Steel C35 is suitable for parts of slightly higher strength requirements and still low demands for ductility in vehicle, engine and machine engineering (e.g. gears, bolts, clutch parts).PropertiesGeneralPropertyTemperatureValueDensity20.0 °C7.82 g/cm³MechanicalPropertyTemperatureValueCommentElastic

CuZn40 (CW509L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn37. Corrosion resistance is similar to pure copper. Processing properties: warm forming: very good cold forming: goo

Material CuZn39Pb2, mat. No. CW612N, is an unhardenable wrought alloy. to the comparable make CuZn39Pb2, mat. No. 2.0380 acc. to DIN 17660 : 1983-12 applies: High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for the unleaded

Steel C45E is suitable for mean loaded parts of higher dimensions (large forged parts) and more complex form in vehicle manufacturing and machine engineering (e.g. shipshafts, transmission parts, wheel hubs). Lowest working temperature -25 °C, favorable creep behavior up to 480 °C. As a bright steel

CuTeP, mat. No CW118C, is counted among unhardenable, low alloyed copper alloys. To the comparable make CuTeP, mat. No 2.1546, acc. to DIN 17666 : 1983-12 applies: A strength increase is achievable only by cold forming. CuTeP is applicated as free-cutting alloy due to its favorable machinability. Th

CuTeP, mat. No CW118C, is counted among unhardenable, low alloyed copper alloys. To the comparable make CuTeP, mat. No 2.1546, acc. to DIN 17666 : 1983-12 applies: A strength increase is achievable only by cold forming. CuTeP is applicated as free-cutting alloy due to its favorable machinability. Th

CuSP, mat. No CW114C, is counted among unhardenable, low alloyed copper alloys. To the comparable make CuSP, mat. No 2.1498, acc. to DIN 17666 : 1983-12 applies: A strength increase is achievable only by cold forming. Already low S-contents increase the temperature for removal of workhardening to ap

CuSP, mat. No CW114C, is counted among unhardenable, low alloyed copper alloys. To the comparable make CuSP, mat. No 2.1498, acc. to DIN 17666 : 1983-12 applies: A strength increase is achievable only by cold forming. Already low S-contents increase the temperature for removal of workhardening to ap

The austenitic steel X6CrNiTi18-10 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up to

The austenitic steel X6CrNiNb18-10 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up to

The austenitic steel X6CrNiMoTi17-12-2 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (u

The austenitic steel X5CrNiMo17-12-2 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up

The austenitic steel X5CrNi18-10 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up to 3

The austenitic steel X3CrNiMo17-13-3 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up

The austenitic steel X2CrNiN18-10 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up to

The austenitic steel X2CrNiMoN17-13-5 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up

The austenitic steel X2CrNiMoN17-13-3 is available in the solution annealed condition. Welded circular tubes of this steel are used for compression load and for corrosive load at room temperature, low temperatures and elevated temperatures. The material is resistant to intercrystalline corrosion (up

Application for parts in industrial furnaces, steam boiler, petroleum plants, for thermometer sheath tubes. Best resistance to nitrogenous, oxygen deficient gases. Heat-resistance in air up to 1050°C. (highest application temperature).PropertiesGeneralPropertyTemperatureValueDensity20.0 °C7.76 - 7.9

X15CrNiSi25-20 shows scaling resistance up to max. 1150°C (highest application temp. in air). The steel is slightly resistant in reducing, sulfureous and carburizing athmosphere. Sigma phase embrittlement at temperatures of 600 to 900°C. Application for parts of heat-treatment furnaces, pyrolysis ap

The austenitic heat-resistant steel X15CrNiSi20-12, mat. No 1.4828 shows high scaling resistance up to max. 1000°C (highest application temp. in air). The steel has a high resistance to oxidizing athmosphere. Application for oven components, conveyor belts and insert boxes as well as in apparatus en