Calcium aluminate cement and lime will work the best as the cement in hot cooking conditions- this applies to refractory concrete as well as to heat resistant mortars. (lime is sometimes mixed into fire clays. This is mixed like a normal cement based mortar, but with half the cement replaced with the lime.
How to Make Heat Resistant Concrete?
Heat resistant concrete is a type of concrete that is designed to withstand high temperatures for long periods of time. It is commonly used in industrial and commercial applications, such as fireplaces, furnaces, and boilers.
Heat resistant concrete is created by combining special aggregate, cement, and admixtures in specific proportions and curing the mixture in a controlled environment.
This type of concrete is strong and durable, and can withstand temperatures of up to 1800 degrees Fahrenheit. Heat resistant concrete is made by using special aggregates and cement, as well as admixtures that are designed to reduce the thermal conductivity of the concrete.
Aggregates such as silica sand, quartzite, and fireclay are commonly used in combination with Portland cement and water. The admixtures used in heat resistant concrete include silica fume, fly ash, and metakaolin.
These substances help to reduce the thermal conductivity of the concrete, which helps to reduce the amount of heat transferred from the interior of the concrete to the exterior.
Heat resistant concrete can be used in a variety of applications, such as fireplaces, furnaces, and boilers.
When used in these applications, the concrete must be able to withstand the intense heat generated by the equipment. In addition, the