Heat Treated

Caramelized fabric, Desized fabric (Fiberglass fabric, Ceramic fabric, E glass needle mat)

Heat treated is also called heat clean,  desized,  a high temperature process of removing the organics from the glass fabric or ceramic fabric. After heat treated, the fabric's organics will reduce to minimum range and make the fabric smoke free and clean to coat with polymer or wet. 
All the EAS's glass fabric and ceramic fabric can be heat treated. 

Heat treatment is a crucial process in metallurgy that involves heating and cooling metals to alter their physical and mechanical properties. One of the key products resulting from this process is Heat Treated metal, which has gained widespread popularity due to its exceptional strength, ductility, and corrosion resistance.

Heat Treated metal is produced by subjecting raw metal to specific temperature ranges and cooling rates to achieve desired microstructures and properties. This results in the formation of different phases within the metal, such as ferrite, austenite, and carbide, depending on the alloy composition and heat treatment parameters.

One of the primary benefits of Heat Treated metal is its enhanced strength. By controlling the grain size and distribution of the metal's microstructure, heat treatment can significantly increase its yield strength and ultimate tensile strength. This makes Heat Treated metal ideal for applications requiring high load-bearing capacity, such as engine parts, gears, and fasteners. The improved strength also translates into increased fatigue resistance, allowing Heat Treated components to withstand repeated loading without failure.

In addition to strength, Heat Treated metal also exhibits excellent ductility. By controlling the degree of hardening through heat treatment, manufacturers can achieve the desired balance between strength and ductility. This ensures that Heat Treated components can undergo deformation without breaking or cracking under stress. Ductility is particularly important in applications where flexibility and formability are required, such as springs, shafts, and sheet metal products.

Another advantage of Heat Treated metal is its superior corrosion resistance. The heat treatment process can enhance the formation of protective oxide layers on the surface of the metal, providing a barrier against corrosive elements. This makes Heat Treated components suitable for use in harsh environments, such as marine applications or industrial facilities exposed to chemicals and saltwater. The improved corrosion resistance also extends the service life of Heat Treated metal components, reducing maintenance costs and downtime.

Furthermore, Heat Treated metal offers excellent machinability. The controlled microstructure resulting from heat treatment allows for easier cutting, drilling, and grinding operations compared to untreated metals. This reduces production time and costs while ensuring precision and accuracy in manufacturing processes. Machinability is particularly important in industries that require complex geometries and tight tolerances, such as aerospace and automotive components.

Heat Treated metal finds application in various industries where high performance and long-lasting components are essential. In the automotive industry, it is widely used in engine parts, suspension systems, and body panels due to its strength and durability. In the aerospace industry, Heat Treated metal components are used in aircraft structures, landing gears, and propellers where weight reduction and improved fatigue resistance are critical factors. Additionally, Heat Treated metal is utilized in construction materials such as reinforcing bars, bolts, and screws due to its high strength-to-weight ratio and resistance to corrosion.

The unique selling proposition of Heat Treated metal lies in its ability to deliver superior performance and reliability in demanding applications. Its combination of strength, ductility, corrosion resistance, and machinability makes it an ideal choice for industries seeking cost-effective solutions that can withstand extreme conditions. Moreover, Heat Treated metal contributes to sustainable development by reducing material waste and extending component lifespans.

In conclusion, Heat Treated metal is a valuable product resulting from heat treatment that offers numerous advantages over untreated metals. Its enhanced strength, ductility, corrosion resistance, and machinability make it ideal for applications requiring high performance and long-lasting components. As industries continue to demand more durable and efficient solutions, Heat Treated metal will undoubtedly play a significant role in meeting these demands while contributing to sustainable development.

Keywords:

• HT800 fiberglass fabric
• welding fire blanket
• fiberglass blanket