There tends to be a very big difference when it comes to the difference between steel hardness and steel hardenability. Hardenability tends to focus more on the level at which a given type of metal can harden. When hardening steel, for example, it can only harden as much as the carbon content in it can sustain. It is also essential to remember that more carbon content in a metal tends to lead to a harder metal. Orange steel treating company uses the highest temperatures to treat and heat the steel.
You would also need to remember that the hardenability characteristics tend to highly influence the resultant harness of a metal. Metal hardening tends to be geared towards increasing toughness as well as ductility. Hardening of metal also tends to involve tempering which tends to involve holding of metal at a specific temperature before cooling the metal in question. The preheating process tends to reduce brittleness as well as make the carbon to precipitate into carbide particles.
One would also need to know that strengthening of the metal may also call for solid solution hardening, transformation hardening, cold working, among other processes. Precipitation hardening tends to be perfect when it comes to the development of high strength steel and also tends to be used in aluminum alloy. Cold working, on the other hand, tends to stress the metal’s crystals and deform the metal in question with the intention of making it harder. There tend to be instances when the hardening tends to make the metal brittle and make it prone to splitting and cracking which calls for tempering of the metal in question. Orange’s best metal heat treating company gives all this services.
Solid solution tends to focus on decreasing ductility and at the same time increasing strength of a metal. The transformation hardening is also known to be used in the adjustment of a metal’s ductility and strength. The heat treatment basically tends to focus on changing the grain structure of a metal. Metal treatment tends to involve cooling and heating procedures with the intention of changing the metal properties.
In some instances, the metal at the core tends to be left soft while the outer metal tends to be hardened to reduce instances of wear. When hardening the outer layer, carbon tends to be used and tends to be sunk up to a given depth. The intention of hot isostatic pressing tends to focus on removing any metal porosity improving its mechanical properties through compressing out any gas that may be trapped in the metal in question. The hot isostatic pressing may be involved when in improving titanium, chrome, as well as stainless steel metals used in aircraft components and engines.