Industrial manufacturing
Metal
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
CuSn4, mat. No. CW450K, is comparable to the DIN-make CuSn4, mat. No. 2.1016, acc. to DIN 17662 : 1983-12. The material is specified by a favorable combination of very good cold formability with strength and hardness. It is corrosion resistant, good soft and hard solderable and shows still good elec
CuSn4, mat. No. CW450K, is comparable to the DIN-make CuSn4, mat. No. 2.1016, acc. to DIN 17662 : 1983-12. The material is specified by a favorable combination of very good cold formability with strength and hardness. It is corrosion resistant, good soft and hard solderable and shows still good elec
CuNi9Sn2 (CW351H) is comparable to CuNi9Sn2, mat. no. 2.0875, acc. to DIN 17664 : 1983-12. To the comparable DIN-mark applies: The material shows high strength specific values as well as favorable tarnish-proofness and a very good stress relaxation behaviour in spring-hard condition. CuNi9Sn2 has s
CuNi9Sn2 (CW351H) is comparable to CuNi9Sn2, mat. no. 2.0875, acc. to DIN 17664 : 1983-12. To the comparable DIN-mark applies: The material shows high strength specific values as well as favorable tarnish-proofness and a very good stress relaxation behaviour in spring-hard condition. CuNi9Sn2 has s
CuNi9Sn2 (CW351H) is comparable to CuNi9Sn2, mat. no. 2.0875, acc. to DIN 17664 : 1983-12. To the comparable DIN-mark applies: The material shows high strength specific values as well as favorable tarnish-proofness and a very good stress relaxation behaviour in spring-hard condition. CuNi9Sn2 has s
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
Material CuNi18Zn27, mat. No. CW410J is an alloy of high strength and hardness. To the comparabel mark CuNi18Zn27, mat. No. 2.0742, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatures.
Material CuNi18Zn27, mat. No. CW410J is an alloy of high strength and hardness. To the comparabel mark CuNi18Zn27, mat. No. 2.0742, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatures.
Material CuNi12Zn24, mat. No. CW403J is an alloy of high strength and hardness. To the comparabel DIN-mark CuNi12Zn24, mat. No. 2.0730, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatur
Material CuNi12Zn24, mat. No. CW403J is an alloy of high strength and hardness. To the comparabel DIN-mark CuNi12Zn24, mat. No. 2.0730, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatur
Steel 51CrV4 is suitable for high loaded parts in aircraft, vehicle, engine and machine engineering that require increased tempering resistance at best core qualities and high wear resistance (e.g.transmission and joint parts, axles). Furthermore application as spring and tool steel. Lowest applicat
Steel 41CrS4 is suitable for mean loaded parts in vehicle, engine and machine engineering with mean heat-treatment sections and enhanced workability. (e.g. gear wheels, transmission shafts, axles). Lowest application temperature -25°C. As a bright steel product it is used in the form of bars, brigh
CuZn36 (CW507L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn33. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
CuZn36 (CW507L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn33. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
CuZn36 (CW507L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn33. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
Cold-rolled narrow strip made of the alloy steel 34CrMo4 will be delivered in thicknesses up to 6 mm for quenching and tempering and for quenched and tempered cold strip in thicknesses between 0.3 mm and 3.0 mm in following conditions: - soft annealed or soft annealed and little rerolled (+A or +LC)
CuZn33 (CW506L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn30. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
CuZn33 (CW506L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn30. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
CuZn33 (CW506L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn30. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo
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