Aluminum has a low melting point of 660°C (1220°F), which means it can warp or deform at high temperatures. However, the exact temperature at which warping occurs will depend on the specific alloy and other factors such as load, duration of exposure, and cooling rates. Aluminum alloys with higher strength and better heat resistance can retain their shape better at higher temperatures.
The application of heat in extremely high temperatures make metals malleable.
Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.
The coastal regions are mostly high temperatures. Hope that helped :)
low temperatures
Yes
aluminum foil
Batteries give of electricity, aluminum conducts electricity, electricity can have high temperatures.
Not a good idea. Most aluminum alloys will warp under the heat of a wood stove. Probable fire hazard.
Aluminum is derived from a rock called Bauxite, which consists of a mixture of up to three aluminum minerals. Bascally they mine it, smelt it (heat to very high temperatures) and you get aluminum. You'll probably get a better answer form someone who is more familiar with the process, but that's a very rough idea.
The application of heat in extremely high temperatures make metals malleable.
Warp yarns usually have more twist than weft yarns.
Milk of Magnesia laxative High performance automobile wheels (real "mags" not aluminum). Lightweight engine and machine parts which are NOT exposed to high temperatures. Fireworks Incendiary bombs
th normal summer high temperatures are 105.
When temperatures are high it causes the environment to heat up.
High temperatures cause rocks to expand
th normal summer high temperatures are 105.
Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.Nuclear fusion requires extremely high temperatures, and pressures.