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: Can fiberglass fabrics be used in high-temperature environments?: Yes, fiberglass fabrics can be used in high-temperature environments. They have excellent heat resistance properties and can withstand temperatures up to 1000°F (538°C) without losing their structural integrity. This makes them suitable for applications such as insulation, fireproofing, and thermal protection in industries like aerospace, automotive, and manufacturing.

Q: Are fiberglass fabrics resistant to solvents or cleaning agents?: Fiberglass fabrics, in general, exhibit resistance to solvents and cleaning agents. Fiberglass, a man-made material composed of delicate glass fibers, possesses remarkable chemical resistance. It maintains its structural integrity and does not deteriorate when exposed to a wide range of solvents, cleaning agents, and chemicals. For this reason, fiberglass fabrics are an optimal choice for a variety of applications requiring resistance to solvents and cleaning agents, including industrial settings, automotive components, insulation materials, and protective clothing. However, it is advisable to verify the specific chemical compatibility of the fiberglass fabric with the particular solvent or cleaning agent in question, as certain highly aggressive chemicals may still affect its performance.

Q: What are the different weights available for fiberglass fabric?: Fiberglass fabric is available in various weights, typically measured in ounces per square yard (oz/yd²) or grams per square meter (g/m²). The weight of fiberglass fabric refers to the density or thickness of the fabric, which can vary depending on the intended application and desired strength. Some common weight options for fiberglass fabric include: - 3 oz/yd² (102 g/m²): This is a lightweight option suitable for applications where flexibility and ease of use are important, such as in lightweight composite parts, surfboards, or small craft repairs. - 5 oz/yd² (170 g/m²): This is a medium weight fabric that offers a balance between flexibility and strength. It is often used in boat building, automotive parts, and general fiberglass repairs. - 8 oz/yd² (272 g/m²): This is a heavier weight fabric that provides increased strength and durability. It is commonly used in applications that require higher impact resistance, such as in the construction of industrial tanks, pipes, or structural reinforcements. - 10 oz/yd² (340 g/m²) and above: These are heavyweight options that offer maximum strength and rigidity. They are typically utilized in demanding applications such as aerospace, wind energy, or heavy-duty industrial equipment. It is important to consider the specific requirements of your project when choosing the weight of fiberglass fabric. Factors such as the level of strength needed, flexibility desired, and the type of resin or adhesive being used should be taken into account to ensure the fabric meets the necessary specifications.

Q: Can fiberglass fabric be used for filtration applications?: Yes, fiberglass fabric can be used for filtration applications. Fiberglass fabric is often used in filtration systems due to its high strength, durability, and resistance to chemicals. It can effectively remove particles, contaminants, and pollutants from air, water, and other fluids. The tight weave of fiberglass fabric allows for efficient filtration, while still maintaining good airflow. Additionally, fiberglass fabric is easy to clean and maintain, making it suitable for various filtration applications such as air filters, water filters, oil filters, and industrial filtration systems.

Q: Is fiberglass fabric suitable for use in electrical insulation tapes?: Yes, fiberglass fabric is suitable for use in electrical insulation tapes. It has excellent electrical insulation properties, high resistance to heat and fire, and good mechanical strength. Additionally, it provides good dimensional stability and chemical resistance, making it a reliable choice for electrical insulation applications.

Q: Is fiberglass fabric resistant to chemicals used in mining?: Indeed, the chemicals employed in mining pose no challenge to fiberglass fabric's remarkable resistance. Crafted with utmost precision to endure severe circumstances, this fabric boasts an exceptional capacity to withstand various chemicals. It remains impervious to the majority of acids, alkalis, solvents, and other substances frequently utilized in mining endeavors. Consequently, it emerges as the perfect material for numerous applications within the mining industry, including the lining of tanks, pipes, and equipment that face corrosive agents. Moreover, fiberglass fabric guarantees resilience and dependability in mining environments due to its resistance to high temperatures, abrasion, and wear.

Q: Can fiberglass fabrics be used for insulation in industrial boilers?: Yes, fiberglass fabrics can be used for insulation in industrial boilers. Fiberglass is a popular choice for insulation in various applications due to its excellent thermal resistance properties. It is a lightweight and flexible material that can effectively trap heat and prevent its transfer to the surrounding environment. In industrial boilers, fiberglass fabrics can be used as insulating jackets or covers to retain heat within the system, thereby improving energy efficiency and reducing heat loss. Additionally, fiberglass is non-combustible, which makes it a safe option for insulation in high-temperature environments such as industrial boilers.

Q: Glass fiber cloth can be made into handbags, requirements of high temperature 680 degrees or more: In addition, a large number of additional filler (coating) material can be no longer, and the other you sew sewing bag, you must be able to withstand high temperature material yo, if not, then cloth is good, you can pack scattered. The best in the first point in the sewing material before you try again after high temperature before sewing.

Q: What are the different types of fiberglass fabrics?: There are several different types of fiberglass fabrics available, each with its own unique characteristics and applications. Some common types include: 1. E-Glass Fabric: This is the most commonly used type of fiberglass fabric. It is known for its excellent electrical insulation properties and high tensile strength. E-glass fabric is used in a wide range of applications, including boat building, automotive parts, and aerospace components. 2. S-Glass Fabric: S-glass fabric is a higher-performance alternative to E-glass. It has a higher tensile strength and better resistance to impact, making it suitable for applications that require superior strength, such as military equipment and high-performance sports equipment. 3. C-Glass Fabric: C-glass fabric is resistant to chemical corrosion, making it ideal for use in applications where exposure to chemicals is a concern. It is commonly used in chemical plants, wastewater treatment facilities, and other industrial settings. 4. A-Glass Fabric: A-glass fabric is an alkali-resistant type of fiberglass fabric. It is commonly used in the construction industry for reinforcing cement and concrete structures, such as bridges and buildings. 5. Roving Fabric: Roving fabric consists of untwisted strands of fiberglass. It is typically used in applications that require high strength and dimensional stability, such as wind turbine blades, pipes, and pressure vessels. 6. Chopped Strand Mat (CSM): CSM is a type of fiberglass fabric made from randomly oriented chopped strands held together with a binder. It is commonly used in applications that require a smooth and uniform surface finish, such as boat hulls and automotive parts. 7. Woven Roving: Woven roving is a heavy-duty type of fiberglass fabric that consists of closely woven strands. It is known for its high strength and stiffness, making it suitable for applications that require structural reinforcement, such as boat hulls, wind turbine blades, and automotive body panels. Overall, the choice of fiberglass fabric depends on the specific requirements of the application, including strength, electrical insulation properties, chemical resistance, and surface finish.

Q: Can fiberglass fabric be used for banners and signs?: Yes, fiberglass fabric can be used for banners and signs. It is a versatile material that is lightweight, durable, and can withstand various weather conditions. Additionally, it can be printed on and easily customized to create vibrant and eye-catching designs for banners and signs.

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