Material CuSn5, mat. No. CW451K is used in the form of tubes for manometer springs or hose tubes as well as for contact springs and connectors. Basically the same application area as CuSn6 (CW452K). CuSn5 shows slightly higher electrical conductivity at slightly lower strength due to the lower tin-c

Material CuSn5, mat. No. CW451K is used in the form of tubes for manometer springs or hose tubes as well as for contact springs and connectors. Basically the same application area as CuSn6 (CW452K). CuSn5 shows slightly higher electrical conductivity at slightly lower strength due to the lower tin-c

Material CuSn5, mat. No. CW451K is used in the form of tubes for manometer springs or hose tubes as well as for contact springs and connectors. Basically the same application area as CuSn6 (CW452K). CuSn5 shows slightly higher electrical conductivity at slightly lower strength due to the lower tin-c

The patented steel grade X2CrNiN23-4, material number 1.4362 is acc. to VdT_V-Wbl 496 : 2001-09 used for pressure vessels as per TRB 100 and AD-data sheets W 2 and W 10 for pipelines and pipeline components acc. to TRR, TRbF and TRGL, for pressure gas tanks as per TRG each from -40 to 280 deg. For a

The austenitic-ferritic material X2CrNiMoN25-7-4 is used in solution annealed condition in the form of cold rolled strip, warm rolled strip and warm rolled sheet as well as for rods, wire rod and profiles. It is resistant to intercrystalline corrosion also in sensitized condition.PropertiesGeneralPr

Wire fom copper alloy for general purposes.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.5 - 8.55 g/cm³MechanicalPropertyTemperatureValueCommentElastic modulus20.0 °C114 GPa100.0 °C112 GPa200.0 °C107 GPa300.0 °C103 GPa400.0 °C96 GPa500.0 °C88 GPa600.0 °C77 GPa700.0 °C67 GPaHardness, Brine

The austenitic-ferritic material X2CrNiMoCuWN25-7-4 is used in solution annealed condition in the form of warm rolled sheet, rods, wire rod and profiles. It is resistant to intercrystalline corrosion also in sensitized condition.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C7.8 g/cm³Mechani

Wire fom copper alloy for general purposes.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.67 - 8.7 g/cm³MechanicalPropertyTemperatureValueElastic modulus20.0 °C119 GPa100.0 °C116 GPa200.0 °C111 GPa300.0 °C106 GPa400.0 °C100 GPa500.0 °C91 GPa600.0 °C81 GPa700.0 °C71 GPaHardness, Brinell20.0

CuNi2Si, mat. No CW111C, is counted among hardenable, low alloyed copper alloys. To the comparable make CuBNi2Si, mat. No 2.0855, acc. to DIN 17666 : 1983-12 applies: The material shows favorable electrical and thermal conductivity, corrosion resistance, high fatigue and creep resistance as well as

CuNi2Si, mat. No CW111C, is counted among hardenable, low alloyed copper alloys. To the comparable make CuBNi2Si, mat. No 2.0855, acc. to DIN 17666 : 1983-12 applies: The material shows favorable electrical and thermal conductivity, corrosion resistance, high fatigue and creep resistance as well as

CuZn15 (CW502L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn10. Corrosion resistance is similar to pure copper. Processing properties: warm forming: moderately cold forming: go

Wire fom copper alloy for general purposes.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.73 - 8.8 g/cm³MechanicalPropertyTemperatureValueElastic modulus20.0 °C122 GPa100.0 °C119 GPa200.0 °C114 GPa300.0 °C109 GPa400.0 °C103 GPa500.0 °C94 GPa600.0 °C84 GPa700.0 °C74 GPaHardness, Brinell20.0

Wire fom copper alloy for general purposes.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.79 - 8.8 g/cm³MechanicalPropertyTemperatureValueElastic modulus20.0 °C124 GPa100.0 °C123 GPa200.0 °C118 GPa300.0 °C113 GPa400.0 °C107 GPa500.0 °C98 GPa600.0 °C88 GPa700.0 °C78 GPaPoisson's ratio2

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

CuCrZr, mat. No CW106C, is counted among hardenable, low alloyed copper alloys. To the comparable make CuCrZr, mat. No 2.1293, acc. to DIN 17666 : 1983-12 applies: The strength values of CuCrZr are more favorable than of CuCr especially at higher temperatures. CuCrZr shows the following properties:

CuZn40Mn2Fe1(former identification: CuZn40Mn2) is an unhardenable copper alloy. High hardness and strength parameter are achievable by cold forming only. Tensile strength and Brinell hardness are higher than at CuZn31Si1 (CW708R). Manganese increases corrosion resistance and sliding qualities. CuZn4

CuZn40Mn2Fe1(former identification: CuZn40Mn2) is an unhardenable copper alloy. High hardness and strength parameter are achievable by cold forming only. Tensile strength and Brinell hardness are higher than at CuZn31Si1 (CW708R). Manganese increases corrosion resistance and sliding qualities. CuZn4