• Refractory Heat Resistant Fiber Fabric System 1
Refractory Heat Resistant Fiber Fabric

Refractory Heat Resistant Fiber Fabric

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
1 m.t.
Supply Capability:
111 m.t./month

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Specifications

1.Refractory heat resistant fiber fabric 
2.Heat insulation 
3.white 
4.High strength 
5.MSDS, ISO9001-2008

                      Refractory Heat Resistant Fiber Fabric

It is a woven fabric made of our high quality ceramic fiber yarns. It can be used for high temperature applications up to1000° C. The cloth is reinforced with fiberglass filament, and optional stainless steel wire. It contains a certain amount of binder material which is normally burned at lower temperature and does not affect the insulation property.

Features of heat resistant fibe fabric

 

  1.Good handling strength

  2.Low  thermal conductivity and heat storage 

  3.Excellent thermal shock resistance

  4.Easy machining

  5.Low weight,eastic, flexible

  6.Excellent hydrophobic property

  7.Smooth surface and anti-tearing


Q:What are the different weight options for glass fiber textiles?
The weight options for glass fiber textiles can vary depending on the specific application and desired characteristics. They can range from lightweight options, such as 200-400 grams per square meter (gsm), to heavier options, such as 800-1200 gsm. The weight of the textile plays a significant role in determining its strength, durability, and flexibility, allowing for customized solutions in various industries such as aerospace, automotive, and construction.
Q:How do glass fiber textiles compare to synthetic fiber textiles?
Glass fiber textiles and synthetic fiber textiles differ in their characteristics. Glass fiber textiles are created by weaving or knitting fine strands of glass to form a fabric. They are renowned for their strength, durability, and resistance to heat and chemicals. Additionally, they exhibit exceptional dimensional stability, ensuring they do not easily stretch or shrink. These qualities make glass fiber textiles ideal for applications demanding high tensile strength, stability, and resistance, such as in the automotive and aerospace industries. In contrast, synthetic fiber textiles are composed of man-made fibers like polyester, nylon, or acrylic. These materials mimic the properties of natural fibers, such as silk or cotton, but offer additional advantages. Synthetic fiber textiles are typically lightweight, low-maintenance, and resistant to wrinkling and shrinking. They also possess moisture-wicking properties, making them suitable for sportswear and outdoor gear. Furthermore, synthetic fibers can be engineered to possess specific attributes, such as flame resistance or UV protection. When comparing glass fiber textiles to synthetic fiber textiles, one must consider the intended purpose and desired features. Glass fiber textiles excel in applications requiring strength, dimensional stability, and resistance to heat and chemicals. On the other hand, synthetic fiber textiles are more versatile and can be customized to meet specific requirements, such as moisture management or comfort. Ultimately, the choice between these two types of textiles depends on the specific needs of the application at hand.
Q:How to make a fishing boat with fiberglass cloth?
Do the best wood, plaster mold can also suggest that you go to see some part of the line made of FRP Yacht factory, some two dimensions can be
Q:How do glass fiber textiles contribute to lightweight construction?
Glass fiber textiles contribute to lightweight construction by providing strength and durability while being significantly lighter than traditional construction materials. The use of glass fiber textiles in building components such as walls, roofs, and facades reduces the overall weight of the structure, making it more efficient and cost-effective. Additionally, the flexibility and versatility of glass fiber textiles allow for design freedom and easy installation, further enhancing their contribution to lightweight construction.
Q:Can glass fiber textiles be used in reinforcement of jute fibers?
Glass fiber textiles are indeed capable of reinforcing jute fibers. By combining glass fiber textiles and jute fibers, one can augment the material's overall strength and durability. This technique of reinforcement finds widespread application in industries such as automotive, construction, and aerospace. Glass fibers bring high tensile strength and stiffness to the table, while jute fibers contribute natural properties like biodegradability and low density. Consequently, the amalgamation of these two materials presents a well-balanced and sustainable option for reinforcement purposes.
Q:How does the fiber length affect the properties of glass fiber textiles?
The fiber length affects the properties of glass fiber textiles by influencing their strength, stiffness, and durability. Longer fibers generally result in higher strength and stiffness, as they provide a larger surface area for bonding and interlocking. This leads to improved load-bearing capacity and resistance to deformation. Additionally, longer fibers can enhance the durability and resistance to wear and tear of the textile by distributing stress more evenly across the fabric. Overall, longer fiber length contributes to the overall performance and quality of glass fiber textiles.
Q:Do glass fiber textiles have good insulation properties?
Glass fiber textiles possess excellent insulation properties due to their network of tiny air pockets created by very fine strands of glass. This network effectively traps and slows down heat and sound, making glass fiber textiles outstanding insulators. Moreover, glass fibers exhibit low thermal conductivity, thus enhancing their insulation capabilities by inhibiting the easy conduction of heat. As a result, glass fiber textiles find frequent use in various applications requiring thermal insulation, including the construction, automotive, and aerospace industries.
Q:How do glass fiber textiles affect the colorfastness of fabrics?
Glass fiber textiles do not directly affect the colorfastness of fabrics. Colorfastness refers to the ability of a fabric to retain its color when exposed to various external factors such as light, washing, and rubbing. Glass fiber textiles, which are typically used as reinforcement materials in composite structures, do not have any inherent properties that can impact the colorfastness of fabrics. Colorfastness is influenced by various factors such as the dyeing process, type of dye used, fabric construction, and finishing treatments. While glass fiber textiles may be incorporated into the fabric structure, their presence alone does not impact the colorfastness properties. However, it is important to note that the manufacturing process and handling of glass fiber textiles can indirectly affect colorfastness. For example, during the production of glass fiber textiles, certain chemicals or treatments may be applied that could potentially affect the colorfastness of the fabric if not properly rinsed or removed during subsequent processing steps. Additionally, improper handling or storage of glass fiber textiles could lead to contamination of the fabric, which may impact colorfastness. In summary, glass fiber textiles themselves do not have a direct impact on the colorfastness of fabrics. However, proper handling and processing of these textiles, along with consideration of other factors such as dyeing processes and finishing treatments, is important to ensure optimal colorfastness of fabrics.
Q:Can glass fiber textile be used in architectural applications?
Glass fiber textile, commonly referred to as fiberglass, holds potential for use in architectural applications. This material possesses numerous advantages that cater to the field of architecture. It is lightweight, sturdy, long-lasting, and exhibits exceptional thermal and acoustic insulation properties. Due to these qualities, it can be employed in a variety of architectural functions, including cladding, roofing, partition walls, and facades. Architects can utilize glass fiber textile as a reinforcing agent in composite panels, providing structural reinforcement and augmenting the overall strength of a building. Furthermore, it can be shaped and molded into diverse forms, enabling the creation of inventive and original architectural designs. Moreover, the resistance of glass fiber textile to corrosion, moisture, and ultraviolet radiation renders it an optimal choice for exterior applications. It can endure severe weather conditions and necessitates minimal maintenance, offering a significant advantage for long-term architectural projects. Additionally, the implementation of glass fiber textile can enhance energy efficiency within buildings. Its exceptional insulation properties effectively reduce heat transfer, ultimately resulting in diminished energy consumption for heating and cooling purposes. This, in turn, contributes to sustainability endeavors while simultaneously lowering overall energy expenses. To summarize, glass fiber textile stands as a fitting material for architectural applications due to its lightweight nature, robustness, durability, insulation properties, and corrosion resistance. Its versatility and ability to enhance energy efficiency render it a popular selection for a wide range of architectural projects.
Q:Can glass fiber textiles be used in soundproofing applications?
Glass fiber textiles, also referred to as fiberglass, possess exceptional acoustic properties and can be utilized for soundproofing purposes. They can absorb sound waves and diminish their transmission through walls, floors, and ceilings. This renders them an ideal material for soundproofing in various settings like recording studios, theaters, offices, and residential buildings. Lightweight and flexible, glass fiber textiles can be effortlessly installed as a layer or panel on walls or ceilings. They exhibit a high sound absorption coefficient, enabling them to effectively absorb a substantial amount of sound energy. Consequently, this aids in reducing reverberation and echo within a space, leading to enhanced sound quality and speech intelligibility. Additionally, glass fiber textiles possess the added advantage of being fire-resistant, a critical factor for safety in soundproofing installations. They possess a high melting point and do not emit toxic fumes when exposed to fire, making them a secure choice for soundproofing applications. To summarize, glass fiber textiles are a suitable material for soundproofing purposes due to their remarkable acoustic properties, easy installation, and fire resistance. They can significantly diminish noise transmission, enhance sound quality, and establish a more comfortable and tranquil environment.

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