that is resistant to tears and abrasions, making it suitable for outdoor activities. It is also lightweight, which is essential for backpacking where every ounce matters. Moreover, fiberglass fabric has excellent insulation properties, providing warmth when used in sleeping bags or blankets. Additionally, fiberglass is water-resistant, making it suitable for use in tents or shelters to protect against rain or moisture. Overall, fiberglass fabric is a versatile material that can be used in various camping and backpacking gear to enhance durability, insulation, and protection.

Q: How is fiberglass fabric used in the electrical industry?: Fiberglass fabric is widely used in the electrical industry for various applications due to its exceptional electrical insulation properties. One of the primary uses of fiberglass fabric in this industry is for the insulation of electrical wires and cables. The fabric is often impregnated with a resin or varnish to enhance its insulation capabilities and protect the wires from external elements. Moreover, fiberglass fabric is also employed in the manufacturing of electrical insulation boards and panels. These boards are used to insulate electrical equipment and components such as transformers, circuit breakers, and switchgear. The fabric is typically layered with epoxy or other insulating materials to create a robust and durable insulation system. Another important application of fiberglass fabric in the electrical industry is in the production of electrical insulation tapes. These tapes are used for wrapping and securing electrical connections, providing an additional layer of insulation and protection. Fiberglass fabric tapes are highly resistant to heat and can withstand high temperatures, making them suitable for use in electrical applications. Additionally, fiberglass fabric is utilized in the construction of electrical insulation blankets and covers. These blankets are used to cover electrical equipment such as motors, generators, and transformers to provide an extra layer of insulation and protect against moisture, dust, and other contaminants. Overall, fiberglass fabric plays a crucial role in the electrical industry by providing reliable and effective electrical insulation solutions. Its high dielectric strength, resistance to heat, and durability make it an ideal choice for various electrical applications, ensuring the safe and efficient functioning of electrical systems.

Q: Is fiberglass fabric suitable for making car covers?: Yes, fiberglass fabric is suitable for making car covers. Fiberglass fabric is a popular choice for car covers because it offers several advantages. Firstly, fiberglass fabric is highly durable and can withstand harsh weather conditions, including rain, snow, and UV rays from the sun. This ensures that the car remains protected and prevents any damage to the paint or interior. Additionally, fiberglass fabric is lightweight and easy to handle, making it convenient for covering and uncovering the car. It is also resistant to mildew and mold, which is crucial for maintaining the car's cleanliness and preventing any unwanted odors. Furthermore, fiberglass fabric is breathable, allowing moisture to escape and preventing the formation of condensation on the car's surface. Overall, fiberglass fabric is a reliable and effective choice for making car covers, providing excellent protection and ensuring the longevity of the vehicle.

Q: Can fiberglass fabrics be used for reinforcement in 3D-printed objects?: Yes, fiberglass fabrics can be used for reinforcement in 3D-printed objects. The fiberglass fabric can be embedded in the printing material to enhance the strength and durability of the finished object.

Q: Can fiberglass fabric be used for insulation in cryogenic systems?: Yes, fiberglass fabric can be used for insulation in cryogenic systems. Fiberglass fabric is a commonly used material for insulation due to its excellent thermal properties and low thermal conductivity. It can effectively reduce heat transfer and maintain low temperatures in cryogenic systems. Additionally, fiberglass fabric is also resistant to extreme temperatures and does not degrade or lose its insulation properties in cryogenic conditions. Therefore, it is a suitable choice for insulating cryogenic systems and ensuring the efficient and safe operation of such systems.

Q: Can fiberglass fabric be used for reinforcement in plastic tanks?: Indeed, the utilization of fiberglass fabric is suitable for enhancing the reinforcement of plastic tanks. Renowned for its exceptional strength and durability, fiberglass fabric proves to be an optimal material for fortifying various structures, plastic tanks included. When it comes to the manufacturing process, this fabric can either be applied to the tank's surface or employed as a retrofit solution for preexisting tanks that require additional reinforcement. By integrating fiberglass fabric, the structural stability and ability to withstand external forces, such as pressure or impacts, are heightened, ensuring the tank remains resilient and maintains its shape over time. Notably, the corrosion resistance of fiberglass fabric is particularly advantageous for tanks storing corrosive substances. In conclusion, fiberglass fabric emerges as a reliable and cost-effective option for reinforcing plastic tanks.

Q: How long does fiberglass fabric typically last?: Fiberglass fabric is known for its durability and longevity, making it a popular choice for various applications. The lifespan of fiberglass fabric can vary depending on several factors, such as the quality of the fabric, its exposure to external conditions, and how well it is maintained. On average, fiberglass fabric can last anywhere from 10 to 30 years. However, with proper care and maintenance, it is possible for it to last even longer. Regular cleaning, preventing excessive exposure to harsh chemicals or extreme temperatures, and avoiding physical damage can significantly prolong the lifespan of fiberglass fabric. It is important to note that fiberglass fabric can become brittle and lose its structural integrity over time, especially if exposed to continuous high temperatures or harsh environmental conditions. Additionally, natural wear and tear can also contribute to its eventual deterioration. To ensure the longest possible lifespan for fiberglass fabric, it is advisable to follow the manufacturer's guidelines regarding maintenance and care. Regular inspections for signs of damage or wear, and prompt repairs or replacements when necessary, can help extend the life of fiberglass fabric.

Q: How does fiberglass fabric perform in high-vibration environments?: Fiberglass fabric performs exceptionally well in high-vibration environments. Its inherent strength and durability make it resistant to the effects of vibrations, reducing the risk of damage or failure. Additionally, its flexibility allows it to absorb and dissipate vibrations, thereby minimizing the transmission of vibrations to surrounding structures. Overall, fiberglass fabric is an excellent choice for applications where high vibrations are present.

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