CryoHeat Alloy Data Sheet

CryoHeat Alloy Data Sheet

For more information on upgrading your metal components email us info@cryoheat.com #760-231-1394 

Material Type Specific Alloy Increased Specifications After Cryogenic Treatment
Austenitic Stainless Steels 304, 304L, 316, 321 Increased wear resistance, improved hardness, reduced residual stresses, enhanced corrosion resistance
Aluminum Alloys 1100, 3003, 5083, 6061-T6, 6063-T5 Improved wear resistance, increased hardness, reduced residual stresses
Copper OFHC, ETP Enhanced wear resistance, increased hardness, improved electrical conductivity
Nickel Alloys Inconel 718, Invar (Fe-36Ni) Increased wear resistance, improved hardness, reduced residual stresses, enhanced dimensional stability
Titanium Alloys Ti-6Al-4V Increased wear resistance, improved hardness, reduced residual stresses
High-Manganese Steels Fe-30Mn-0.11C (fine-grained) Enhanced wear resistance, increased hardness, reduced residual stresses
Brass and Bronze Various Improved wear resistance, increased hardness, reduced residual stresses
Niobium Various Enhanced wear resistance, increased hardness, reduced residual stresses
Nickel Steels Fe 3.25 Ni, Fe 5.0 Ni, Fe 9.0 Ni Increased wear resistance, improved hardness, reduced residual stresses, enhanced dimensional stability
H13 Tool Steel 0.4C-5.3Cr-1.4Mo-1.0V Increased wear resistance, improved hardness, enhanced toughness, better dimensional stability, reduced warpage
D2 Tool Steel 1.5C-12Cr-1Mo-1V Significantly improved wear resistance, increased hardness, enhanced dimensional stability, improved machinability
S7 Tool Steel 0.5C-3.25Cr-1.4Mo-0.4V Improved wear resistance, increased hardness, enhanced impact toughness, better dimensional stability

Tool Steel Type Specific Alloy Percentage Increase After CryoHeat Processing
H13 Tool Steel 0.4C-5.3Cr-1.4Mo-1.0V Wear Resistance: +20%, Hardness: +5%, Toughness: +15%
D2 Tool Steel 1.5C-12Cr-1Mo-1V Wear Resistance: +30%, Hardness: +8%, Dimensional Stability: +10%
S7 Tool Steel 0.5C-3.25Cr-1.4Mo-0.4V Wear Resistance: +25%, Impact Toughness: +20%, Dimensional Stability: +7%
M2 High Speed Steel 0.85C-4Cr-5Mo-2V-6W Wear Resistance: +35%, Hardness: +7%, Tool Life: +25%
A2 Tool Steel 1C-5Cr-1Mo-0.3V Wear Resistance: +22%, Hardness: +6%, Toughness: +12%

 

Tool Type Percentage Increase After Cryogenic Treatment
Bandsaw Blades (metal cutting) 300%
Bandsaw Blades (soft wood cutting) 280%
Cold Saws (metal cutting) 250-400%
Cold Saws (wood cutting) 250-400%
Stamping Dies 310%
Brush Cutter Blades 230%
Sawmill Chipper Knives (soft woods) 380%
Punch Press Tooling 320-425%
Sawmill Chipper Knives (hard woods) 270%
Plasma Torch Tip Consumables 360%
Veneer Lathe Knives 200%
Roller Chain 275-325%
Paper Cutting Knives (Circular) 330%
Paperboard Score Knives 340%
Abrasive Slurry Pumps 200%
Hot Tar Pumps 200%
Molder Knives 400%
Planer Knives 250%

 

Key Benefits of Cryogenic Treatment

  • Increased Hardness: Cryogenic treatment transforms retained austenite into martensite, increasing the hardness of the material.
  • Improved Wear Resistance: The process enhances the wear resistance of metals, making them more durable.
  • Reduced Residual Stresses: Cryogenic treatment relieves internal stresses, improving the overall stability and performance of the material.
  • Enhanced Corrosion Resistance: The precipitation of micro-fine eta carbides during cryogenic treatment improves the corrosion resistance of certain alloys.
  • Better Electrical Conductivity: For metals like copper, cryogenic treatment 

 

H13 Tool Steal Benefits From CryoHeat Treatment

 

 

 

 

D2 Tool Steal Benefits From CryoHeat Treatment

CryoHeat Process

cryogenics/cryogenic stress relieving/cryogenic tempering/metal strengthening

The CryoHeat Process provides huge performance gains to metal objects by completely stress relieving the metal. This promotes stronger metal that is more wear resistant, holding greater dimensional stability and capable of dissipating thermal temperatures much easier. CryoHeat has a proprietary process for all different types of metals and they are custom tailored for each application.

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Micropolishing & Deburring

CryoHeat Micropolishing produces a surface that has several key advantages over other “superfinishing” techniques or unfinished metal surfaces.  In addition to the aesthetic value for parts that are visible; there are many performance benefits to micropolishing.  The process will pay for itself, due to longer service life, and less part replacement.

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Magnetic Particle Inspection

The Magnetic Particle Inspection we go over all materials, components, or assemblies and look for discontinuities or differences in characteristics without destroying the serviceability of the part or system.

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Microshot Peening

CryoHeat Microshot Peening, also known as Vaporblasting or Vaporhoning, will give you a finish that is produced through flow of water borne abrasive, giving a finer finish due to the flushing action of the water. No media is impregnated into the component, nor is there any dust created by the break-up of media, unlike dry blasting where the finish is produced by sheer force of media impact.

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