E-glass Chopped Strand Mat 600gsm
- Ref Price:
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- Loading Port:
- China Main Port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 20000 kg
- Supply Capability:
- -
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1.Product Description
E-glass CSM 600gsm is made of randomly dispersed strands with power or emulsion bonded.
Applicable for hand lay-up ,continuous lamination process. Compatible with UP,VE.
Suitable for transparent panels,ship bodies,automobile parts and interior decorations ,etc.
Consistent thickness and stiffness.
Rapid impregnating and good compatibility with resin.
Superior wet through with less air trap.
Good mechanical properties and high strength of parts.
3.Technical Data Sheet
| Various Tests | ACCEPTED STANDARDS | TEST RESULTS | ||
| Conducted | Standard No. | Standard Value | Average Value | Passed ? / Yes or No |
| Mass per Unit Area | ISO 3374 — 2000 | 555-645 | 608 | Yes |
| (g/m2) | ||||
| Breakage Strengh | ISO 3342— 1995 | ≥160 | 328.00 | Yes |
| (N) | ||||
| Moisture Content | ISO 3344 — 1997 | ≤0.20 | 0.10 | Yes |
| (%) | ||||
| Loss on Ignition | ISO 1887 — 1995 | 2.42-4.59 | 3.13 | Yes |
| (%) | ||||
Packaging&Storage
Eech roll is packed by polyester bag,and then put into a cardboard box or plastic wowen bag.The weight of each roll is between 20 to 85 Kg, The rolls are to be horizontally placed and could be in bulk or on pallet.Optimum storage conditions are between the temperature of 5~35℃ and with the humidity between 35%~65%.The product should be used within 12 months from the time of delivery and remain in theiroriginal packaging until just prior to use.
- Q:Is fiberglass mat tissue resistant to vibrations?
- Yes, fiberglass mat tissue is resistant to vibrations. The strong and flexible nature of fiberglass makes it suitable for absorbing and dampening vibrations, making it an ideal material for applications where vibration resistance is required.
- Q:Does fiberglass mat tissue require any special curing conditions?
- Fiberglass mat tissue does not typically require any special curing conditions. It can be cured at room temperature without the need for high temperatures or specific curing environments. The curing process of fiberglass mat tissue involves the application of resin, which hardens and bonds with the fibers over time. This curing can occur naturally at room temperature or can be accelerated with the use of heat or catalysts. However, it is important to follow the manufacturer's instructions and recommendations for the specific type of fiberglass mat tissue being used, as some variations may have specific curing requirements.
- Q:How does fiberglass mat tissue contribute to the strength and durability of composite materials?
- The strength and durability of composite materials are greatly enhanced by fiberglass mat tissue. To begin with, the mat tissue acts as a reinforcement element, providing added strength and rigidity to the composite structure. The fibers in the mat tissue are usually made of glass, which possesses high tensile strength and stiffness. These fibers are arranged randomly, forming a three-dimensional network that evenly distributes stress throughout the composite material. This network of fibers helps to resist cracks and fractures, thus increasing the overall strength of the composite. Additionally, the mat tissue serves as a protective barrier against delamination, a common problem in composite materials. Delamination refers to the separation of layers within the composite, which can weaken its structural integrity. By bonding the layers together and improving their adhesion, the fiberglass mat tissue prevents delamination. This enhanced adhesion reduces the chances of interface failure and improves the overall durability of the composite material. Moreover, fiberglass mat tissue contributes to the improved impact resistance of composite materials. The random fiber orientation within the mat tissue creates a crisscross pattern that enhances the composite's ability to absorb and distribute impact energy. This characteristic makes the material less susceptible to damage from external forces, such as impacts, vibrations, or mechanical stress. In conclusion, fiberglass mat tissue plays a vital role in strengthening and enhancing the durability of composite materials. Its reinforcement capabilities, delamination prevention, and improved impact resistance make it an essential component in various industries, including automotive, aerospace, construction, and marine, where the demand for strong and durable materials is critical.
- Q:How is fiberglass mat tissue used in the aerospace industry?
- Due to its exceptional properties and versatility, fiberglass mat tissue finds extensive use in the aerospace industry. It plays a crucial role in the manufacturing and maintenance of aircraft, serving various purposes. One of the primary applications of fiberglass mat tissue in the aerospace industry lies in its incorporation into composite materials. These materials, formed by combining two or more substances, are widely employed in aircraft construction to reduce weight while ensuring structural integrity. In composite laminates, fiberglass mat tissue acts as a reinforcement material, providing strength, stiffness, and dimensional stability. Consequently, it is suitable for various components such as wings, fuselage, and tail sections. The high tensile strength of fiberglass mat tissue guarantees that the composite structure can withstand the demanding conditions faced in the aerospace industry. Moreover, aircraft repair and maintenance extensively utilize fiberglass mat tissue. This material is commonly employed in the process of composite patching, which involves the restoration of damaged or worn-out composite components. By impregnating the fiberglass mat tissue with resin and applying it to the affected area, strength is restored and structural integrity is regained. This technique is widely employed for repairing aircraft components like fairings, radomes, and other composite parts, ensuring their safe and reliable operation. Additionally, fiberglass mat tissue finds application in the insulation of aircraft. It is used as a thermal and acoustic insulator in critical areas of the aircraft, including the interior cabin. By reducing heat transfer and preventing condensation, fiberglass mat tissue helps maintain a comfortable environment for passengers and crew. Furthermore, its sound-absorbing properties minimize noise levels inside the aircraft, ultimately enhancing the overall travel experience. In summary, fiberglass mat tissue is an essential material in the aerospace industry. Its exceptional properties, including high tensile strength, dimensional stability, and thermal/acoustic insulation capabilities, make it an ideal choice for a wide range of applications. From composite structures to aircraft repair and maintenance, fiberglass mat tissue proves indispensable in ensuring the efficiency and safety of aerospace operations.
- Q:How does the fiber content of fiberglass mat tissue affect its strength?
- The fiber content of fiberglass mat tissue directly affects its strength. The higher the fiber content, the stronger the fiberglass mat tissue will be. This is because the fibers provide the structural integrity and reinforcement to the material. When the fiber content is increased, it results in a higher concentration of fibers, which in turn increases the overall strength of the tissue. Fiberglass mat tissue is composed of glass fibers that are randomly oriented and bound together with a resin binder. These fibers are responsible for carrying the load and providing resistance to any external forces or stresses applied to the material. As a result, the more fibers present in the tissue, the greater the load-carrying capacity and strength of the material. Additionally, a higher fiber content enhances the stiffness of the fiberglass mat tissue. Stiffness refers to the ability of a material to resist deformation or bending under applied loads. With a greater amount of fibers, the tissue becomes stiffer, making it less prone to bending or flexing. This increased stiffness contributes to the overall strength of the material. It is important to note that while a higher fiber content improves the strength of fiberglass mat tissue, there is an optimal range where the benefits of additional fibers are maximized. Beyond this range, the increased fiber content may not result in a significant improvement in strength, and it may have diminishing returns. Therefore, it is crucial to find the right balance between fiber content and strength for specific applications. In conclusion, the fiber content of fiberglass mat tissue directly impacts its strength. Increasing the fiber content leads to a higher concentration of fibers, which enhances the material's load-carrying capacity and stiffness. Finding the optimal fiber content is essential to maximize the strength of the tissue for specific applications.
- Q:Does fiberglass mat tissue require any special handling or storage requirements?
- Fiberglass mat tissue necessitates specific care and storage measures. To begin with, it is imperative to handle fiberglass mat tissue delicately in order to prevent any harm or breakage. The tissue should be treated with gentleness and not pulled or dropped, as this may result in the separation or damage of the fibers. It is also advisable to wear gloves and protective clothing while handling fiberglass mat tissue to avoid any skin irritation or injuries. Regarding storage, it is crucial to keep fiberglass mat tissue in a clean and dry environment. Shielding it from moisture is of utmost importance, as water exposure can weaken the fibers and diminish its efficacy. Therefore, it is preferable to store fiberglass mat tissue in sealed, moisture-proof packaging or in a dry room with controlled humidity levels. Furthermore, fiberglass mat tissue should be kept away from direct sunlight and extreme temperatures. High temperatures can cause the resin in the tissue to cure prematurely, while excessive cold can make it brittle and more susceptible to damage. Hence, it is recommended to store fiberglass mat tissue in a cool and shaded area to maintain its quality and ensure its longevity. By adhering to these specialized handling and storage requirements, fiberglass mat tissue can be safeguarded and preserved in its optimal condition, ready for utilization in various industries such as construction, insulation, or automotive.
- Q:How is fiberglass mat tissue used in the production of chemical storage tanks?
- Fiberglass mat tissue is used in the production of chemical storage tanks to reinforce the structure and enhance their strength and durability. The tissue is typically impregnated with resin and then applied to the tank's interior or exterior surface, forming a layer that acts as a barrier against chemical corrosion and leakage. This combination of fiberglass mat tissue and resin creates a robust and corrosion-resistant tank, ensuring the safe storage of chemicals.
- Q:What are the different methods of bonding fiberglass mat tissue to other materials?
- There are several methods of bonding fiberglass mat tissue to other materials, including mechanical bonding, chemical bonding, and thermal bonding. Mechanical bonding involves using adhesives or fasteners to physically attach the fiberglass mat tissue to the other material. Chemical bonding involves using a bonding agent or adhesive that chemically reacts with both the fiberglass mat tissue and the other material, creating a strong bond. Thermal bonding involves using heat to melt the fiberglass mat tissue and fuse it with the other material, creating a cohesive bond.
- Q:Is fiberglass mat tissue suitable for insulation in high-rise buildings?
- High-rise buildings can benefit from the suitability of fiberglass mat tissue for insulation. This widely used material possesses exceptional thermal and acoustic properties, making it an ideal choice. Its lightweight and flexible nature, along with easy installation, ensure efficiency and effectiveness in high-rise structures. Furthermore, fiberglass mat tissue boasts excellent fire resistance, a crucial requirement for multi-story buildings. It also resists moisture, mold, and pests, ensuring durability and optimal performance. Customization for walls, floors, and ceilings allows consistent insulation throughout the entire building. In conclusion, fiberglass mat tissue is a dependable and cost-effective insulation solution for high-rise buildings.
- Q:Is fiberglass mat tissue suitable for insulation in educational facilities?
- Indeed, fiberglass mat tissue proves to be a suitable option for insulation in educational facilities. Owing to its exceptional thermal insulation properties, fiberglass mat tissue is widely employed in insulation applications. This lightweight and cost-effective material effectively insulates buildings, including educational facilities, from heat loss or gain. Moreover, fiberglass mat tissue is renowned for its fire-resistant characteristics – a vital consideration in any structure, particularly in educational facilities where the safety of students and staff takes precedence. Furthermore, the installation of fiberglass mat tissue is effortless, and it does not necessitate extensive upkeep, thus rendering it a convenient selection for insulation in educational facilities.
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E-glass Chopped Strand Mat 600gsm
- Ref Price:
-
- Loading Port:
- China Main Port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 20000 kg
- Supply Capability:
- -
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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