What Are Non-Fiberglass Materials That Withstand Over 500 Degrees?

In summary, heat resistant materials are able to withstand high temperatures without melting, deforming, or degrading. They work through a combination of physical and chemical properties, including a high melting point, low thermal conductivity, and good thermal shock resistance. Common examples include metals, ceramics, and composites, and factors such as maximum temperature, thermal conductivity, strength, and cost should be considered when choosing a material. Heat resistant materials are tested by subjecting them to high temperatures, measuring their properties, and conducting stress tests.
  • #1
tony walters
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0
hi,,, i work in an industry ,of were we produce aluminuim alloy which is rolled out at temperatures of 500 degrees , we are using a fibre glass based material for interleaving (stop metal to metal contact ) which as a tendency of breaking down to a fine powder substance , which then becomes an irritant to those that use them,

could anybody possibly point me in the right direction for a none fibre glass subtance , material that's hard wearing excessive of 500 degrees and above ,

would be much appreciated , Tony
 
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  • #2
Consider calcium silicate.
 

Related to What Are Non-Fiberglass Materials That Withstand Over 500 Degrees?

1. What are heat resistant materials?

Heat resistant materials are materials that are able to withstand high temperatures without melting, deforming, or degrading. These materials are used in various industries such as aerospace, automotive, and construction to protect equipment and structures from heat damage.

2. How do heat resistant materials work?

Heat resistant materials work through a combination of physical and chemical properties. They are designed to have a high melting point, low thermal conductivity, and good thermal shock resistance. This allows them to absorb and dissipate heat without transferring it to other materials or causing damage to themselves.

3. What are some common examples of heat resistant materials?

Some common examples of heat resistant materials include metals such as stainless steel and titanium, ceramics like alumina and silica, and composites like carbon fiber reinforced polymers. Other materials such as firebricks, refractory ceramics, and heat resistant coatings are also commonly used.

4. What factors should be considered when choosing a heat resistant material?

When choosing a heat resistant material, factors such as the maximum temperature it can withstand, its thermal conductivity, strength and durability, and cost should be considered. The material should also be compatible with the specific application and environment it will be used in.

5. How are heat resistant materials tested?

Heat resistant materials are tested in various ways, including subjecting them to high temperatures in controlled environments, measuring their thermal conductivity and thermal expansion, and conducting stress tests. These tests help to determine the material's ability to withstand heat and its overall performance in different conditions.

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