Fiberglass Mat Tissue Surfacing Tissue Mat

Fiberglass Mat Tissue Surfacing Tissue Mat System 1

Fiberglass Mat Tissue Surfacing Tissue Mat System 2

Fiberglass Mat Tissue Surfacing Tissue Mat

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Loading Port:: Tianjin

Payment Terms:: TT or LC

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Supply Capability:: -

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Introduction of E-glass Chopped Strand Mat

For accessories, pipe, building materials, automobiles, furniture and other FRP products.

This products ischaracterized bg good combination of resin,easg operation ,good wet strengthretention,good laminate transparency

E glass chopped strand mat is made from fiberglass strands chopped to length and bonded together

with powder binder. Chopped strand mat is used primarily for hand lay-up processes, filament winding and press molding of FRP products. Typical products include bathroom

accessories, pipe, building materials, automobiles, furniture and other FRP products.

Features of E-glass Chopped Strand Mat

1.Warp and weft rovings aligned in a parallel,flat manner and uniform tension .
2.Densely alighed fibers,providing high dimensional stability ans easy handing .
3.Good moldability,fast and complete resin wet-out ,enabling high productively .
4.Good transporsision and hign strength of the composite products.
5.Even thickness ,no fuzz ,no stain.
6.Fast wet-out ,products with high strength ,little loss for strength in damp situation.
7.fiberglass woven roving has the features of : high tensile strength, corrosion resistance, flame retardance,insulativity.main function
8.applied to hand lay-up process
9.to reinforce UP resin
10.even thickness and flawless
11.good performance of processability in moulded parts
12.properties guaranteed under moisture condition
13.excellent mechanical strength during production of finished products

Features of E-glass Chopped Strand Mat

1.the composit products have high dry and wet tensile strenth and good transparency.
2.Low fuzz ,dirt ,impurity and other stain

Images of E-glass Chopped Strand Mat

E-glass Chopped Strand Mat-Emuision

E-Glass Chopped Strand Mat Specification：

Property	Glass type	Weight(g/m2)	Width 200~3300	Roll Weight	Moisture Content /%	Combustible Content /%	Breakage Strength /N
Test Method	GB/T 1549	ISO3374:2000	ISO3374	GB/T17470-1998	ISO3344:1997	ISO1887:1995	ISO3342
EMC 80	E-GLASS	80±16	±5	6~50	<0.2	13.6±0.35	≥200
EMC 100	E-GLASS	100±10	±5	6~65	<0.2	9.5±0.35	≥170
EMC 150	E-GLASS	150±15	±5	6~97	<0.2	8.0±0.35	≥40
EMC 225	E-GLASS	225±22	±5	6~150	<0.2	5.0±0.6	≥60
EMC 300	E-GLASS	300±30	±5	6~180	<0.2	4.0±0.6	≥90
EMC 450	E-GLASS	450±45	±5	6~180	<0.2	3.8±0.6	≥120
EMC 600	E-GLASS	600±60	±5	6~240	<0.2	3.6±0.6	≥150
EMC 900	E-GLASS	900±90	±5	6~190	<0.2	3.4±0.6	≥180

FAQ of Chopped strand mat

1. Why Choose us?

CNBM is a stated own company, provide the guarantee for the best quality, best service and safety business.

2. How will we guarantee the quality?

a, ISO 9001-2008 quality control system;

b, Strict and regular quality control in production;

c, Inspeciation when loading into container before shippment;

d, Sample stock for one year for quality tracing and record.

3. What is your MOQ?

Our MOQ is one pallet.

4. Can you provide sample?

Yes, samples are in stock. we can offer free sample for you.

5. Payment terms?

We can accept L/C, T/T etc.

6. Do you offer OEM service?

Yes, we can print customers’ logo on the packaging;

And the size and specification can be produced and design according to your demand.

7. What is the Production Lead Time?

1 *40HQ each day.

Q: How is fiberglass mat tissue used in the manufacturing of wind turbine blades?: Fiberglass mat tissue is used in the manufacturing of wind turbine blades as a reinforcement material. It is typically sandwiched between layers of resin to provide strength, stiffness, and durability to the blades. The mat tissue helps to distribute and absorb the loads and stresses experienced by the blades during operation, making them more resistant to fatigue and structural failure.

Q: Can fiberglass mat tissue be used for HVAC insulation?: No, fiberglass mat tissue is not typically used for HVAC insulation. HVAC insulation usually requires materials that are specifically designed to have high thermal resistance and to prevent the transfer of heat or cold air. Fiberglass mat tissue is commonly used as a reinforcement material in the fabrication of composite materials, such as fiberglass panels or structures, rather than as insulation. Insulation materials for HVAC systems are typically made from materials like fiberglass insulation boards, foam insulation, or mineral wool, which have better thermal resistance properties and are specifically designed for HVAC applications.

Q: Is fiberglass mat tissue suitable for high-temperature applications?: No, fiberglass mat tissue is not suitable for high-temperature applications.

Q: Can fiberglass mat tissue be used for corrosion-resistant coatings?: Corrosion-resistant coatings can utilize fiberglass mat tissue, a non-woven fabric composed of fine fiberglass strands bonded together using a binder. Due to its exceptional strength and corrosion resistance qualities, fiberglass mat tissue is commonly employed as a reinforcement material in composite applications. When integrated into corrosion-resistant coatings, fiberglass mat tissue acts as a protective barrier against the corrosive surroundings, safeguarding the underlying surface from deterioration caused by chemicals, moisture, and other corrosive substances. Moreover, fiberglass mat tissue can be impregnated with diverse resin systems that enhance its capacity to resist corrosion. These resin systems offer supplementary safeguard against specific corrosive agents or environments, consequently heightening the effectiveness of the coating. Furthermore, the flexibility and moldability of fiberglass mat tissue enable it to conform effortlessly to intricate shapes and surfaces, guaranteeing comprehensive coverage and protection against corrosion. In conclusion, fiberglass mat tissue is a dependable and efficient material for corrosion-resistant coatings. Its impressive strength, corrosion resistance, and compatibility with various resin systems make it a suitable choice for shielding surfaces in corrosive environments.

Q: Is fiberglass mat tissue biodegradable?: No, fiberglass mat tissue is not biodegradable. Fiberglass is a synthetic material made from fine fibers of glass, which are woven together to create a strong and durable material. These fibers do not break down naturally over time, making fiberglass mat tissue non-biodegradable.

Q: Does fiberglass mat tissue provide any thermal insulation?: Yes, fiberglass mat tissue does provide thermal insulation. Fiberglass is a poor conductor of heat, which means it does not transfer heat easily. When used as a mat tissue, it helps to trap air within its fibers, creating a layer of insulation. This insulation layer acts as a barrier, preventing heat transfer through conduction and reducing thermal energy loss. Therefore, fiberglass mat tissue can be an effective solution for providing thermal insulation in various applications, such as construction, automotive, and aerospace industries.

Q: What are the different manufacturing processes for fiberglass mat tissue?: There are several different manufacturing processes for fiberglass mat tissue, each of which is designed to produce a specific type of mat with unique properties. One common manufacturing process is the wet-laid process. In this method, glass fibers are first chopped into small pieces and then dispersed in a water-based slurry. The slurry is then spread onto a moving screen or belt, allowing the water to drain away and leaving behind a mat of randomly oriented fibers. The mat is then dried and further processed to achieve the desired thickness and density. Another manufacturing process is the dry-laid process. In this method, glass fibers are first formed into a loose, fluffy mat using air or mechanical means. The loose fibers are then bonded together using a binder material, such as a resin or latex, which is sprayed onto the fibers. The binder cures, creating a cohesive mat with controlled thickness and density. A third manufacturing process is the stitch-bonded process. This method involves mechanically stitching individual glass fibers together using a series of needles. The needles pierce the fibers and interlock them, creating a bonded fabric. This process allows for the production of mats with high strength and dimensional stability. Finally, there is the spunbond process. This process involves extruding molten glass through fine spinnerets to form continuous filaments. The filaments are then collected onto a moving belt or screen, where they are bonded together using heat or a binder. This process produces mats with uniform fiber distribution and high strength. Overall, the choice of manufacturing process for fiberglass mat tissue depends on the desired properties of the final product, such as strength, thickness, density, and dimensional stability. Each process has its own advantages and disadvantages, and manufacturers will select the most suitable process based on their specific requirements.

Q: What is the expected lifespan of fiberglass mat tissue in cryogenic applications?: The expected lifespan of fiberglass mat tissue in cryogenic applications can vary depending on various factors such as the specific temperature, exposure time, and the quality of the material. However, in general, fiberglass mat tissue is known for its durability and resistance to extreme temperatures, making it suitable for long-term use in cryogenic applications. With proper installation and maintenance, it can potentially last for several years or even decades in such environments.

Q: Can fiberglass mat tissue be used for insulation in power plants?: Indeed, insulation in power plants can make use of fiberglass mat tissue. Renowned for its remarkable thermal insulation characteristics, this lightweight and pliable material serves as an effective thermal barrier in a multitude of applications, including power plants. By insulating equipment and pipelines, fiberglass mat tissue curbs heat dissipation, thereby bolstering energy efficiency and thwarting heat loss. Furthermore, given its non-combustible nature, fiberglass mat tissue emerges as an ideal option for insulation in environments where fire safety reigns supreme.