Fiberglass Mat Tissue - Fiberglass Powder Bonded Chopped Strand Mat
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 200000 kg
- Supply Capability:
- 200000Kg Per Month kg/month
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1.Brief Introduction
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.
2.Product Features
Fast breakdown in styrene
High tensile strength, allowing for use in hand lay-up process to produce large-area parts
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 |
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.
- Q: What is the thickness range of fiberglass mat tissue?
- The thickness range of fiberglass mat tissue typically varies between 0.2mm to 3mm.
- Q: What are the advantages of using fiberglass mat tissue?
- There are several advantages to using fiberglass mat tissue in various applications. Firstly, fiberglass mat tissue is lightweight, making it easy to handle and transport. This makes it a practical choice for construction and manufacturing industries. Secondly, fiberglass mat tissue offers excellent strength and durability. It has a high tensile strength, which means it can withstand heavy loads and resist tearing or breaking. This makes it an ideal material for reinforcing structures and providing structural integrity. Additionally, fiberglass mat tissue is highly resistant to corrosion, chemicals, and weathering. It does not rust, rot, or degrade when exposed to harsh environmental conditions, making it suitable for outdoor applications. Another advantage of using fiberglass mat tissue is its versatility. It can be easily molded into different shapes and sizes, making it suitable for a wide range of applications. Whether it's used for building materials, automotive parts, or even boat hulls, fiberglass mat tissue can be tailored to meet specific design requirements. Furthermore, fiberglass mat tissue is an excellent thermal insulator. It can effectively trap heat, making it energy-efficient and cost-effective for insulation purposes. This can contribute to reducing energy consumption and lowering heating or cooling costs in buildings. Lastly, fiberglass mat tissue is fire-resistant. It does not ignite easily and can withstand high temperatures without melting or releasing toxic fumes. This makes it a safe choice for applications where fire safety is a concern, such as in the construction of fire-resistant doors or insulation materials. In summary, the advantages of using fiberglass mat tissue include its lightweight nature, strength and durability, resistance to corrosion and weathering, versatility in design, thermal insulation properties, and fire resistance. These qualities make it a highly desirable material in various industries and applications.
- Q: How does the density of fiberglass mat tissue affect its performance?
- The density of fiberglass mat tissue significantly affects its performance. Fiberglass mat tissue is typically used in various applications, such as insulation, construction materials, and composite materials. The density of the fiberglass mat tissue determines its strength, durability, flexibility, and thermal insulation properties. A higher density fiberglass mat tissue generally offers better strength and durability. This is because a higher density implies more fiberglass strands are packed closely together, resulting in a denser and stronger material. It can withstand higher loads and impacts, making it suitable for applications requiring structural integrity, such as in construction or automotive industries. Moreover, the density of fiberglass mat tissue also influences its flexibility. 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 essential, such as in boat manufacturing or automotive body parts. The density also affects the thermal insulation properties of fiberglass mat tissue. Higher density fiberglass mat tissue offers better insulation against heat transfer. It effectively prevents the transfer of heat through conduction, making it ideal for insulation purposes, such as in buildings or piping systems. However, it is important to note that the density of fiberglass mat tissue should be chosen based on the specific requirements of the application. While higher density may provide better strength and durability, it also increases the weight and cost of the material. Therefore, a balance needs to be struck between the desired performance characteristics and the practicality of the specific application.
- Q: Can fiberglass mat tissue be used for making lightweight ceilings?
- Yes, fiberglass mat tissue can be used for making lightweight ceilings. Fiberglass mat tissue is a thin and lightweight material made from fiberglass strands that are bonded together with a binder. It is commonly used in construction and building applications due to its excellent strength-to-weight ratio. When used for making lightweight ceilings, fiberglass mat tissue can provide several advantages. Firstly, it is lightweight, which makes it easier to handle and install. This can save time and effort during construction or renovation projects. Additionally, fiberglass mat tissue is also known for its high tensile strength and durability, making it a suitable choice for ceilings that need to withstand various loads and stresses. Furthermore, fiberglass mat tissue has good thermal insulation properties, which can help in maintaining a comfortable indoor environment. It can also offer sound insulation benefits, reducing noise transmission between different spaces or floors. Moreover, fiberglass mat tissue is resistant to moisture, mold, and mildew, which makes it suitable for areas with high humidity or moisture concerns such as bathrooms or kitchens. It is also non-combustible, providing an added level of fire resistance to the ceiling structure. In conclusion, fiberglass mat tissue can indeed be used for making lightweight ceilings. Its lightweight nature, strength, durability, thermal and sound insulation properties, as well as resistance to moisture and fire, make it a suitable choice for various ceiling applications.
- Q: What are the different thickness tolerances for fiberglass mat tissue?
- The different thickness tolerances for fiberglass mat tissue can vary depending on the specific product and manufacturer. However, common thickness tolerances range from +/- 0.001 inches to +/- 0.005 inches.
- Q: What is fiberglass mat tissue made of?
- Fiberglass mat tissue is made of fine strands of glass fibers that are woven together to form a thin, flexible fabric-like material. These glass fibers are typically made from molten glass that is drawn into very thin filaments and then coated with a binding agent to improve strength and durability. The woven structure of the fiberglass mat tissue helps to provide reinforcement and stability to various materials and products, making it an ideal choice for applications such as insulation, roofing, and composite materials.
- Q: How does fiberglass mat tissue perform in terms of thermal expansion?
- Fiberglass mat tissue has a relatively low thermal expansion coefficient, meaning it expands minimally when exposed to heat. This characteristic makes it an excellent material for applications where thermal stability is crucial. The tightly woven structure of fiberglass mat tissue helps to limit the expansion and contraction of the material, even under high temperatures. Consequently, it exhibits excellent dimensional stability and resistance to thermal stresses. This property allows fiberglass mat tissue to maintain its structural integrity when exposed to extreme temperature variations, making it highly suitable for use in industries such as aerospace, automotive, and construction, where thermal expansion and contraction can pose significant challenges.
- Q: Can fiberglass mat tissue be used for insulating crawl spaces?
- Indeed, one can utilize fiberglass mat tissue to insulate crawl spaces. This material, widely employed for insulation objectives, proves to be versatile. It boasts a lightweight composition that enables flexibility and easy installation, rendering it appropriate for crawl spaces that typically present restricted access and cramped corners. Moreover, fiberglass mat tissue showcases resistance against moisture, mold, and pests, making it an optimal selection for crawl spaces that frequently encounter these complications. Adding to its appeal, it exhibits exceptional thermal insulation properties, thereby promoting steady temperature maintenance and energy efficiency within the crawl space. All in all, fiberglass mat tissue proves itself to be a dependable and efficient choice for crawl space insulation.
- Q: Can fiberglass mat tissue be used for decorative applications?
- Fiberglass mat tissue is not only limited to its applications in the construction industry, as it can also be utilized for decorative purposes. With its thin and lightweight composition, it serves as an ideal material for reinforcing composites, plastics, and resins. However, its smooth and glossy surface makes it perfect for adding a decorative finish to surfaces. By using fiberglass mat tissue, one can create distinctive textures, patterns, or designs on walls, ceilings, furniture, and even art installations. Its versatility allows for easy shaping, molding, or forming into different shapes, making it suitable for various creative applications. Furthermore, fiberglass mat tissue comes in a variety of colors, allowing for further customization and enhancing its decorative potential. It can be painted or coated with different finishes to achieve the desired aesthetic effect. Additionally, its durability and resistance to moisture, chemicals, and UV radiation make it suitable for both indoor and outdoor decorative applications. To summarize, fiberglass mat tissue offers a smooth surface, versatility, and durability, making it an excellent choice for adding a decorative touch to surfaces. Whether it is used for architectural design, interior decoration, or artistic installations, it provides endless possibilities for creating visually appealing and unique decorative applications.
- Q: What are the different reinforcement patterns available for fiberglass mat tissue?
- There are several different reinforcement patterns available for fiberglass mat tissue, each offering unique benefits and characteristics. 1. Random Chopped Strand Mat (CSM): This is a widely used reinforcement pattern in fiberglass mat tissue. It consists of randomly chopped strands of fiberglass that are bound together with a binder. CSM provides good strength and stiffness properties, making it suitable for a wide range of applications. 2. Continuous Strand Mat (CSM): This reinforcement pattern consists of continuous strands of fiberglass that are evenly distributed and bound together with a binder. Continuous strand mat offers improved strength and stiffness compared to random chopped strand mat, making it ideal for applications that require higher performance. 3. Woven Roving: Woven roving is a reinforcement pattern that consists of interwoven bundles of fiberglass yarns. It provides excellent strength and impact resistance, making it suitable for applications that require high load-bearing capabilities. 4. Multiaxial Fabrics: Multiaxial fabrics are made up of multiple layers of fiberglass fibers that are oriented in different directions (usually at 0°, 90°, and ±45° angles). This reinforcement pattern offers balanced strength properties in multiple directions, making it ideal for applications that require isotropic properties. 5. Stitch-Bonded Fabrics: Stitch-bonded fabrics are made by mechanically stitching together layers of fiberglass fibers. This reinforcement pattern provides good drapability and conformability, making it suitable for applications that require complex shapes or curved surfaces. 6. Knitted Fabrics: Knitted fabrics are made by interlocking loops of fiberglass yarns. This reinforcement pattern offers excellent flexibility and ease of handling, making it suitable for applications that require conformability and flexibility. Each reinforcement pattern has its own advantages and is used in different applications based on the specific requirements of strength, stiffness, impact resistance, flexibility, or conformability. It is important to select the appropriate reinforcement pattern based on the desired end-use properties and manufacturing process.
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Fiberglass Mat Tissue - Fiberglass Powder Bonded Chopped Strand Mat
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT or LC
- Min Order Qty:
- 200000 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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