2015 E-glass Powder Chopped Stand Mats
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 20000 m.t./month
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Quick Details
| Technique: | Chopped Strand Fiberglass Mat (CSM) | Dimensions: | 450gsm | Mat Type: | Continuous Filament Mat |
| Fiberglass Type: | E-Glass | Softness: | softness | Place of Origin: | Jiangxi, China (Mainland) |
| Brand Name: | cnbm | Model Number: | 450gsm | color: | white |
| fiberglass type: | E glass | product: | e-glass powder chopped stand mats | binder: | powder or emulsion |
| width: | 1040 or 1270mm, as your requirement | weight: | 30 or 45kg/roll | paper tube diameter: | 90mm |
| outer diameter of roll: | 256mm | packing: | plastic film+carton box + pallet |
Packaging & Delivery
| Packaging Details: | plastic film+carton box + pallet |
| Delivery Detail: | 15-20days |
Specifications
1.e-glass powder chopped stand mats
2.binder:power or emulsion
3.width:1040mm or 1270mm
4.weight:450gsm
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- Q:Can fiberglass chopped strand be used in aerospace composites?
- Yes, fiberglass chopped strand can be used in aerospace composites. Fiberglass chopped strand is a common reinforcement material that is widely used in various industries, including aerospace. It offers excellent strength-to-weight ratio, chemical resistance, and thermal stability, making it suitable for aerospace applications where lightweight and high-performance materials are required. Fiberglass chopped strand can be used in the production of aerospace components such as panels, fairings, interior parts, and structural elements. It can be combined with other reinforcement materials, such as carbon fibers, to enhance the overall properties of the composite. However, it is important to note that the specific requirements and regulations of each aerospace project should be considered when selecting the appropriate reinforcement material.
- Q:Can fiberglass chopped strand be used in the production of aerospace structures?
- Yes, fiberglass chopped strand can be used in the production of aerospace structures. Fiberglass chopped strand is a versatile material that offers several benefits for aerospace applications. It has high strength-to-weight ratio, excellent thermal and electrical insulation properties, and good resistance to corrosion and chemicals. In aerospace structures, fiberglass chopped strand can be used in the manufacturing of composite materials, such as fiberglass-reinforced polymers (FRPs) or fiber-reinforced composites. These composites provide enhanced strength and durability while being lightweight, making them ideal for aerospace applications where weight reduction is crucial. Fiberglass chopped strand can be used to reinforce various components in aerospace structures, including fuselage sections, wings, landing gear, interior panels, and engine parts. It can be incorporated into the manufacturing process through techniques such as filament winding, resin transfer molding, or hand lay-up. Furthermore, fiberglass chopped strand can also be customized to meet specific industry requirements, such as flame retardancy, low smoke emission, or high temperature resistance. This makes it suitable for meeting the stringent safety standards and performance criteria set by the aerospace industry. In conclusion, fiberglass chopped strand can be effectively utilized in the production of aerospace structures due to its strength, lightweight properties, and resistance to environmental factors. Its use in composite materials can contribute to the overall performance and efficiency of aerospace components.
- Q:How does the fiber orientation affect the impact resistance of fiberglass chopped strand composites?
- The fiber orientation significantly influences the impact resistance of fiberglass chopped strand composites. When the fibers are aligned in the direction of impact, they can effectively distribute and absorb the applied load, resulting in improved impact resistance. Conversely, if the fibers are randomly oriented or misaligned, the load distribution is less efficient, leading to reduced impact resistance. Therefore, proper fiber orientation plays a critical role in enhancing the impact resistance of fiberglass chopped strand composites.
- Q:Can fiberglass chopped strand be used in the production of wind turbine blades?
- Yes, fiberglass chopped strand can be used in the production of wind turbine blades. Fiberglass chopped strand is a commonly used reinforcement material in composite manufacturing, and it offers several advantages for wind turbine blade production. Firstly, fiberglass chopped strand has excellent tensile strength and stiffness, which are essential properties for wind turbine blades to withstand the aerodynamic forces and loads. It helps to enhance the structural integrity of the blades, making them more durable and resistant to fatigue. Secondly, fiberglass chopped strand has good resistance to corrosion and environmental degradation. This is particularly important for wind turbine blades as they are exposed to various weather conditions and elements, such as UV radiation, moisture, and temperature variations. The use of fiberglass chopped strand in the blade construction helps to ensure long-term performance and reliability. Furthermore, fiberglass chopped strand is lightweight, which is advantageous for wind turbine blades. The lighter the blades, the easier it is for the turbine to capture wind energy and rotate efficiently. The use of fiberglass chopped strand helps to reduce the overall weight of the blades while maintaining their strength and stiffness. In conclusion, fiberglass chopped strand is a suitable material for the production of wind turbine blades due to its high tensile strength, corrosion resistance, and lightweight properties. It contributes to the overall performance, durability, and efficiency of wind turbines, making it a preferred choice in the industry.
- Q:How does the fiber dispersion affect the performance of fiberglass chopped strand?
- Fiber dispersion refers to the even distribution of fiberglass strands within a material. In the case of fiberglass chopped strand, the performance is directly affected by fiber dispersion. An even dispersion allows for better bonding and interlocking of the strands, resulting in enhanced mechanical properties such as strength, stiffness, and impact resistance. On the other hand, poor fiber dispersion can lead to weak spots and reduced performance as the strands may not be able to effectively contribute to the overall strength of the material. Therefore, fiber dispersion plays a crucial role in determining the performance of fiberglass chopped strand.
- Q:How is fiberglass chopped strand used in the consumer goods industry?
- Due to its versatile properties and numerous applications, fiberglass chopped strand is widely utilized in the consumer goods industry. Its primary use is in enhancing the strength, durability, and overall performance of various consumer goods. One way fiberglass chopped strand is commonly employed in the consumer goods industry is in the production of plastic products. By incorporating chopped strands into the plastic matrix, the final product's strength and rigidity are significantly improved. This is especially beneficial for items like automotive parts, electrical enclosures, and furniture components that need to withstand heavy loads or external impacts. Moreover, fiberglass chopped strand is utilized in the manufacturing of appliances such as refrigerators, washing machines, and ovens. These appliances often require heat resistance and insulation properties, which can be achieved by including chopped strands in their construction. The fiberglass reinforcement provides enhanced thermal stability, enabling the appliances to endure high temperatures without deformation or structural damage. Another important application of fiberglass chopped strand in the consumer goods industry is in the production of sporting goods and recreational equipment. It is commonly used in items like surfboards, kayaks, helmets, and bicycles, where the strength-to-weight ratio is crucial. The addition of chopped strands to the composite materials used in these products enhances their strength and resilience, making them more durable and reliable during intense physical activities. Furthermore, fiberglass chopped strand is extensively used in the production of various household items, including bathtubs, shower enclosures, sinks, and countertops. These products require resistance to moisture, chemicals, and impact, which can be achieved by incorporating chopped strands into their composite materials. The fiberglass reinforcement ensures that these consumer goods maintain their structural integrity and aesthetic appeal over time. In conclusion, fiberglass chopped strand is an essential component in the consumer goods industry, providing enhanced strength, durability, and performance to a wide range of products. Its applications are diverse, ranging from plastic products, appliances, and sporting goods to household items. With its unique properties, fiberglass chopped strand plays a vital role in the manufacturing process, ensuring that consumer goods meet the demands of modern consumers for high-quality and long-lasting products.
- Q:How does the toughness of the chopped strand affect its performance?
- The toughness of the chopped strand directly affects its performance by determining its ability to resist breakage or failure under stress. A higher toughness ensures better durability, impact resistance, and overall strength of the material or product it is used in.
- Q:Is fiberglass chopped strand suitable for the production of automotive spoilers?
- Indeed, fiberglass chopped strand proves to be a fitting option for the manufacturing of automotive spoilers. Widely utilized in the automotive industry for various components, including spoilers, fiberglass serves as a lightweight and long-lasting material. The chopped strand variant of fiberglass comprises short, randomly oriented fibers bound together by a binder. This configuration facilitates the effortless handling and molding of the material during the production process. Automotive spoilers, designed to enhance vehicle aerodynamics by improving stability and reducing drag, benefit from the exceptional strength-to-weight ratio offered by fiberglass chopped strand. This quality makes it an ideal choice for spoilers. The material's high tensile strength and impact resistance ensure that the spoiler can endure the forces and stresses encountered while driving. Moreover, fiberglass chopped strand can be conveniently molded into intricate shapes, enabling the production of spoilers with elaborate designs. The material can also be effortlessly painted and finished to match the vehicle's aesthetics. In conclusion, due to its lightweight nature, durability, and versatility in molding and finishing, fiberglass chopped strand emerges as a fitting material for the production of automotive spoilers.
- Q:Is fiberglass chopped strand resistant to heat?
- Generally, fiberglass chopped strand exhibits resistance to heat. It is composed of glass fibers and a thermosetting resin, typically polyester or epoxy. These constituents possess a high melting point and can endure elevated temperatures without melting or distorting. Nevertheless, it is crucial to acknowledge that the heat resistance of fiberglass may fluctuate depending on the particular type and composition of the material. Certain fiberglass items are engineered to withstand higher temperatures compared to others. It is highly advised to consult the manufacturer's specifications and guidelines for the particular fiberglass chopped strand product to ascertain its heat resistance capabilities.
- Q:Is fiberglass chopped strand resistant to mechanical stress?
- Fiberglass chopped strand possesses resistance to mechanical stress. Its high strength-to-weight ratio and impressive tensile strength are well-known attributes of fiberglass. Chopped strand, consisting of shorter fiberglass fibers, is widely utilized in different industries such as composites, construction, and automotive. This reinforcement material augments the mechanical properties of the end product, rendering it more resilient to mechanical stress and ultimately enhancing its durability. The random arrangement of the chopped strands also aids in distributing stress evenly throughout the material, further strengthening its resistance to mechanical stress. In conclusion, fiberglass chopped strand is a dependable and efficient material for enduring mechanical stress.
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2015 E-glass Powder Chopped Stand Mats
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 20000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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