What Responds Best to Deep Cryogenic Treatment?

mining and Road construction equipment

DCT of cone crusher liners and mantles, slurry pumps, ground engagement tools, drills, asphalt milling teeth, augers, paste pump items and other high wear components will reduce maintenance, repair and overhaul by 30% while increasing uptime. Whether 18-22% manganese, high chrome white iron or alloy steel - use deep cryogenic treatment to extend wear life.

Additive Manufactured Parts

Additive manufacturing (AM) offers many design, production and manufacturing advantages over "subtractive" manufacturing (milling, lathe turning, forging and casting). However, the AM process often introduces material voids and structural defects during deposition and layering. These contribute to fatigue cracking, fracture and accelerated wear. DCT can improve AM parts by reducing grain structure defects and increasing mechanical properties such as universal tensile strength, yield strength, resistance to high temperature creep, surface finish and wear.

Gears

From gas turbine hot sections, nuclear and diesel generators to electric vehicles, industrial compressors and a wide array of power generation equipment, DCT of 8620/52100/9310 and 440C gears provides almost a doubling in wear life and a substantial increase in operational uptime. DCT helps break the ceiling on the 32,000-hour power generation threshold, allows electric vehicles to range further on existing battery life and increases mean time between failure on locomotive turbo-mechanical equipment.