What Treatment Does

• Increases durability and wear resistance with minimum wear rate.
  
  
• Changes the entire mass and grain structure at molecular level of the material and not just the surfaces.
  
  
• Transforms most retained austenite to hard martensite
  (a 4X harder grain structure than austenite) in metal.
  
  
• Forms micro-fine carbide fillers to enhance carbide structures.
  
  
• Creates a denser molecular structure that results in a larger contact surface area that reduces friction, heat and wear.
  
  
• Promotes preferential precipitation of fine n-carbides in thermal and dimensional stability
  
  
• Enhances strength and toughness of martensite matrix and stability.
  
  
• Relaxes internal stresses and eliminate internal micro cracking, not visible to naked eye, causes by heat treatment and quenching process.
  
  
• Corrosion resistant from smoothing effect on surfaces.
  
  
• Increases conductivities and less resistant to electricity flow.
  

Cryogenics treats a wide variety of materials such as ferrous and non-ferrous metals, metallic alloys, cobalt, tungsten, titanium, carbides, and plastics including nylon, Teflon, and ceramics.

Deep Cryogenics Tempering process is not a substitute for heat treatment or a surface treatment; it is a supplementary process treatment that treats the entire mass of the material/tools/objects to its core which explains the benefits of one-time process required that last for life.