Fiber Glass Mesh
Fiberglass mesh is a material commonly used in construction and various industrial applications. It is made from strands of glass fibers woven or bonded together to form a mesh-like structure. The fibers are typically coated with a resin for added strength and durability.
Key Features
Fiberglass mesh is known for its high tensile strength, making it suitable for reinforcing materials such as concrete or plaster. It adds structural integrity and helps prevent cracking and fracturing.
Despite its strength, fiberglass mesh remains flexible, allowing it to conform to curved surfaces or irregular shapes without compromising its reinforcing properties.
Fiberglass is inherently resistant to corrosion and many chemicals, making it suitable for use in harsh environments or applications where exposure to corrosive substances is a concern.
Compared to traditional metal mesh materials, fiberglass mesh is lightweight, which can simplify handling and installation processes.
Fiberglass mesh is typically non-combustible and offers good fire resistance properties, making it suitable for applications where fire safety is important.
Fiberglass mesh maintains its shape and dimensions even under extreme temperature variations, ensuring long-term performance and stability.
Applications
Residential
Buildings
Commercial
Structures
Industrial
Facilities
Educational
Institutions
Healthcare
Facilities
Fiber Glass Cloth
Fiber Glass Cloth
Fiberglass cloth, also known as fiberglass fabric or fiberglass textile, is a versatile material woven from fine glass fibers. It is widely used across various industries for its exceptional strength, durability, and heat resistance. Here’s a detailed description of fiberglass cloth
Key Features
Fiberglass cloth is primarily composed of glass fibers, typically made from molten glass drawn into thin strands. These fibers are then woven together in a tight, uniform pattern to form a cloth-like material. The glass fibers may be treated with special coatings or finishes for specific applications.
One of the key characteristics of fiberglass cloth is its high tensile strength. Despite its lightweight nature, fiberglass cloth exhibits excellent resistance to tearing and stretching, making it ideal for applications requiring reinforcement or structural support.
Fiberglass cloth possesses remarkable heat resistance properties, capable of withstanding high temperatures without degrading or melting. This makes it suitable for use in applications where exposure to heat or flames is a concern, such as insulation, fireproofing, and protective clothing.
Fiberglass cloth is resistant to many chemicals, including acids, alkalis, and solvents. This chemical inertness makes it suitable for use in corrosive environments or applications where exposure to harsh chemicals is prevalent.
Despite its robustness, fiberglass cloth remains flexible and easy to manipulate, allowing it to conform to curved surfaces or intricate shapes. This flexibility enhances its versatility and makes it suitable for a wide range of applications in various industries.
Fiberglass cloth exhibits excellent electrical insulation properties, making it a preferred material for electrical insulation components, such as insulating tapes, sleeves, and barriers. It provides reliable insulation against electrical currents and minimizes the risk of electrical hazards.
Applications
Industrial
Processes
HVAC (Heating, Ventilation, and Air Conditioning) Systems
Commercial
Building Insulation
Residential
Construction
Equipment
Insulation
{this product is replaced with fevicol duct king}Silicon Coated Fiber Glass Fabric
Silicon-coated fiberglass fabric is a specialized type of fiberglass cloth that has been treated with a layer of silicon elastomer or silicone rubber. This coating imparts unique properties to the fiberglass fabric, enhancing its performance and expanding its range of applications. Here’s a detailed description of silicon-coated fiberglass fabric
Key Features
Silicon-coated fiberglass fabric starts with a base of fiberglass cloth, woven from fine glass fibers. The fabric is then coated with a layer of silicone elastomer or silicone rubber. The silicone coating may be applied to one or both sides of the fabric, depending on the intended application and desired properties.
One of the primary advantages of silicon-coated fiberglass fabric is its exceptional heat resistance. The silicone coating provides a protective barrier that enhances the fabric’s ability to withstand high temperatures, making it suitable for use in applications where exposure to heat or flames is a concern. Silicon-coated fiberglass fabric can typically withstand temperatures ranging from several hundred to over a thousand degrees Fahrenheit, depending on the specific grade and thickness of the silicone coating.
Silicon-coated fiberglass fabric exhibits excellent weather resistance, making it suitable for outdoor applications exposed to harsh environmental conditions. The silicone coating provides protection against moisture, UV radiation, oxidation, and other weathering factors, ensuring long-term durability and performance.
Despite the addition of the silicone coating, silicon-coated fiberglass fabric remains flexible and easy to manipulate. It can conform to curved surfaces or complex shapes, making it versatile and adaptable for various applications in industries such as aerospace, automotive, marine, and manufacturing.
The silicone coating enhances the chemical resistance of fiberglass fabric, providing protection against acids, alkalis, solvents, and other corrosive substances. This chemical inertness makes silicon-coated fiberglass fabric suitable for use in applications where exposure to harsh chemicals is prevalent, such as chemical processing, petrochemical, and industrial manufacturing.
Silicon-coated fiberglass fabric maintains the excellent electrical insulation properties inherent to fiberglass cloth. The silicone coating adds an additional layer of insulation and protection against electrical currents, making it suitable for use in electrical insulation applications, such as insulating sleeves, blankets, and barriers.
The silicone coating on fiberglass fabric creates a non-stick surface that resists adhesion of sticky substances, oils, and greases. This property makes silicon-coated fiberglass fabric ideal for use in applications requiring release properties, such as conveyor belts, gaskets, seals, and non-stick baking sheets.
Applications
Industrial Piping Systems
HVAC (Heating, Ventilation, and Air Conditioning) Systems
Process Piping in Manufacturing
Commercial Building Pipework
Residential Plumbing Systems
Fevicol Duct King & UB Paints
Key Features
The coating may offer thermal insulation properties, helping to reduce heat loss or gain through ductwork, improving energy efficiency, and maintaining desired indoor temperatures.
It likely provides a protective barrier against moisture, condensation, and humidity, which can help prevent mold growth, corrosion, and damage to ductwork.
The coating is expected to be durable and long-lasting, providing reliable protection and insulation over the lifespan of the HVAC system.
Some coatings offer UV resistance, protecting ductwork from degradation and discoloration due to exposure to sunlight.
Certain coatings may have fire-resistant properties, meeting fire safety standards and regulations for HVAC systems.
The coating may be easy to apply, either by brushing, spraying, or rolling onto duct surfaces, allowing for efficient installation.
It should adhere well to various duct materials such as metal, fiberglass, or PVC, and be compatible with different HVAC system configurations.
Many modern coatings are formulated to be environmentally friendly, with low VOC (Volatile Organic Compound) emissions and minimal environmental impact.
Applications
Industrial Piping Systems
HVAC (Heating, Ventilation, and Air Conditioning) Systems
Process Piping in Manufacturing
Commercial Building Pipework
Residential Plumbing Systems
Bitumen Laminated Hessian Cloth
Bitumen laminated hessian cloth is a specialized material used in various construction and industrial applications for its waterproofing and protective properties. Here’s a detailed description of bitumen laminated hessian cloth
Key Features
Bitumen laminated hessian cloth combines two main components: hessian cloth and bitumen. Hessian cloth, also known as burlap, is a coarse woven fabric made from natural fibers, typically jute. Bitumen, a viscous black or dark brown petroleum product, serves as a waterproofing agent and adhesive.
The primary purpose of bitumen laminated hessian cloth is waterproofing. The bitumen coating applied to the hessian cloth creates a waterproof barrier that prevents the passage of water, making it suitable for applications where moisture protection is essential.
Bitumen laminated hessian cloth is known for its durability and resilience. The bitumen coating adds strength to the hessian cloth, enhancing its resistance to tearing, puncturing, and other forms of mechanical damage. This durability ensures long-term performance in harsh environmental conditions.
In addition to its waterproofing properties, bitumen laminated hessian cloth may provide some level of thermal insulation, depending on the thickness of the bitumen coating. This insulation can help regulate temperature and prevent heat loss or gain in certain applications.
Despite its durability, bitumen laminated hessian cloth remains flexible and pliable, allowing it to conform to irregular surfaces and contours. This flexibility makes it versatile and adaptable for various construction and industrial applications.
The bitumen coating serves as an adhesive, enabling bitumen laminated hessian cloth to adhere firmly to surfaces such as concrete, wood, metal, and other building materials. This strong adhesion ensures secure installation and effective waterproofing.
Bitumen laminated hessian cloth is commonly used in construction for waterproofing applications such as roof underlayment, foundation damp-proofing, and lining of water tanks and reservoirs. It is also used in industrial settings for wrapping and protecting pipes, equipment, and machinery exposed to moisture.