Fiberglass tissue ;is a non-woven felt made of randomly oriented glass fibers distributed in a special binder by a wet-lay process. This material is used in composite surface applications. It adds smoothness, luster, and cleanliness of color to the surface - and it improves water resistance and durability of the product. Ideal for reinforcement of flooring and roof materials.
Applications
FGT Series fiberglass tissue is available in a variety of densities and reinforcement spacing options.
Serves as a wrap for both underground and overground pipeline systems to counter natural and artificial corrosion. Good for waterproofing applications and waterproofing in the form of roofing felt.
Benefits
Serves as both a reinforcement and protection system.
Compatible with bitumen and coal tar enamels.
Superior strength characteristics due to longitudinal reinforcement with glass yarn.
Fiberglass Mat ;is one of the most popular forms of reinforcement for non-structural applications. It's inexpensive, easy to use, and can quickly build thickness into parts, molds, or even a repair. It features randomly oriented strands throughout that effectively hide print-through of heavier fabrics and create an equal stiffness in all directions for molds and parts.
Note: All Fiberglass Mat is made to be used with resin to create hard, composite parts. However, it is NOT compatible with epoxy resin. Mat has a light binder that holds it together. During lay-up, it requires styrene to break down that binder and allow for complete resin saturation. Epoxy does not contain styrene and therefore cannot be effectively used with the mat. Use polyester or vinyl ester resin for these applications.
A ceramic granule ;is obtained by granulating at least one ceramic particle into a granule together with a binder, optionally classifying the ceramic granule to remove fine particles having a particle size of not more than 10 μm, moistening the granulated ceramic granule in an agitation fluidized-bed under the conditions of not aggregating said ceramic granule and regulating the water content of the moistened ceramic granule by fluidizing and drying the moistened ceramic granule in the agitation fluidized bed in such a manner that the resultant granule has a water content within the range which maintains a flowability sufficient for packing the ceramic granule in a mold in which the ceramic granule exhibits well-balanced properties of a crushing property at low pressure and an anti-collapse property, excels in flowability, packing property into a mold, and anti-sticking property, and has well-balanced properties of a crushing property at low pressure and an anti-collapse property. This ceramic granule can be continuously molded into a ceramic product having high dimensional accuracy.
Among reinforcements, Fiberglass Fabrics ;continue to be the most commonly used reinforcement in the composites industry today. Generally, they are the least expensive among reinforcements and offer ease in handling. And when combined with resin, deliver composite parts with excellent strength, low weight, and great cosmetics.
All Fiberglass Fabrics are woven for fiber orientation, and each fabric features its own unique weight, strength, and fabric characteristics, which should be considered before starting any project.
Cures as Transparent, Protective Surface Layer
Particularly lightweight and thin, our #241 2-ounce Plain Weave Fiberglass is ideally suited as a surface layer for aerospace and marine applications. Use it to minimize print-through of heavier fabrics within a lamination, or as a sanding veil over other fabrics—it will cure as a transparent, protective barrier.
Like other plain weaves, it delivers uniform strength in both horizontal and vertical directions, with warp and fills yarns at 0 and 90 degrees, respectively. ;
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Features
Lightweight and bends around tight corners
This fabric features high conformability and excellent finish
Uniform horizontal and vertical strength
Minimize print of laminate fabrics
Cures transparent
If requested, this fabric can be certified to meet the requirements of AMS-3824 Style 1610 and ASTM D 4029-09 Style 1610.
Render fiberglass mesh ;for plaster and cement interior and exterior wall as a base coat and finish coat, which can reinforce the wall strength and avoid the deformation of insulation construction caused by outside momentum of collision or squeeze.
Fiberglass grid cloth can be used for facade thermal insulation works for walls to reinforce the complete wall resistance and tension and strength. Fiberglass netting mesh 140g(145g) and 160g(165g)
The completed warp and weft thickness depend on fiberglass mesh roll density or grammage. The latex-coated fiberglass netting density is larger, the thickness of latitude and longitude is more, while the stucco fiberglass mesh quality and performance are up to the density and production process. Glass fiber mesh is necessary to evaluate its value. ;
EIFS mesh is made of C/E-class impregnated with alkali-resistance solution, also it has a stable fiber structure, therefore fiberglass grid netting is against alkali existing in the chemical composition of plaster and coating.
When it comes to demanding applications that require strong and durable fabrics, polyester nonwovens ;offer a great option. Nonwoven polyester fabric can be created from 100% polyester filament or polyester blend. Nonwoven polyester is an excellent choice for a wide range of application needs including industrial filter materials, medical and hygiene products, construction materials, telecom products, agricultural fabric, and more.
A variety of fabric treatment options are available to endue polyester nonwoven materials with specific beneficial characteristics. These attributes may include:
Anti-Microbial/Anti-Bacterial
Anti-Static
Biodegradable
Dry Cleaning Resistance
Flame Retardant
Heat Sealability
Hydrophilic
Depending on the manufacturer, polyester nonwovens can be fabricated in custom colors and printing.
Fiberglass yarn ;is electrical insulation materials, electronic industrial fabrics, tubes, and other industrial fabric raw materials. It is widely used for circuit boards, weaving all kinds of fabrics in the scope of reinforcement, insulation, corrosion resistance, heat resistance, and so on.
Application
1. Woven Fiberglass mesh (general yarn for warp, roving for weft)
2. Weaving various electronic cloth
3. Braided cable wire Cladding
4. Braided casing
5. Braided fuse
6. Insulation materials for making electrical windings, etc.
Ceramic fiber ;rope has excellent heat resistance, continuous use temperature up to l260℃, excellent resistance to acid, oil, and water vapor, corrosion resistance to non-ferrous molten metals such as aluminum and zinc, excellent high-temperature strength, and excellent tensile strength The strength and low thermal conductivity make the products have excellent heat insulation performance, excellent electrical insulation, non-toxic and harmless, and have no adverse effects on the environment.
Features
1. Low thermal conductivity, thermal shock resistance, and low heat capacity.
2. High-temperature insulation performance.
3. It has good low temperature and high-temperature strength.
Application
Ceramic fiber rope can replace asbestos textiles and is widely used in fire resistance, heat insulation, fire protection, and sealing in industrial sectors such as metallurgy, chemical industry, ceramics, glass, refractory materials, ships, aviation, automobiles, machinery, electronics, building materials, light industry, etc.; friction system Motion, noise reduction, high-temperature filtration, and other fields.
Heat insulation material is based on the rigid closed-cell (no less than 95%) polyisocyanurate foam (PIR). The boards are laminated with kraft paper, cardboard, glass fiber, aluminum foil or multilayer laminate (incl. water-resistant foil with paper foundation), and paper laminated with polyethylene. Due to their structure and production features PIR heat insulation boards ;have low thermal conductivity, low water absorption, high strength, and high fire resistance. PIR thermal insulation boards are a thermal insulation material.
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