Coated Fiberglass Fabric E-Glass Reinforced Fiberglass Cloth for Surfboard

Ref Price:

Loading Port:: China Main Port

Payment Terms:: TT OR LC

Min Order Qty:: -

Supply Capability:: -

Inquire Now

Add to My Favorites

OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

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 does fiberglass fabric perform in terms of moisture absorption?: Fiberglass fabric is known for its excellent resistance to moisture absorption. Due to its non-porous and hydrophobic nature, fiberglass fabric does not readily absorb water or moisture. This property makes it highly suitable for applications where exposure to moisture or humidity is a concern. Additionally, the low moisture absorption of fiberglass fabric helps to maintain its structural integrity and dimensional stability, even in environments with high levels of moisture. Overall, fiberglass fabric performs exceptionally well in terms of moisture absorption, making it a reliable choice for various industries and applications.

Q:Are fiberglass fabrics suitable for use in the automotive industry?: Yes, fiberglass fabrics are suitable for use in the automotive industry. They are lightweight, strong, and durable, making them ideal for various applications such as reinforcing body panels, manufacturing interior trim components, and creating structural supports. Fiberglass fabrics also offer resistance to heat, chemicals, and corrosion, making them a reliable choice for automotive applications.

Q:How does fiberglass fabric compare to other types of fabrics?: Distinguishing itself from other fabric types, fiberglass fabric boasts several distinct characteristics. Firstly, its incredible strength and durability render it ideal for situations where robustness is paramount, such as in industrial settings or outdoor equipment. Withstanding heavy loads and stress without tearing or stretching, it exhibits a commendable tensile strength. Secondly, fiberglass fabric exhibits remarkable resistance to heat and fire. Possessing a high melting point and a propensity to resist catching fire, it stands as a suitable option for applications concerned with fire safety, such as insulation materials or protective clothing. Moreover, fiberglass fabric showcases resistance to chemicals and corrosion. Unreactive towards most chemicals, acids, or alkalis, it finds suitability in environments frequently exposed to corrosive substances, such as chemical plants or laboratories. Furthermore, fiberglass fabric offers the advantage of being lightweight and flexible. Despite its strength, it remains non-bulky and easy to handle. This flexibility enables its application in various scenarios that require a certain degree of flexibility, including the construction of curved surfaces or the manufacturing of composite materials. Nevertheless, fiberglass fabric does have some drawbacks. It lacks the comfort and softness of other fabric types, diminishing its appeal in certain applications like clothing or upholstery. Additionally, it tends to be more costly than certain alternative fabric options. Overall, fiberglass fabric emerges as an exceptionally versatile material, embodying exceptional strength, durability, heat resistance, chemical resistance, and flexibility. While it may not be universally suitable, it represents an excellent choice for those seeking its unique properties.

Q:What are the different fiberglass fabric finishes for UV resistance?: There are several different fiberglass fabric finishes available for UV resistance. These finishes are applied to the surface of the fabric to protect it from the damaging effects of ultraviolet (UV) radiation. Some common fiberglass fabric finishes for UV resistance include: 1. Silicone Coating: This finish provides excellent UV resistance and is often used in applications where high flexibility and heat resistance are required. Silicone-coated fiberglass fabrics are commonly used in industries such as aerospace, automotive, and construction. 2. Acrylic Coating: Acrylic-coated fiberglass fabrics offer good UV resistance and are known for their durability and resistance to abrasion. These finishes are often used in outdoor applications, such as awnings, canopies, and outdoor furniture. 3. PTFE Coating: Polytetrafluoroethylene (PTFE) coatings provide exceptional UV resistance and are known for their non-stick properties. PTFE-coated fiberglass fabrics are commonly used in applications where low friction, high heat resistance, and UV protection are required, such as conveyor belts, release sheets, and insulation covers. 4. PVC Coating: Polyvinyl chloride (PVC) coatings offer good UV resistance and are commonly used in applications where waterproofing and UV protection are required. PVC-coated fiberglass fabrics are often used in outdoor covers, tents, and tarps. 5. Polyurethane Coating: Polyurethane (PU) coatings provide good UV resistance and are known for their flexibility and resistance to chemicals. PU-coated fiberglass fabrics are often used in applications where flexibility, UV protection, and resistance to oils and solvents are required, such as flexible ducting, protective clothing, and inflatable structures. It is important to note that the choice of fiberglass fabric finish for UV resistance depends on the specific requirements of the application. It is recommended to consult with a knowledgeable supplier or manufacturer to determine the most suitable finish for a particular application.

Q:How is fiberglass fabric used in the insulation industry?: Fiberglass fabric is extensively used in the insulation industry due to its excellent thermal and acoustic insulation properties. It is commonly used as an insulating material in various applications such as residential and commercial buildings, automotive, aerospace, and industrial equipment. One of the primary uses of fiberglass fabric in insulation is in the construction industry. It is often installed in walls, floors, and ceilings to reduce heat transfer, thus improving energy efficiency and reducing heating and cooling costs. The fabric acts as a barrier, preventing the flow of heat between different areas of a building. Additionally, its ability to resist moisture absorption helps to prevent mold and mildew growth, ensuring a healthier indoor environment. Fiberglass fabric is also utilized in the insulation of pipes, ducts, and HVAC systems. It helps to maintain the desired temperature and prevent heat loss or gain during the transportation of liquids or air. This ensures efficient operation and reduces energy consumption. Furthermore, fiberglass fabric is employed in the insulation of vehicles and aircraft. It helps to minimize the transfer of heat and noise from the engine or outside environment, providing a comfortable and quiet interior for passengers. Its lightweight and flexible nature make it an ideal choice for these applications, as it can be easily molded and installed in complex shapes and tight spaces. In industrial settings, fiberglass fabric is used for insulation in equipment such as boilers, furnaces, ovens, and tanks. It helps to retain heat, ensuring efficient operation and minimizing energy loss. Additionally, fiberglass fabric is fire-resistant, which is crucial for industries that deal with high temperatures and potential fire hazards. Overall, fiberglass fabric's versatility, durability, and excellent insulating properties make it a widely used material in the insulation industry. Its ability to provide thermal and acoustic insulation, resist moisture, and withstand high temperatures make it a preferred choice for various applications, contributing to energy efficiency, environmental sustainability, and improved comfort.

Q:How is fiberglass fabric used in the electrical industry?: Fiberglass fabric is commonly used in the electrical industry as an insulation material for various electrical components. It is used to wrap and protect wires, cables, and other electrical devices to provide insulation and prevent electrical shocks. Additionally, fiberglass fabric is also used in the manufacturing of electrical panels and circuit boards to provide insulation and fire resistance.

Q:Can fiberglass fabric be used for insulation in renewable energy projects?: Yes, fiberglass fabric can be used for insulation in renewable energy projects. Fiberglass fabric is commonly used for thermal insulation in various applications, including renewable energy projects. Its high thermal resistance and excellent insulating properties make it suitable for insulating components such as pipes, ducts, and equipment in solar, wind, geothermal, and other renewable energy systems. Fiberglass fabric is known for its low thermal conductivity, meaning it can effectively prevent heat transfer. This is crucial in renewable energy projects, where minimizing heat loss or gain is essential for optimal system performance and energy efficiency. By using fiberglass fabric insulation, the energy generated from renewable sources can be effectively utilized and not wasted due to inefficient insulation. Furthermore, fiberglass fabric is lightweight, flexible, and easy to handle, making it suitable for various installation requirements. It can be easily cut, shaped, and wrapped around different components, ensuring a proper fit and efficient insulation coverage. In addition to its excellent thermal properties, fiberglass fabric insulation also offers other benefits. It is non-combustible, meaning it doesn't burn or contribute to the spread of fire. This is especially important in renewable energy projects where safety is a top priority. Fiberglass fabric is also resistant to moisture, chemicals, and UV radiation, ensuring long-lasting insulation performance even in harsh environmental conditions. Overall, fiberglass fabric is a versatile and reliable choice for insulation in renewable energy projects. Its thermal resistance, ease of installation, and durability make it an ideal solution to help maximize energy efficiency and ensure the smooth operation of renewable energy systems.

Q:How to identify the warp and weft direction of glass fiber cloth?: If there is a side, the yarn parallel to the side is warp

Q:Is glass fiber cloth harmful to people?: If you stick to the skin, it is difficult to clean out, because on the one hand, the naked eye is difficult to see, on the other hand, it is fragile, easy to break in the skin, if inhaled lung damage is greater, so harmful to the human body.

Q:What are the disadvantages of using fiberglass fabric?: One disadvantage of using fiberglass fabric is that it can be brittle and prone to cracking or breaking under certain conditions. Additionally, fiberglass fabric can be quite irritating to the skin and respiratory system, requiring the use of protective gear when working with it. Furthermore, fiberglass fabric is not as flexible as other materials, making it more challenging to work with in certain applications. Finally, fiberglass fabric can be more expensive compared to alternative fabric options, making it less cost-effective for certain projects.

1. Manufacturer Overview
Location
Year Established
Annual Output Value
Main Markets
Company Certifications

2. Manufacturer Certificates
a) Certification Name
Range
Reference
Validity Period

3. Manufacturer Capability
a)Trade Capacity
Nearest Port
Export Percentage
No.of Employees in Trade Department
Language Spoken:
b)Factory Information
Factory Size:
No. of Production Lines
Contract Manufacturing
Product Price Range