Make X6CrNiMo17-12-2 is comparable to X6 CrNiMo 17-12-2 acc. to DIN17440 : 1985-07. The material is the stabilized by Ti variant of 1.4401. Due to the high Mo-content improved corrosion resistance particularly to non-oxidizing acids and halogenated media. Application in chemical apparatus engineerin

Make X5CrNiMo17-12-2 is comparable to X 5 CrNiMo 17-12-2 acc. to DIN17440 : 1985-07. The material is an austenitic CrNiMo-steel of improved resistance to non-oxidizing acids and halogenated media, to intercrystalline corrosion, but only in delivery condition. It is usable for mirror finishing and co

The standard type of austenitic CrNi-steels X5CrNi18-10, comparable to X 5 CrNi 18 10 acc. to DIN 17440 : 1985-07 shows high corrosion resistance but no resistance to intercrystalline corrosion in sensitized condition. It is resistant in delivery condition. The steel shows a high workability, it is

The make X3CrNiMo17-13-3 is comparable to X5 CrNiMo 17 13 3 acc. to DIN17440 : 1985-07. Corrosion behaviour is similar to 1.4401. Slightly improved resistance to selective attack due to the higher Mo-content. In delivery condition resistant to intercrystalline corrosion. Application in chemical and

The austenitic CrNi-Stahl X2CrNiN18-10, comparable to X 2 CrNiN 18 10 acc. to DIN 17440 : 1985-07, shows a higher yield point due to alloying of nitrogen which is adhered even at higher temperatures. Using in pressure vessel construction and in light weight construction. Improved corrosion resistanc

The make X2CrNiMoN17-13-3 is comparable to X 2 CrNiMoN 17 13 3 acc. to DIN17440 : 1985-07. The material is a fully austenitic steel usable for mirror finishing, showing higher strength due to N-alloying. It shows higher corrosion resistance especially to non-oxidizing acids and halogenated media tha

The make X2CrNiMoN17-11-2 is comparable to X 2 CrNiMoN 17 12 2 acc. to DIN 17440 : 1985-07. The material is a fully austenitic steel showing higher strength and structure stability due to N-addition. It shows high resistance in oxidizing media. The interaction parameter (pitting index) is increased

The make X2CrNiMo18-14-3 is comparable to X 2 CrNiMo 18 14 3 acc. to DIN17440 : 1985-07. The material is a variant of 1.4404 with slightly increased alloying-contents for Cr, Ni and Mo. Thereby improved corrosion qualities. It is resistant to intercrystalline corrosion also in sensitized condition.

The make X2CrNIMo17-12-2 is comparable to X 2 CrNiMo 17 13 2 acc. to DIN17440 : 1985-07. It is a modification of steel 1.4401 and a steel of high resistance to non-oxidizing acids and chloride-containing media. The steel is usable for mirror finishing and cold forming. Improved corrosion properties

The make X2CrNi19-11, a modification of 1.4301, is comparable to X 2CrNi 19 11 acc. to DIN 17440 : 1985-07. Resistance to intercrystalline corrosion in delivery condition as well as in sensitized condition due to the lowered C-content. Application in chemical apparatus engineering and in pharmaceuti

CuZn30 (CW505L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn28. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo

CuZn30 (CW505L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn28. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo

CuZn30 (CW505L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn28. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo

CuZn30 (CW505L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are lower than for CuZn28. Corrosion resistance is similar to pure copper. Processing properties: warm forming: good cold forming: very goo

CuZn20Al2As (CW702R former identification: CuZn20Al2) is an unhardenable copper alloy. High hardness and strength values are achievable by cold forming only. Strength properties, corrosion resistance and oxidation resistance are increasable by Al-addition. CuZn20Al2As is seawater and dezincification

CuZn20 (CW503L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are worse than for CuZn15. Corrosion resistance is similar to pure copper. Processing properties: warm forming: moderately cold forming: go

CuZn20 (CW503L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are worse than for CuZn15. Corrosion resistance is similar to pure copper. Processing properties: warm forming: moderately cold forming: go

CuZn20 (CW503L) is an unhardenable wrought alloy. High hardness and strength parameter are achievable by cold forming only. Thermal and electrical conductivity are worse than for CuZn15. Corrosion resistance is similar to pure copper. Processing properties: warm forming: moderately cold forming: go

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

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