6mm Chop Strand Fiberglass - China Manufacture 500g E-Glass Chopped Strand Mat
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
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Quick Details
Technique: | Chopped Strand Fiberglass Mat (CSM) | Dimensions: | 80g - 900g | Mat Type: | Continuous Filament Mat |
Fiberglass Type: | E-Glass | Softness: | soft, very soft | Place of Origin: | Shandong, China (Mainland) |
Brand Name: | cnbm | Model Number: | CSM | material: | fiberglass |
Glass type: | E glass / C glass | Bond type: | powder or emulsion | Roll width: | 200 - 2600mm |
Roll weight: | 28 - 55kgs | Density: | 225g/m2, 300g/m2, 450g/m2 | Certification: | ISO, CE |
Packaging & Delivery
Packaging Details: | standand export packing . or packed as customer's need |
Delivery Detail: | 10-20days after the contract is effective |
Specifications
Fiberglass Chopped Strand Mat
1.good combination fo resin
2.easy operation
3.good wet strength retention
Specification:
Fiberglass Chopped Strand Mat is an non-woven E- or C-glass fiberglass fabric manufactured by spreading continuous filament rovings of 50mm in length randomly and uniformly in combination with polyester binder in power form (or other binder in emulsion form). Powder or Emulsion fiberglass fiber chopped glass mat
- Q: How does the fiber content affect the thermal conductivity of chopped strand composites?
- The fiber content has a significant impact on the thermal conductivity of chopped strand composites. As the fiber content increases, the thermal conductivity of the composite generally decreases. This is because the fibers act as insulating barriers, impeding the flow of heat through the material. The thermal conductivity of a material is determined by its ability to conduct heat. In chopped strand composites, the fibers are dispersed throughout a matrix material, which can be a polymer or a resin. The presence of fibers creates a network of thermal resistances within the composite, which reduces the overall thermal conductivity. When the fiber content is low, the spacing between the fibers is larger, allowing for more heat transfer pathways between the matrix material. This leads to higher thermal conductivity. However, as the fiber content increases, the spacing between the fibers decreases, increasing the number of thermal resistances and decreasing the thermal conductivity. Additionally, the aspect ratio of the fibers also plays a role in determining the thermal conductivity of chopped strand composites. Longer fibers with a higher aspect ratio provide more resistance to heat transfer, further reducing the thermal conductivity. It is important to note that other factors, such as the properties of the matrix material, the alignment and orientation of the fibers, and the interfacial bonding between the fibers and the matrix, can also influence the thermal conductivity of chopped strand composites. Therefore, a comprehensive understanding of these factors is essential for accurately predicting and controlling the thermal conductivity of these materials.
- Q: Can fiberglass chopped strand be used in energy storage applications?
- Yes, fiberglass chopped strand can be used in energy storage applications. Fiberglass is a versatile material known for its high strength-to-weight ratio and resistance to corrosion, making it suitable for various industrial applications. In energy storage, fiberglass chopped strand can be utilized to reinforce and strengthen components such as battery casings, enclosures, and structural supports. It provides excellent mechanical properties, including tensile strength and dimensional stability, which are important for ensuring the integrity and durability of energy storage systems. Additionally, fiberglass is non-conductive and non-magnetic, making it a safe and reliable choice for electric and magnetic fields associated with energy storage applications.
- Q: What are the different packaging options for fiberglass chopped strand?
- Fiberglass chopped strand offers various packaging options to cater to the specific demands and preferences of customers. 1. Bags: Fiberglass chopped strand can be conveniently packaged in bags of different sizes, ranging from small kilograms to large several hundred kilograms. These bags are usually constructed from durable materials like plastic or woven polypropylene, ensuring the product's integrity during storage and transportation. 2. Bulk packaging: Customers requiring substantial quantities of fiberglass chopped strand can avail themselves of bulk packaging options. This may include bulk bags or FIBC (Flexible Intermediate Bulk Container), capable of accommodating several tons of chopped strand. This packaging type is commonly utilized in industrial settings where large volumes of material are necessary. 3. Pallets: Pallets serve as another packaging solution for fiberglass chopped strand. In this scenario, the chopped strand is either bagged or wrapped with protective films and placed on wooden or plastic pallets. This alternative facilitates the easy handling, storage, and transportation of the material, particularly for customers requiring frequent or regular deliveries. 4. Custom packaging: Tailored packaging options can be arranged based on the specific requirements of customers. This may involve specialized packaging materials, labeling, or additional protective measures to ensure the quality and safety of the fiberglass chopped strand during transit and storage. Overall, the packaging options for fiberglass chopped strand are diverse, adapting to the quantity, application, and individual needs of customers. The primary objective is to deliver a secure, convenient, and reliable solution for the handling and transportation of the product to its intended destination.
- Q: Can fiberglass chopped strand be used in insulation applications?
- Indeed, insulation applications can make use of fiberglass chopped strand. Due to its exceptional thermal resistance properties, fiberglass chopped strand is frequently employed as a material for insulation. Its structure adeptly captures air pockets, effectively diminishing heat transfer and sustaining a consistent temperature within the insulated area. Moreover, the lightweight, durable, and moisture-resistant nature of fiberglass chopped strand insulation renders it appropriate for various insulation needs. Whether it is for residential structures, commercial establishments, or industrial facilities, fiberglass chopped strand insulation offers a reliable solution for thermal insulation demands.
- Q: Does fiberglass chopped strand improve the vibration damping properties of composite materials?
- Yes, fiberglass chopped strand can improve the vibration damping properties of composite materials. Fiberglass has inherent damping properties due to its viscoelastic nature, which means it can absorb and dissipate energy when subjected to vibrations. When used as a reinforcement in composite materials, the fiberglass chopped strand enhances the overall damping characteristics of the composites. The random orientation and short length of the chopped strands allow for them to be dispersed throughout the composite matrix, creating an interlocking network that helps to dissipate vibration energy. This interlocking network effectively hinders the propagation of vibration waves, reducing their amplitude and frequency. As a result, the composite material exhibits improved vibration damping properties. Additionally, the high strength and stiffness of fiberglass further contribute to the overall performance of the composite material. By reinforcing the matrix, the fiberglass chopped strand increases the rigidity of the composite, which helps to minimize the magnitude of vibrations. This combination of damping and reinforcement properties makes fiberglass chopped strand an excellent choice for applications where vibration damping is desired. It is important to note that the specific improvement in vibration damping properties may vary depending on the composition and design of the composite material, as well as the amount and distribution of the fiberglass chopped strand. Proper selection and incorporation of the chopped strand are crucial for achieving the desired vibration damping characteristics in composite materials.
- Q: Is fiberglass chopped strand lightweight?
- Yes, fiberglass chopped strand is lightweight.
- Q: Is fiberglass chopped strand resistant to mold and mildew?
- Yes, fiberglass chopped strand is generally resistant to mold and mildew. The inherent properties of fiberglass, such as its non-porous nature and resistance to moisture, make it a less favorable environment for the growth of mold and mildew. However, it's important to note that while fiberglass itself may be resistant to mold and mildew, other factors such as moisture accumulation and improper installation can still contribute to the growth of mold and mildew in the surrounding areas.
- Q: Can fiberglass chopped strand be used in the production of bathroom fixtures?
- The production of bathroom fixtures can benefit from the use of fiberglass chopped strand. This reinforcing material is typically comprised of fine glass fibers that have been chopped into shorter lengths. It is commonly employed as a reinforcement in a variety of materials and products, including bathroom fixtures. Bathroom fixtures, such as bathtubs, shower trays, sinks, and toilet tanks, necessitate a resilient and robust material that can endure water, moisture, and regular usage. Fiberglass chopped strand is an excellent choice for fortifying these fixtures due to its impressive strength-to-weight ratio, resistance to corrosion, and ability to withstand water. To create a composite material for the production of bathroom fixtures, fiberglass chopped strand is usually combined with a resin matrix, such as polyester or acrylic. This composite material offers the necessary strength and durability required to withstand the demands of daily use in a bathroom setting. Furthermore, fiberglass chopped strand can be effortlessly molded into various shapes and sizes, allowing for the creation of customized and visually appealing bathroom fixtures. It can also be easily blended with other materials, such as gelcoats or colorants, to achieve desired surface finishes or colors. Overall, fiberglass chopped strand is a suitable and extensively utilized material in the production of bathroom fixtures due to its strength, durability, resistance to water, and versatility in design.
- Q: How does the diameter of chopped strand affect its performance?
- The diameter of chopped strand affects its performance by influencing its strength, flexibility, and ability to bond with other materials. A smaller diameter strand tends to be stronger and more flexible, allowing it to withstand higher levels of stress and strain. It also provides better adhesion and compatibility with resin matrices, resulting in improved composite properties such as enhanced stiffness and impact resistance. Conversely, larger diameter strands may offer higher bulk density and improved thermal conductivity, but they can be less flexible and have reduced bonding capabilities. Therefore, the diameter of chopped strand plays a crucial role in determining the overall performance and properties of the final composite product.
- Q: What does the fiberglass operated tool body do?
- Spray roving for FRP spray roving should have the following properties: cutting and molding good, in electrostatic continuous high speed cutting less; the inefficiency of roving after cutting dispersed into raw silk to be high, namely splitting rate high, usually above 90%; the short cut of raw silk has excellent mould covering, covering every corner of the mold; the resin soak fast, easy to be flat and easy to drive roller of roller and raw silk tube bubble; degradation performance, yarn density uniform, suitable for all kinds of spray gun and fiber transmission system. The roving used for injection is made of strands of raw silk, and each strand contains 200 glass fiber filaments.
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6mm Chop Strand Fiberglass - China Manufacture 500g E-Glass Chopped Strand Mat
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
OKorder Service Pledge
OKorder Financial Service
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