Revolutionizing Metal Performance with Deep Dry Cryogenic Treatment
Leverage our proprietary process to supercharge Strength, Durability & Precision
Key Benefits of Deep Dry Cryogenic Treatment
Significantly Enhance Wear Resistance
Reduce tool/die wear and extend operational lifespan—lowering changeover time
Relieve Thermal & Mechanical Stresses
Stabilize the material structure to prevent premature failure and distortion
Improve Core Mechanical Properties
Increase tensile strength, ductility, and overall toughness—without compromising hardness
Ensure Dimensional Stability
Maintain precise tolerances even under extreme thermal and mechanical cycling
Elevate Surface & Functional Performance
Improve surface finish, corrosion resistance, and electrical/thermal conductivity
Decoding Deep Dry Cryogenic Treatment
Deep dry cryogenic treatment (DDCT) is a controlled thermal process where metal components are slowly cooled to ultra-low temperatures, typically around -190°C using atomized liquid nitrogen, and held there for an extended period—usually 12 to 36 hours.
Crystal Lattice Densification
Reduction in lattice imperfections and dislocations leads to a more refined and stable microstructure, improving strength and fatigue resistance.
Eta (η) Carbide Precipitation
Fine, uniformly distributed eta carbides form during and after the cryogenic cycle, enhancing wear resistance and hardness.
Phase Shift to Martensite
Retained austenite converts into hard martensite, improving dimensional stability and overall hardness.
Refinement of Grain Boundaries
DCT promotes a more uniform distribution of carbides and can lead to finer grain boundaries, improving toughness and resistance to crack propagation.
and many more...Reliability isn't a luxury—it's a necessity
We get it—unreliable equipment disrupts operations and kills productivity. Our cryogenic solution ensures your metal parts stay tougher, last longer, and perform exactly when you need them to.