Changing building needs have focused on the use of technology in different ways. One such application is the use of heat resistant plaster. It is the dedicated building material used in the chimney breasts and coating walls. It can be used as a fire barrier on multiple ceilings.
Let us learn all about the use of temperature-resistant plaster. We’ll cover the properties and the best advantages of this heat resistant plaster. We’ll also understand the vitcas heat resistant plaster, which is the heat-proof and high-temperature plaster with a smooth finish.
What is heat resistant plaster?
Plaster is a widely used building material made up of sand, water, gypsum, and lime (calcium hydroxide). It is used to coat different partitions, ceilings, and walls. Any plaster aims to improve the appearance while making high on the cleanliness and durability of the materials. The heat resistant plaster is one of the newest forms of plasters.
The temperature resistant plaster is used for coating the chimney breasts and the walls of the buildings. It is a successful replacement of the traditional gypsum plasters and hence can be used in installations where temperatures are set to go higher than 50 degrees Celsius.Â
Properties of the heat resistant plaster?
Some of the main properties of the heat resistant plaster are:
It has a low expansion coefficient and hence doesn’t expand much when it crystallizes to solid form.
It is one of the most dimensionally stable building materials.
It is relatively available in the market and comes in different varieties to suit the project needs.
The different types of heat resistant plaster have other individual properties like surface characteristics, workability, fineness, water required, strength, hardness, etc.
It is predictable, has low cost, and has high homogeneity.
It can be used in the art of sculpting based on its characteristics of the quick application, quick-dry, and multiple uses.
Advantages of the heat resistant plaster:
Some of the key advantages of the heat resistant plaster are:
It can be quickly applied for decorative purposes while serving the idea of keeping the building high on fire-resistant properties.
It has low thermal conductivity and keeps the electricity costs for maintaining the building cool or hot according to seasonal needs.
The heat resistant plaster is readily available in the market from different service providers. Hence, the prices are competitive, never out of supply.
It can be applied quickly without strict quality supervision like cement plaster. It doesn’t need the addition of other products and hence can be used easily on surfaces.
It offers levelled walls, perfectly lined surfaces, and right-angled corners for perfection in designs.
It has excellent high strength after drying and remains lightweight while eliminating the dead load on the buildings.
It can be applied quickly compared to the traditional cement plasters.
There is no need for curing time, and hence it increases the speed of the construction process.
It sets quicker than the other plasters, and hence paint can be started accordingly with no delay.
It is one of the highly workable plasters and hence requires no specialised technical skills for use.
Heat resistant plaster example
The Vitcas heat resistant plaster is a popular product that can eliminate fire and heat challenges of up to 650 degrees Celsius. It is ideally used in wood-burning stoves and cassette fireplaces.
Conclusion
Hence, it is easy to understand all about the heat resistant plaster. Ideally termed as the temperature control plaster, it becomes easy to apply this plaster on different buildings. All the places prone to fire go for this plaster to eliminate any disastrous situation. It is one of the essential products for raising the standards of fire grading.
After going through the definition, properties, and advantages of the heat resistant plaster, it is easy to go through the application of vitcas heat resistant plaster. A quick look at the top questions related to heat resistant plaster makes the concept easy to review and understand.