150GE-Glass Chopped Fiberglass Strands for Concrete 3/4

150GE-Glass Chopped Fiberglass Strands for Concrete 3/4 System 1

150GE-Glass Chopped Fiberglass Strands for Concrete 3/4 System 2

150GE-Glass Chopped Fiberglass Strands for Concrete 3/4 System 3

150GE-Glass Chopped Fiberglass Strands for Concrete 3/4

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 100 m.t.

Supply Capability:: 100000 m.t./month

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Quick Details

Technique:	Chopped Strand Fiberglass Mat (CSM)	Dimensions:	225g/m2-900g/m2	Fiberglass Type:	E-Glass
Place of Origin:	China (Mainland)	Brand Name:	cnbm	Model Number:	300G-900G
moisture:	≤0.2%	combustion content:	2.1-6.3%	binder type:	emulsion or powder
width:	1040,1270,2080mm

Packaging & Delivery

Packaging Details:	plastic bag then carton then pallet
Delivery Detail:	15 days after payment

Advantage

1. Chopped strand mat is made up from fiberglass chopped strands bonded with powder binder or emulsion binder

2. Wet out faster and easy of handling

3. Good choppability

4.thickness uniformity

Apllication

fiberglass chopped strand mat

It is used for processing and manufacturing FRP products with getting through hand lay up process, filament winding process and press molding. Typical products is including bathroom accessories, pipe, building material, automobile, furniture, vessel, cooling towers and other FRP products

150gE-glass Fiberglass Chopped Strand Mat

Q: Is fiberglass chopped strand suitable for automotive interior components?: Yes, fiberglass chopped strand is suitable for automotive interior components. It is a versatile material that offers excellent strength, rigidity, and durability, making it ideal for various interior applications such as door panels, dashboard components, and seat structures. Additionally, fiberglass chopped strand can be easily molded into complex shapes and is resistant to chemicals, heat, and moisture, ensuring long-lasting performance in automotive environments.

Q: What are the shear strength properties of fiberglass chopped strand?: The shear strength properties of fiberglass chopped strand are influenced by several factors, including the length and alignment of the strands, the resin matrix used, and the manufacturing process. Generally, fiberglass chopped strand exhibits good shear strength due to the interlocking nature of the randomly-oriented strands. The length of the chopped strands can have a significant impact on the shear strength. Longer strands tend to provide higher shear strength as they can distribute the applied load over a larger area. However, shorter strands may be preferred for specific applications where improved flow and easier processing are desired. The alignment of the chopped strands also affects the shear strength. Randomly-oriented strands provide better interlocking and resistance to shear forces compared to aligned or unidirectional fibers. The random orientation allows for the distribution of forces in multiple directions, enhancing the overall shear strength of the material. The resin matrix used in fiberglass chopped strand composites also plays a crucial role in determining the shear strength properties. The resin should have good adhesion to the fibers and provide sufficient bonding strength to withstand shear loads. Epoxy resins, for example, are commonly used due to their excellent adhesion properties and high shear strength. The manufacturing process employed to produce fiberglass chopped strand can also impact the shear strength properties. Factors such as the compaction pressure, curing temperature, and post-processing techniques can influence the final shear strength of the material. Careful control of these parameters during manufacturing can optimize the shear strength properties of fiberglass chopped strand. Overall, fiberglass chopped strand exhibits favorable shear strength properties due to the interlocking nature of the strands and the bonding strength provided by the resin matrix. However, it is important to consider the specific requirements of the application and select the appropriate fiber length, alignment, resin matrix, and manufacturing process to ensure optimal shear strength performance.

Q: Can fiberglass chopped strand be used in the production of water pipes?: Yes, fiberglass chopped strand can be used in the production of water pipes. Fiberglass is a versatile material that offers several advantageous properties for water pipe manufacturing. It has high strength and rigidity, which makes it suitable for handling the pressure and stress associated with water distribution systems. Fiberglass is also corrosion-resistant, meaning it can withstand exposure to various chemicals and minerals present in water without deteriorating. Additionally, it is a lightweight material, making it easier to handle and transport during the production and installation processes. Moreover, fiberglass has excellent insulating properties, which can help maintain the temperature of the water flowing through the pipes. Overall, using fiberglass chopped strand in the production of water pipes can result in durable, long-lasting, and reliable infrastructure for water distribution.

Q: How does the processing temperature affect fiberglass chopped strand?: The processing temperature has a significant impact on the properties and performance of fiberglass chopped strand. When the temperature is too low, the resin may not fully melt and distribute evenly on the strands, leading to poor wetting and adhesion. This can result in reduced mechanical properties and weaker bonding between the chopped strand and the resin matrix. On the other hand, if the processing temperature is too high, it can cause the fiberglass strands to degrade, resulting in a decrease in strength and stiffness. The excessive heat can also lead to fiber breakage, which will negatively affect the overall mechanical properties of the composite material. Additionally, the processing temperature affects the viscosity of the resin. Higher temperatures decrease the viscosity, making it easier for the resin to wet out the chopped strand. This promotes better impregnation and improved mechanical properties of the final product. Furthermore, the processing temperature can influence the curing time of the resin. Higher temperatures typically accelerate the curing process, which can be advantageous in terms of reducing production time. However, it is essential to carefully control the temperature to avoid premature curing or overheating, which can result in incomplete curing, voids, and other defects in the final composite. In summary, the processing temperature plays a crucial role in the quality and performance of fiberglass chopped strand. It affects the wetting, adhesion, mechanical properties, curing time, and overall integrity of the composite material. Therefore, it is necessary to optimize the processing temperature to achieve the desired properties and ensure the production of high-quality fiberglass composite products.

Q: Is fiberglass chopped strand compatible with different recycling processes?: Certainly! Fiberglass chopped strand is indeed compatible with diverse recycling procedures. This adaptable material, fiberglass, can undergo recycling through an array of methods, including mechanical recycling, chemical recycling, and thermal recycling. In the mechanical recycling approach, the fiberglass chopped strand can be shredded and transformed into fresh fiberglass products. Conversely, chemical recycling involves disassembling the fiberglass into its fundamental constituents, which can then be utilized to generate novel materials. In contrast, thermal recycling utilizes heat to convert the fiberglass into energy or other beneficial byproducts. Through these distinct recycling processes, the fiberglass chopped strand can be efficiently recycled and repurposed, eliminating the need for landfill disposal and thus making it an environmentally-conscious alternative.

Q: Can fiberglass chopped strand be used in the production of marine vessels?: Yes, fiberglass chopped strand can be used in the production of marine vessels. Fiberglass is a commonly used material in the marine industry due to its high strength-to-weight ratio, durability, and resistance to corrosion. Chopped strand mat, made from chopped fiberglass strands, is often used as a reinforcement material in boat hulls, decks, and other structural components. It can be easily molded, laminated, or infused with resin to create strong and lightweight composite structures. The use of fiberglass chopped strand in marine vessel production helps enhance the overall strength and performance of the boats while also providing resistance to water damage and degradation.

Q: Does fiberglass chopped strand have any UV resistance?: Yes, fiberglass chopped strand does have some level of UV resistance. However, the extent of its resistance can vary depending on the specific type of fiberglass and the manufacturing process. To enhance its UV resistance, additional coatings or additives may be applied.

Q: Can fiberglass chopped strand be used in the production of lightweight panels?: Yes, fiberglass chopped strand can be used in the production of lightweight panels. The chopped strands can be mixed with resin to create a composite material that is strong, lightweight, and durable, making it an excellent choice for manufacturing lightweight panels.

Q: How is the interlaminar shear strength of fiberglass chopped strand composites determined?: The interlaminar shear strength of fiberglass chopped strand composites is typically determined through various testing methods, such as the short beam shear test or the double cantilever beam test. These tests involve applying a shear force to the composite material and measuring the maximum load it can withstand before failure. This provides valuable information on the composite's resistance to interlayer shear stresses and helps in evaluating its overall mechanical properties.

Q: How does fiberglass chopped strand affect the strength of composite materials?: The strength of composite materials is significantly enhanced by fiberglass chopped strand. When incorporated into a composite matrix, the chopped strand reinforces the material, resulting in increased strength and stiffness. The fibers in the chopped strand act as a reinforcement, providing mechanical support and improving the material's resistance to external forces or stresses. Typically, the fibers in chopped strand are made of glass, which possesses high tensile strength and stiffness. When embedded in a composite matrix, these fibers distribute stress more evenly throughout the material, preventing crack propagation and enhancing its load-bearing capacity. Moreover, the high aspect ratio of the chopped strand fibers promotes efficient stress transfer from the matrix to the reinforcement, further improving the material's strength. The strength of the composite material is also determined by the orientation and distribution of the chopped strand fibers. Manufacturers have the ability to tailor the material to meet specific mechanical requirements by adjusting the alignment and dispersion of the fibers. For example, aligning the fibers in a unidirectional manner can greatly enhance the material's strength in a particular direction, making it suitable for applications that demand high tensile or flexural strength. In conclusion, fiberglass chopped strand has a profound impact on the strength of composite materials. By reinforcing the composite matrix, the chopped strand fibers enhance the material's overall strength, stiffness, and load-bearing capacity. The properties of fiberglass chopped strand, including its high tensile strength, stiffness, and aspect ratio, contribute to the improved mechanical performance of composite materials.

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