The cryogenic treatment of turbochargers can extend the life and improve the performance of turbo parts made of aluminum, titanium, magnesium, or stainless steel alloys. During this computer-controlled process, the temperature of the turbocharger is gradually reduced to -300° F and then kept at this cryogenic temperature for 24 hours. By promoting the transformation of […]
Cryogenic treatment of your metal motorsports components can extend parts life and promote performance. The cryogenic metal treatment process uses a computer-controlled program that gradually reduces the temperature of automotive parts to -300°F and keeps them at this cryogenic temperature for 24 hours. By doing this, cryogenic metal treatment promotes a transformation of retained austenite […]
Cryogenic treatment for engines relieves residual stresses in the metal caused by casting, forging, or machining operations. Cryogenic engine treatment also improves wear resistance and heat dissipation.