E-glass CHopped Strand Mat Made Of Fiberglass(Powder Bonded)
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 20000 kg
- Supply Capability:
- 200000Kg Per Month kg/month
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1.Brief Introductions
E-Glass Powder Chopped Strand Mat is made of randomly distributed chopped strands held together by a powder binder.
It is compatible with UP, VE, EP, PF resins.
The roll width ranges from 50mm to 3300mm.
Additional demands on wet-out and decomposition time may be available upon request.
2.Product Features
Good wet-through and fast wet-out in resins, rapid air lease
Superior acid corrosion resistance
3.Product Specifications
Property | Area Weight | Moisture Content | Size Content | Breakage Strength | Width |
(%) | (%) | (%) | (N) | (mm) | |
Property | IS03374 | ISO3344 | ISO1887 | ISO3342 | |
EMC80P | ±7.5 | ≤0.20 | 8-12 | ≥40 | 50-3300 |
EMC100P | ≥40 | ||||
EMC120P | ≥50 | ||||
EMC150P | 4-8 | ≥50 | |||
EMC180P | ≥60 | ||||
EMC200P | ≥60 | ||||
EMC225P | ≥60 | ||||
EMC300P | 3-4 | ≥90 | |||
EMC450P | ≥120 | ||||
EMC600P | ≥150 | ||||
EMC900P | ≥200 |
Special specification can be produce according to customer requirements.
4.FAQ
Packaging:
Each Chopped Strand Mat is wound onto a paper tube which has an inside diameter of 76mm and the mat roll has a diameter of 275mm. The mat roll is wrapped up with plastic film,and then packed in a cardboard box or wrapped up with kraft paper. The rolls can be vertically or horizontally placed. For transportation, the rolls can be loaded into a cantainer directly or on pallets.
Storage:
Unless otherwise specified, Chopped Strand Mat should be stored in a dry, cool and rain-proof area. It is recommended that the room temperature and humidity should be always maintained at 15℃~35℃ and 35%~65% respectively.
- Q:Can fiberglass mat tissue be recycled?
- Indeed, recycling is a viable option for fiberglass mat tissue. Fiberglass, composed of glass fibers and resin, allows for reusing both elements. To recycle, the glass fibers and resin are separated, typically via mechanical grinding or melting techniques. The isolated fibers are subsequently employed in the production of fresh fiberglass products like insulation, roofing materials, or even new fiberglass mat tissue. The recycling of fiberglass plays a critical role in lessening the environmental impact of this material by diverting it from landfills and conserving valuable resources. It's important to acknowledge, however, that the recycling process can be intricate and costly, which means not all recycling facilities may accept fiberglass mat tissue.
- Q:Is fiberglass mat tissue resistant to oil and grease?
- Indeed, oil and grease do not affect fiberglass mat tissue due to its resistance. The structure of this tissue encompasses delicate glass fibers, tightly bound by a resin. This resin serves as a protective shield, prohibiting the penetration of oil and grease into the mat tissue, thus granting it resistance against these substances. Moreover, fiberglass possesses inherent non-reactive characteristics, amplifying its ability to withstand oil and grease. Consequently, fiberglass mat tissue proves to be an exemplary material for circumstances involving anticipated contact with oil and grease, such as industrial environments or automotive components.
- Q:Can fiberglass mat tissue be used for reinforcement in composites?
- Yes, fiberglass mat tissue can be used for reinforcement in composites. Fiberglass mat tissue is a non-woven material made up of randomly oriented glass fibers. It is commonly used as a reinforcement material in composite manufacturing processes. The mat tissue is often combined with resin to create a strong and durable composite material. The random orientation of the fibers provides multidirectional strength and reinforcement to the composite structure. Additionally, the mat tissue can be easily layered and molded into complex shapes, making it a versatile choice for various applications in industries such as automotive, aerospace, construction, and marine. Overall, fiberglass mat tissue is an effective and widely used reinforcement material in composites.
- Q:Is fiberglass mat tissue suitable for insulation in chemical processing plants?
- Indeed, fiberglass mat tissue proves to be a suitable option for insulation within chemical processing plants. Comprised of delicate glass fibers securely bonded with a binder, it possesses remarkable thermal insulation characteristics. Its capability to endure elevated temperatures and its resistance against numerous chemicals render it an ideal selection for deployment in chemical processing plants, where contact with corrosive substances or intense heat may occur. Moreover, fiberglass mat tissue is lightweight and effortlessly installed, presenting a cost-effective solution for insulation in such industrial settings.
- Q:How is fiberglass mat tissue used in the production of shower enclosures?
- Fiberglass mat tissue is commonly used in the production of shower enclosures due to its excellent properties and benefits. It is a thin and flexible material made up of fine glass fibers that are randomly distributed and bonded together with a resin binder. In the production process of shower enclosures, fiberglass mat tissue is primarily utilized as a reinforcement material. It is often applied to the surface of the enclosure structure to enhance its strength, durability, and resistance to cracking or breaking. Firstly, the fiberglass mat tissue is cut and sized to fit the specific dimensions of the shower enclosure. It is then carefully laid or applied onto the surface of the enclosure, usually through a process called hand lay-up or spray-up. The mat tissue is positioned strategically to cover all the critical areas that require reinforcement, such as corners, edges, and joints. Once the mat tissue is in place, a resin, typically polyester or epoxy, is applied over it. The resin infiltrates the fiberglass mat tissue and bonds with the fibers, creating a solid and robust composite structure. This resin-fiberglass combination provides additional strength and stability to the shower enclosure, making it more resistant to impact, stress, and environmental factors like water and humidity. Moreover, fiberglass mat tissue also contributes to the overall aesthetics of the shower enclosure. It can help create a smooth and uniform surface finish, eliminating imperfections and creating a visually appealing appearance. The mat tissue can be easily molded or shaped to match different designs and styles, enabling manufacturers to produce shower enclosures with various shapes, sizes, and patterns. In summary, fiberglass mat tissue plays a crucial role in the production of shower enclosures by providing reinforcement, strength, durability, and aesthetic benefits. It is a versatile material that enhances the overall performance and visual appeal of the enclosures, ensuring they can withstand daily use and maintain their quality over time.
- Q:How is fiberglass mat tissue used in the construction industry?
- Fiberglass mat tissue is widely used in the construction industry for various applications. This material is made up of thin strands of glass fibers that are bonded together with a resin. It offers several properties that make it suitable for construction purposes. One common use of fiberglass mat tissue is in the production of roofing materials. It is often used as a reinforcement layer in roofing shingles or sheets. The fiberglass mat tissue adds strength and durability to the roof, making it more resistant to weather elements such as wind, rain, and hail. Additionally, it helps to prevent cracking and splitting, prolonging the lifespan of the roofing material. Another application of fiberglass mat tissue in the construction industry is in the production of composite materials. It is commonly used as a reinforcement layer in composite panels and boards. The fiberglass mat tissue enhances the strength and stiffness of the composite material, making it suitable for various structural applications. It is also lightweight, which makes it an ideal choice for building materials that require both strength and reduced weight. Fiberglass mat tissue is also used in the construction of walls and ceilings. It can be applied as a layer between the gypsum board and the insulation material to provide additional strength and resistance to impacts. This helps to prevent cracks and damage to the walls or ceilings, enhancing the overall structural integrity of the building. Furthermore, fiberglass mat tissue finds application in the construction of pipes and tanks. It is used as a reinforcement layer in the manufacturing of fiberglass-reinforced plastic (FRP) pipes and tanks. The fiberglass mat tissue adds strength and rigidity to the FRP structure, making it suitable for various industrial applications, including chemical processing, wastewater treatment, and oil and gas industries. In conclusion, fiberglass mat tissue is widely used in the construction industry for its strength, durability, and lightweight properties. It is utilized in roofing materials, composite panels, walls, ceilings, pipes, and tanks, among other applications. Its versatility and performance make it a preferred choice among construction professionals for enhancing the structural integrity of various building components.
- Q:What is the maximum temperature that fiberglass mat tissue can withstand?
- The maximum temperature that fiberglass mat tissue can typically withstand is around 600-700 degrees Celsius.
- Q:How does the density of fiberglass mat tissue affect its performance?
- The performance of fiberglass mat tissue is significantly impacted by its density. Fiberglass mat tissue finds its use in various applications such as insulation, construction materials, and composite materials. The strength, durability, flexibility, and thermal insulation properties of the fiberglass mat tissue are determined by its density. A higher density fiberglass mat tissue generally offers improved strength and durability. This is because a higher density means that more fiberglass strands are densely packed together, resulting in a denser and stronger material. It can withstand higher loads and impacts, making it suitable for applications that require structural integrity, like the construction or automotive industries. Furthermore, the flexibility of fiberglass mat tissue is also influenced by its density. A lower density fiberglass mat tissue tends to be more pliable and easier to shape. It can be molded into intricate shapes and contours, making it suitable for applications where flexibility is crucial, such as boat manufacturing or automotive body parts. The density of fiberglass mat tissue also affects its thermal insulation properties. Higher density fiberglass mat tissue provides better insulation against heat transfer. It effectively prevents the transfer of heat through conduction, making it ideal for insulation purposes in buildings or piping systems. However, it is important to consider that the choice of fiberglass mat tissue density should be based on the specific requirements of the application. While higher density may offer better strength and durability, it also increases the weight and cost of the material. Therefore, a balance needs to be achieved between the desired performance characteristics and the practicality of the specific application.
- Q:Is fiberglass mat tissue suitable for insulation in laboratories?
- Yes, fiberglass mat tissue is suitable for insulation in laboratories. It offers excellent thermal insulation properties, is resistant to high temperatures, and provides effective sound insulation. Additionally, it is non-combustible and chemically inert, making it ideal for laboratory environments where safety and performance are crucial.
- Q:What is the maximum temperature resistance of fiberglass mat tissue?
- Depending on its intended use and the specific product, the maximum temperature resistance of fiberglass mat tissue can differ. Nevertheless, fiberglass mat tissue is widely recognized for its exceptional thermal resistance properties. Typically, it can endure temperatures ranging from 400 to 600 degrees Fahrenheit (200 to 315 degrees Celsius) without experiencing significant structural or performance deterioration. As a result, it is well-suited for a broad array of high-temperature applications in industries such as automotive, aerospace, construction, and manufacturing, including insulation, fireproofing, and thermal insulation. It's worth noting that the precise maximum temperature resistance may vary depending on factors like the thickness, composition, and specific manufacturing processes employed for the fiberglass mat tissue. Therefore, it is always advisable to refer to the manufacturer's specifications and guidelines to ensure the appropriate usage and optimal performance of the product in high-temperature environments.
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E-glass CHopped Strand Mat Made Of Fiberglass(Powder Bonded)
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 20000 kg
- Supply Capability:
- 200000Kg Per Month kg/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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