Location:Home> News

Characteristics of High Temperature Resistant Insulation Board

Time:2023-12-12 16:05:50

What are the characteristics of high-temperature insulation boards? It is made of high-temperature and high-pressure resistant resin, fiberglass alkali free cloth, and composite reinforcement material through molding and lamination, overcoming the problem of poor thermal insulation effect due to higher compression resistance with higher density. In terms of compressive strength, thermal insulation performance, and service life, it far exceeds traditional asbestos mineral wool materials.

【 Characteristics of High Temperature Resistant Insulation Board 】

1. It is resistant to high temperature and high pressure.

2. Excellent temperature and pressure resistance, strong chemical and water resistance.

3. Low thermal conductivity: For example, the thermal conductivity of ZC450 insulation board products on the market can reach 0.1. The thermal conductivity of PI240 can reach 0.14.

4. It has a long service life, high modulus, and is not easily deformed after long-term continuous use.
5. The large temperature difference saves energy.

6. Thickness tolerance: ± 0.05mm.

High temperature resistant panels are generally used in factories, shopping malls, and other places, with high requirements for their durability. According to their different materials, we can divide them into: high temperature resistant insulation panels, high temperature resistant stainless steel panels, high temperature resistant mica panels, and high temperature resistant insulation panels. Their properties and uses are also different, and consumers can purchase them according to their own needs.

Application fields of high-temperature insulation boards

The application of high-temperature insulation boards in daily life is very extensive, especially in all important industrial fields. In fact, nowadays, high-temperature insulation boards are very popular among consumers because their advantages are very obvious. Firstly, they have good high-temperature resistance performance, and some high-temperature insulation boards also have high-pressure resistance, In fact, the current price of high-temperature insulation boards sold in the market is relatively economical and has a very obvious advantage in water resistance. The temperature difference of high-temperature insulation board is relatively large during use, so it is relatively resource saving. Moreover, the usage time of high-temperature insulation board is relatively long, and even if used for a long time, there will be no deformation. Nowadays, the application range of high-temperature insulation board in China is very wide, especially in the field of heavy industry, Used very frequently.
Nowadays, influenced by both the market and the environment. More and more enterprises are joining the team of environmental protection and energy conservation. Especially traditional enterprises and heavy industry enterprises are seeking ways to save capital and enhance industrial economic value through energy conservation and environmental protection. The requirements for insulation materials in industrial chimneys, heating furnaces, steel ladles, rotary kilns, high-temperature steam pipeline valves, high-temperature molds, high-temperature forging furnaces, high-temperature desulfurization equipment, petroleum and petrochemical cracking equipment, construction, high-temperature heating kilns, high-temperature tools, and high-temperature equipment are becoming increasingly strict. Nanoporous thermal insulation materials not only need to have low thermal insulation coefficient in higher operating temperatures and more harsh corrosive environments, but also need to have thin layers, anti vibration, anti fatigue, anti temperature sudden changes, and anti erosion properties. Traditional thermal insulation materials are difficult to meet the requirements. With the continuous development of industrial technology, high-temperature resistant nano porous thermal insulation materials have emerged to prevent heat conduction.