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 fire-resistant applications?: Fiberglass fabric is highly effective in fire-resistant applications. It has a high melting point and does not contribute to the spread of flames. In case of fire, it helps to contain the fire and prevent its spread, providing a valuable protective barrier. Additionally, fiberglass fabric is known for its excellent thermal insulation properties, which further enhances its performance in fire-resistant applications.

Q: What is the heat resistance of fiberglass fabric?: The heat resistance of fiberglass fabric is quite high. It can withstand temperatures up to 1000 degrees Fahrenheit (537 degrees Celsius) without any significant damage or degradation. This makes it an excellent choice for applications that involve exposure to intense heat, such as welding blankets, insulation materials, and fire-resistant clothing. Additionally, fiberglass fabric has a low thermal conductivity, meaning it does not conduct heat well, providing an added layer of protection in high-temperature environments.

Q: Can fiberglass fabrics be used for insulation in HVAC ductwork?: Indeed, insulation in HVAC ductwork can be achieved by employing fiberglass fabrics. The utilization of fiberglass fabrics in HVAC ductwork insulation is widespread, owing to their remarkable thermal attributes and fire resistance. By enveloping the ductwork with a layer of insulation, these fabrics facilitate the reduction of heat transfer and the prevention of energy loss. Furthermore, fiberglass fabrics boast a seamless installation process and the ability to be tailored precisely to meet the unique demands of the ductwork. Moreover, their durability and resistance to moisture render them appropriate for application in both residential and commercial HVAC systems.

Q: What is the typical lifespan of fiberglass fabrics?: The typical lifespan of fiberglass fabrics can vary depending on several factors such as the quality of the fabric, the environment it is used in, and the level of maintenance and care provided. Generally, fiberglass fabrics are known for their durability and longevity, and they can last anywhere from 10 to 30 years or even longer with proper care. Fiberglass fabrics are commonly used in applications such as insulation, construction, and the manufacturing of boats, automobiles, and aircraft. In these industries, the fabrics are often exposed to harsh conditions, extreme temperatures, and chemical exposure. Despite these challenges, fiberglass fabrics can maintain their structural integrity and performance for a significant amount of time. However, it is important to note that certain factors can affect the lifespan of fiberglass fabrics. Over time, exposure to UV radiation can cause the fabric to degrade and lose its strength. Additionally, improper handling, excessive abrasion, and lack of maintenance can also shorten the lifespan of fiberglass fabrics. To maximize the lifespan of fiberglass fabrics, regular inspections, cleaning, and maintenance are recommended. This includes keeping the fabric clean, avoiding excessive abrasion or impact, and promptly repairing any damages or tears. Additionally, applying protective coatings or treatments can provide an extra layer of protection against UV radiation and chemical exposure. In conclusion, the typical lifespan of fiberglass fabrics can range from 10 to 30 years or longer, depending on various factors. With proper care and maintenance, fiberglass fabrics can offer durability and performance for a significant amount of time, making them a reliable choice for various industrial and commercial applications.

Q: What are the different widths available for fiberglass fabric?: Fiberglass fabric is available in a variety of widths to suit different applications and needs. The most common widths for fiberglass fabric range from 1 inch to 60 inches. However, it is important to note that specific widths may vary depending on the manufacturer and the intended use of the fabric. For smaller projects or detailed work, narrower widths such as 1 inch, 2 inches, or 4 inches are often used. These narrower widths are convenient for intricate repairs or reinforcing specific areas. They are also commonly used for wrapping pipes or small objects. Wider widths, such as 36 inches or 60 inches, are typically used for larger projects that require covering larger areas. These wider fabrics are commonly used for applications such as boat building, automotive repairs, or construction projects where a larger surface area needs to be reinforced. In addition to these common widths, there are also intermediate widths available, such as 6 inches, 8 inches, or 12 inches, which offer a balance between the convenience of narrower widths and the efficiency of wider widths. It is important to consider the specific requirements of your project when choosing the width of fiberglass fabric. Factors such as the size of the area to be covered, the level of reinforcement needed, and the ease of handling and application should all be taken into account. Consulting with a supplier or manufacturer can help you determine the most suitable width for your specific needs.

Q: What is the tear strength of fiberglass fabric?: The tear strength of fiberglass fabric varies depending on factors such as the thickness of the fabric, the type of weave, and the quality of the material. Generally, fiberglass fabric has a high tear strength due to the strong and resilient nature of the fiberglass fibers. It is known to be stronger than many other textile materials, including cotton, nylon, or polyester. However, it is important to note that tear strength can also be influenced by external factors such as temperature, exposure to chemicals or UV radiation, and the presence of any defects or damages in the fabric. Therefore, it is advisable to refer to the specific specifications provided by the manufacturer or conduct a tear strength test to determine the exact tear resistance of a particular fiberglass fabric.

Q: How do fiberglass fabrics perform in terms of sound absorption?: Fiberglass fabrics are known for their excellent sound absorption properties. Due to their unique composition and structure, they effectively reduce the transmission of sound waves and minimize reverberation within a space. The fibers in fiberglass fabrics are designed to trap and absorb sound energy, converting it into heat energy through frictional losses. This ability to absorb sound makes fiberglass fabrics an ideal choice for noise control and acoustic applications. They are commonly used in areas where soundproofing is crucial, such as recording studios, theaters, concert halls, and industrial facilities. Additionally, fiberglass fabrics are versatile and can be used in various forms, such as panels, curtains, or wall coverings, allowing for flexibility in design and customization. Overall, fiberglass fabrics have proven to be highly effective in enhancing sound quality and reducing unwanted noise in different environments.

Q: How is fiberglass fabric stored and transported?: Fiberglass fabric is typically stored and transported in a way that ensures its protection and preservation. Firstly, it is important to keep the fabric in a dry and temperature-controlled environment to prevent moisture absorption and mold growth. The fabric rolls are usually stored vertically, on pallets or racks, to avoid any unnecessary pressure that may lead to deformation or damage. When it comes to transportation, fiberglass fabric is typically shipped in rolls. These rolls are often packaged in protective plastic wrap or bags to shield them from dust, dirt, and potential water damage during transit. Additionally, the rolls may be placed in sturdy cardboard boxes or placed on pallets to provide further support and prevent any shifting or movement during transportation. During transit, it is crucial to handle the fabric rolls with care to avoid any unnecessary stress or impact that may lead to tears or damages. This includes securing the rolls in the transportation vehicle using straps or other securing mechanisms to prevent movement and potential damage. Overall, proper storage and transportation of fiberglass fabric involve maintaining a suitable environment and taking precautions to protect the fabric from external elements and physical stress. By following these guidelines, the integrity and quality of the fiberglass fabric can be preserved, ensuring it arrives at its destination in optimal condition.

Q: What are some popular brands of fiberglass fabric?: Popular brands such as Owens Corning, 3M, Hexcel Corporation, Saint-Gobain, and Jushi Group are well-regarded for their high-quality fiberglass fabrics. These fabrics find applications across various industries including automotive, aerospace, construction, and marine. Owens Corning, a leading manufacturer, offers a diverse range of fabric options tailored to different needs. 3M, another reputable brand, provides fiberglass fabric known for its excellent thermal resistance and durability. Hexcel Corporation, renowned for its advanced composite materials, offers highly sought-after fiberglass fabrics in the aerospace sector. Saint-Gobain, a global leader in fiberglass fabric production, offers specialty fabrics for multiple industries. The Jushi Group, one of the world's largest fiberglass producers, supplies premium fiberglass fabrics to global markets. These brands are known for their dedication to quality and innovation, making them reliable choices for fiberglass fabric requirements.

Q: How is fiberglass fabric bonded to other materials?: Various methods and adhesives can be utilized to bond fiberglass fabric to other materials. One commonly employed technique is the use of epoxy resin, which guarantees a sturdy and long-lasting bond. The procedure entails applying a layer of epoxy resin onto the surface of the material to be bonded, and subsequently placing the fiberglass fabric on top of the resin. To ensure proper adhesion and eliminate any air bubbles, pressure is applied. The epoxy resin is then left to cure, typically for several hours or overnight, resulting in a robust bond between the fiberglass fabric and the material. Another approach involves the use of adhesive films or tapes specifically designed for bonding fiberglass fabric. These adhesive films usually require the application of heat to achieve the desired bonding. The process generally involves placing the adhesive film between the fiberglass fabric and the material to be bonded, and then applying heat through a heat gun or suitable equipment. As the adhesive film melts, it establishes a bond between the fiberglass fabric and the material. In certain cases, mechanical fasteners such as screws, rivets, or staples may be employed to secure the fiberglass fabric to other materials. This particular method is often chosen when a temporary or removable bond is desired, or when additional strength and stability are necessary. It should be emphasized that the choice of bonding method may vary depending on the intended application and the materials involved. It is advisable to consult with a professional or adhere to the manufacturer's guidelines to ensure proper bonding and achieve optimal results.

Send your message to us

*Email

*TEL

*Quantity

*Unit