There are two non-metal materials that come to mind. Ceramics and diamond can withstand high temperatures.
Nonmetal materials that can withstand high temperatures include ceramics (such as alumina and zirconia), refractory metals (like tungsten and molybdenum), and certain composite materials (such as carbon-carbon composites). These materials have high melting points and good thermal stability, making them suitable for high-temperature applications.
Materials that can withstand high temperatures typically have high melting points, strong molecular bonds, and stable crystal structures. Additionally, these materials may have heat-resistant coatings or additives that protect them from degradation at high temperatures. Examples include ceramics, refractory metals, and certain polymers.
a camel withstand high temperatures because they have stored water in their body
Materials such as tungsten, graphite, and ceramics like alumina are commonly used to withstand plasma due to their high melting points and good thermal conductivity. These materials are able to withstand the high temperatures and aggressive environment created by plasma.
Titanium(Ti)
If a substance is thermally unstable it means it breaks down at high temperature. It cannot withstand high temperature.
ceramic can withstand high temperature
The combustion chamber needs to withstand high temperatures generated during fuel combustion to prevent deformation or failure. Using materials like ceramics, superalloys, or refractory metals ensures the chamber can endure intense heat without melting or compromising structural integrity. This is crucial for efficient and safe operation of combustion engines and systems.
it is made under high temperature and pressure so it can withstand heat
fever results in increase in temperature where organisms get killed which connot withstand high temperature
Most materials can withstand Jupiter.
A space station is made from various materials such as aluminum, steel, titanium, and composite materials. These materials are chosen for their strength, durability, and ability to withstand the harsh conditions of space, including temperature fluctuations and high levels of radiation.