• E Glass  Fiberglass  Fabrics with High Quality System 1
  • E Glass  Fiberglass  Fabrics with High Quality System 2
  • E Glass  Fiberglass  Fabrics with High Quality System 3
E Glass  Fiberglass  Fabrics with High Quality

E Glass Fiberglass Fabrics with High Quality

Ref Price:
$1.00 - 10.00 / kg get latest price
Loading Port:
China Main Port
Payment Terms:
TT or LC
Min Order Qty:
2000kg kg
Supply Capability:
-

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Description:

E Glass Fiber Fabrics are bidirectional fabric made by interweaving direct rovings.
E Glass Fiber Fabrics are compatible with unsaturated polyester, vinyl ester, epoxy and phenolic resins.
E Glass Fiber Fabrics are a high performance reinforcement widely used in hand lay up and robot processes to manufacture boats, vessels, plane and automotive parts, furniture and sports facilities.
E Glass  Fiberglass  Fabrics with High Quality

Product Features:
 ● Warp and weft rovings aligned in a parallel and flat manner, resulting in uniform tension
 ● Densely aligned fibers, resulting in high dimensional stability and making handling easy
 ● Good moldability,  fast and complete wet out in resins, resulting in high productivity
 ● Good mechanical properties and high strength of parts

E Glass  Fiberglass  Fabrics with High Quality

Product Specifications:

Normal type

EWR800-1000

Test Standard

Apperance

Good

GB/T 18370-2001

Density(warpxweft)(end/cm)

1.8 X 1.5

GB/T 7689.2-2001

Tex (warpxweft)

2400x2400

ISO1889

Moisture content(%)

≤0.10

ISO3344

Loss on ignition(%)

0.40-0.80

ISO1887

Glass

E-glass

N/A

E Glass  Fiberglass  Fabrics with High Quality

FAQ:

1.What is the delivery time ?

15days after receiving the deposit

2.Are you a trading company or factory.

We are factory,and we have more than 10 years of experience.

Q:Can fiberglass fabric be used for filters?
Yes, fiberglass fabric can be used for filters. Fiberglass fabric is known for its high strength and durability, as well as its ability to withstand high temperatures. These properties make it an excellent choice for various filtration applications. The tight weave of fiberglass fabric allows it to effectively trap and remove particles, making it suitable for filtering air, liquids, and even gases. Additionally, fiberglass fabric can be coated with various substances to enhance its filtration capabilities, such as adding a Teflon coating for oil and water repellency. Overall, fiberglass fabric is a versatile material that can be used effectively in filtration systems.
Q:Can fiberglass fabrics be used for clothing or fashion purposes?
Yes, fiberglass fabrics can be used for clothing or fashion purposes, although they are not commonly used for everyday wear. Fiberglass fabrics are known for their strength, durability, and resistance to heat and chemicals. These properties make them suitable for specific applications in the fashion industry. For example, fiberglass fabrics can be used to create protective clothing for industrial workers or firefighters. They can also be used as a component in specialized sportswear, such as in the construction of athletic equipment like helmets or shin guards. Additionally, fiberglass fabrics can be incorporated into high-fashion designs to create unique and avant-garde garments. However, it is important to note that direct contact with fiberglass fabrics can cause skin irritation, so proper precautions and lining materials should be used to ensure comfort and safety.
Q:Can fiberglass fabric be used for making molds?
Indeed, molds can be made using fiberglass fabric. Fiberglass, a versatile material widely utilized in the construction and manufacturing sectors, is renowned for its robustness, longevity, and capacity to assume diverse forms. In the process of mold-making, fiberglass fabric is often overlaid with resin or epoxy to construct a firm and enduring framework. This amalgamation facilitates effortless release of the molded item and imparts a sleek surface. Fiberglass fabric finds utility in a multitude of mold-making endeavors, including the creation of prototypes, sculptures, and even industrial molds.
Q:Can fiberglass fabric be used for reinforcement in marine applications?
Yes, fiberglass fabric can be used for reinforcement in marine applications. It is commonly used in boat manufacturing and repairs due to its high strength, durability, and resistance to water and corrosion.
Q:Can fiberglass fabric be easily cut and sewn?
Yes, fiberglass fabric can be easily cut and sewn. Due to its relatively lightweight and flexible nature, fiberglass fabric can be cut using regular scissors or a utility knife. However, it is important to wear protective gloves and a mask while cutting fiberglass fabric to avoid any irritation or inhalation of particles. When it comes to sewing, fiberglass fabric can be sewn using a regular sewing machine or by hand with a heavy-duty needle and strong thread. It is advisable to use a longer stitch length and to go slowly while sewing fiberglass fabric to prevent any damage to the fabric or the sewing machine. Overall, with the right precautions and tools, cutting and sewing fiberglass fabric can be done easily.
Q:Is fiberglass fabric resistant to chemicals in mining operations?
Yes, fiberglass fabric is generally resistant to chemicals in mining operations. Fiberglass is known for its exceptional chemical resistance, making it an ideal choice for various industrial applications, including mining operations. It is highly resistant to a wide range of chemicals, including acids, alkalis, solvents, and corrosive substances commonly found in mining environments. This resistance ensures that the fabric remains durable and unaffected by chemical exposure, providing a reliable and long-lasting solution for protective clothing, equipment covers, and other applications in mining operations.
Q:Can fiberglass fabrics be used for insulation in HVAC ductwork?
Indeed, insulation in HVAC ductwork can be achieved by employing fiberglass fabrics. The utilization of fiberglass fabrics in HVAC ductwork insulation is widespread, owing to their remarkable thermal attributes and fire resistance. By enveloping the ductwork with a layer of insulation, these fabrics facilitate the reduction of heat transfer and the prevention of energy loss. Furthermore, fiberglass fabrics boast a seamless installation process and the ability to be tailored precisely to meet the unique demands of the ductwork. Moreover, their durability and resistance to moisture render them appropriate for application in both residential and commercial HVAC systems.
Q:Can fiberglass fabric be used for flags?
Certainly! Flags can indeed be crafted using fiberglass fabric. Renowned for its durability, strength, and ability to withstand weathering, fiberglass fabric proves to be an ideal material for outdoor purposes such as flags. Despite its lightweight nature, it remains tear-resistant, enabling flags fashioned from fiberglass fabric to endure powerful winds and adverse weather conditions. Moreover, the fabric can be effortlessly printed on, granting the opportunity for vivid and enduring flag designs.
Q:How does fiberglass fabric compare to carbon fiber fabric?
Fiberglass fabric and carbon fiber fabric are both popular materials used in various industries for their exceptional strength and durability. However, there are some key differences between these two fabrics that set them apart. One of the major differences is their composition. Fiberglass fabric is made from fine strands of glass that are woven together to form a fabric. On the other hand, carbon fiber fabric is composed of thin strands of carbon atoms that are tightly woven into a fabric. This fundamental difference in composition leads to variations in their mechanical properties and performance. In terms of strength, carbon fiber fabric has a higher tensile strength than fiberglass fabric. It is known for its exceptional stiffness and low weight, making it highly desirable for applications that require high strength-to-weight ratios. Carbon fiber is utilized in aerospace, automotive, and sports industries where lightweight and strong materials are crucial. Fiberglass fabric, on the other hand, offers good tensile strength but is generally less strong than carbon fiber. However, fiberglass fabric is known for its excellent impact resistance and can withstand high temperatures better than carbon fiber. This makes it suitable for applications where heat resistance and impact resistance are important, such as insulation, boat building, and electrical insulation. Another significant difference between these two fabrics is their cost. Carbon fiber fabric is considerably more expensive than fiberglass fabric due to the complexity and cost of the manufacturing process involved in producing carbon fiber. Fiberglass fabric, being more readily available and easier to produce, is comparatively more affordable. Additionally, carbon fiber fabric has a distinctive appearance with its black, glossy finish, while fiberglass fabric is typically white or off-white in color. This aesthetic difference can be a factor in certain applications where visual appeal is important. In summary, fiberglass fabric and carbon fiber fabric have their own unique properties and advantages. Carbon fiber fabric offers superior strength, stiffness, and lightweight characteristics, making it ideal for high-performance applications. Fiberglass fabric, on the other hand, excels in impact resistance and heat resistance, making it suitable for applications where these properties are crucial. Ultimately, the choice between these two fabrics depends on the specific requirements of the intended application, taking into consideration factors such as strength, weight, cost, and environmental conditions.
Q:How is fiberglass fabric tested for quality assurance?
Fiberglass fabric is rigorously tested to ensure its quality and performance. Several methods are employed during the quality assurance process to assess the fabric's properties and suitability for various applications. One of the primary tests conducted on fiberglass fabric is the tensile strength test. This test measures the fabric's ability to resist forces that tend to pull it apart. Tensile testing machines apply controlled loads to the fabric until it breaks, allowing for the determination of its maximum tensile strength. This test is crucial in assessing the fabric's durability and suitability for applications that involve high stress or load-bearing requirements. Another important test is the tear strength test, which measures the fabric's resistance to tearing or propagating a tear. In this test, a sample of the fiberglass fabric is subjected to a constant force, gradually tearing it apart. The force required to tear the fabric provides insight into its toughness and ability to withstand tearing forces, which is especially important in applications where the fabric may encounter sharp objects or abrasive conditions. Fiberglass fabric is also tested for its dimensional stability. This involves subjecting the fabric to extreme temperature variations and measuring its ability to maintain its shape and size. This test ensures that the fabric can withstand environmental conditions without shrinking or expanding, which is particularly crucial for applications that involve temperature fluctuations. Additionally, fiberglass fabric undergoes tests to evaluate its resistance to chemicals, moisture, and UV radiation. Chemical resistance tests involve exposing the fabric to various chemicals and evaluating its reaction, ensuring its suitability for applications where it may come into contact with corrosive substances. Moisture resistance tests assess the fabric's ability to repel water and resist mold or mildew growth. UV resistance tests determine the fabric's ability to withstand prolonged exposure to sunlight without experiencing degradation or loss of mechanical properties. Furthermore, the flame resistance of fiberglass fabric is assessed through flame tests. These tests involve exposing the fabric to a controlled flame and measuring its ability to self-extinguish or resist burning. Flame-resistant fiberglass fabric is essential for applications where fire hazards are present, ensuring the safety of individuals and the protection of property. Overall, fiberglass fabric undergoes a comprehensive range of tests to ensure its quality and suitability for various applications. By evaluating properties such as tensile strength, tear strength, dimensional stability, chemical resistance, moisture resistance, UV resistance, and flame resistance, manufacturers can provide high-quality fiberglass fabric that meets the specific requirements of different industries and applications.

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