CuSn8, mat. No. CW453K, is comparable to the DIN-make CuSn8, mat. No. 2.1030, acc. to DIN 17662 : 1983-12. Properties of the CuSn-alloy are predominantly determined by the tin-content. Tensile strength, yield point and hardness increase according to the rising cold forming grade, elongation after fr

CuSn8, mat. No. CW453K, is comparable to the DIN-make CuSn8, mat. No. 2.1030, acc. to DIN 17662 : 1983-12. Properties of the CuSn-alloy are predominantly determined by the tin-content. Tensile strength, yield point and hardness increase according to the rising cold forming grade, elongation after fr

CuSn6, mat. No. CW425K, is comparable to the DIN-make CuSn6, mat. No. 2.1020, acc. to DIN 17662 : 1983-12. Properties of the CuSn-alloy are predominantly determined by the tin-content. Tensile strength, yield point and hardness increase according to the rising cold forming grade, elongation after fr

CuSn6, mat. No. CW425K, is comparable to the DIN-make CuSn6, mat. No. 2.1020, acc. to DIN 17662 : 1983-12. Properties of the CuSn-alloy are predominantly determined by the tin-content. Tensile strength, yield point and hardness increase according to the rising cold forming grade, elongation after fr

Material CuZn40Pb2, mat. No. CW617N, is an unhardenable wrought alloy. to the comparable make CuZn40Pb2, mat. No. 2.0402 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 CuZn40. Machi

CuZn37Mn3Al2PbSi (CW713R former CuZn40Al2) is an unhardenable copper alloy. High hardness and strength parameter are achievable by cold forming only. Strength properties, corrosion resistance and oxidation resistance are increasable by Al-addition. CuZn37Mn3Al2PbSi shows a high wear resistance and i

Material CuZn39Pb3, mat. No. CW614N, is an unhardenable wrought alloy. to the comparable make CuZn39Pb3, mat. No. 2.0401 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 unleaded bras

Trademark X3CrNiMo13-4 is comparable X 4 CrNi 13 4 acc. to SEW 400-91. To this material as per SEW applies: The steel shows good toughness properties and sufficient corrosion resistance at a temperature range from -60 to 300 °C. X 4 CrNi 13 4 has better corrosion properties than the comparable 13 pe

Material CuZn39Pb3, mat. No. CW614N, is an unhardenable wrought alloy. to the comparable make CuZn39Pb3, mat. No. 2.0401 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 unleaded bras

Trademark X2CrNiMoN22-5-3 is comparable to X 2 CrNiMoN 22 5 3 acc. to SEW 400-91. This material is a ferritic-austenitic steel with high resistance to stress corrosion in chloride containing media. Favorable resistance to pitting corrosion and intercrystalline corrosion also in welded condition. The

Trademark X2CrNiMoN17-11-2 is a fully austenitic steel which shows higher strength and structural stability owing to N-addition. To the comparable DIN-make X 2 CrNiMoN 17 12 2 acc. to DIN 17440 : 1985-07 applies: increased pitting index by N-addition. Application in chemical apparatus engineering fo

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

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

Wire fom copper alloy for general purposes.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.4 g/cm³MechanicalPropertyTemperatureValueElastic modulus20.0 °C102 GPaElongation20.0 °C8 %Elongation A10020.0 °C2 - 3 %Elongation A11.320.0 °C5 %Shear modulus20.0 °C37 GPaTensile strength20.0 °C500 MP

Material CuSn4Pb4Zn4, mat. No. CW456K, is incomparable to a DIN-make. It is used in the form of bars.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.89 - 8.9 g/cm³MechanicalPropertyTemperatureValueCommentElastic modulus20.0 °C103 GPaElongation20.0 °C10 %Elongation A1020.0 °C8 %Elongation A1

The high-temperature material X10CrMoVNb9-1, material number 1.4903 is used for pressure vessel construction.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C7.7 g/cm³MechanicalPropertyTemperatureValueCommentElastic modulus20.0 °C218 GPa100.0 °C213 GPa200.0 °C206 GPa300.0 °C198 GPa400.0 °C190

Material CuZn39Sn1 (CW719R) is like make CuZn38Sn1As (CW717R) comparable to the DIN-make CuZn38Sn1 (2.0530). Similar processing properties and uses like CW717R due to the nearly identical chemical composition.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.35 - 8.4 g/cm³MechanicalPropertyTe

The austenitic steel X1NiCrMoCuN25-20-7 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 (

CuZn37 (CW508L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn36. CuZn37 is the main alloy for cold forming. It shows favorable corrosion resistance to fresh water. Processing pr

CuZn37 (CW508L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn36. CuZn37 is the main alloy for cold forming. It shows favorable corrosion resistance to fresh water. Processing pr