X 2 CrNi 18 10 is an austenitic CrNi steel which, due to the added nitrogen alloy, possesses an increased yield strength which also persist in higher temperatures. It is suitable for the chemical equipment construction because of its resistance to nitric acid. The steel is well suited for cold-formi

X 2 CrNiMoN 17 13 3 is a fully austenitic steel that is well suited for cold-forming and can undergo high-gloss polishing. Due to the added nitrogen alloy it possesses a higher strength and the molybdenium additive causes increased resistance especially to non-oxidizing acids and substances containi

X 2 CrNiMoN 17 13 3 is a fully austenitic steel that is well suited for cold-forming and can undergo high-gloss polishing. Due to the added nitrogen alloy it possesses a higher strength and the molybdenium additive causes increased resistance especially to non-oxidizing acids and substances containi

X 2 CrNiMoN 17 13 3 is a fully austenitic steel that is well suited for cold-forming and can undergo high-gloss polishing. Due to the added nitrogen alloy it possesses a higher strength and the molybdenium additive causes increased resistance especially to non-oxidizing acids and substances containi

The steel X 2 CrNi 19 11 is well suited for cold-forming. It is used for screws, nuts and molded parts in the chemical equipment industry, the food industry and in nuclear reactor technology. The steel can be high-gloss polished and can be used in temperatures of up to 400 degrees C.PropertiesGenera

The steel X 2 CrNi 19 11 is well suited for cold-forming. It is used for screws, nuts and molded parts in the chemical equipment industry, the food industry and in nuclear reactor technology. The steel can be high-gloss polished and can be used in temperatures of up to 400 degrees C.PropertiesGenera

The steel X 2 CrNi 19 11 is well suited for cold-forming. It is used for screws, nuts and molded parts in the chemical equipment industry, the food industry and in nuclear reactor technology. The steel can be high-gloss polished and can be used in temperatures of up to 400 degrees C.PropertiesGenera

The steel X10Cr13 is well suited for cold-forming in the annealed condition. The strain hardening inclination is significantly lower than that of stainless austenitic steels and is about equal to that of a carbon steel. It is used for construction parts operating in water and steam, and for mild med

The steel X10Cr13 is well suited for cold-forming in the annealed condition. The strain hardening inclination is significantly lower than that of stainless austenitic steels and is about equal to that of a carbon steel. It is used for construction parts operating in water and steam, and for mild med

The steel X10Cr13 is well suited for cold-forming in the annealed condition. The strain hardening inclination is significantly lower than that of stainless austenitic steels and is about equal to that of a carbon steel. It is used for construction parts operating in water and steam, and for mild med

The cold-upsettable steel Cq 45 can be cold-formed with a low to medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. BEcause of its unfavourable processing properties, Cq 45 should be replaced with steel 35 B 2. It is used for normed screws of stren

The cold-upsettable steel Cq 45 can be cold-formed with a low to medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. BEcause of its unfavourable processing properties, Cq 45 should be replaced with steel 35 B 2. It is used for normed screws of stren

The cold-upsettable steel Cq 35 can be cold-formed with a medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. It is used, for example, for screws in the lower dimension range as well as for nuts of strength class 8.8.PropertiesGeneralPropertyTempera

The cold-upsettable steel Cq 35 can be cold-formed with a medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. It is used, for example, for screws in the lower dimension range as well as for nuts of strength class 8.8.PropertiesGeneralPropertyTempera

Because of its high carbon content, the cold-upsettable steel 46 Cr 2 can be processed in cold condition only with a small to medium rate of forming. It is used for screws and bolts of strength class 8.8 in the lower dimension range. The steel 46 Cr 2 will be replaced with steel 35 B 2.PropertiesGen

The cold-upsettable steel 42 CrMo 4 can be cold-formed according to the usual forming methods on single-stage and multi-stage presses. Because of its high carbon content, only low to medium forming degrees are recommendable. It is used for screws of strength class 10.9 in the thick and of strength c

The cold-upsettable steel 41 Cr 4 can be cold-formed with the suitable tools with a low to medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. It is used for normed screws and screws manufactured according to drawings of strength class 8.8 in the th

The cold-upsettable steel 38 Cr 2 can be cold-formed with a medium rate of forming according to the usual forming methods on single-stage and multi-stage presses. It is used for screws of strength class 8.8 in the lower dimension range. The steel 38 Cr 2will be replaced with steel 35 B 2.PropertiesG

The cold-upsettable steel 37 Cr 4 can be cold-formed with a medium to high rate of forming according to the usual forming methods on single-stage and multi-stage presses. It is used for screws of strength class 8.8 in the thick dimension range.PropertiesGeneralPropertyTemperatureValueDensity20.0 °C7

The fully killed machining steel 35 SPb 20 is used for mass parts of mean strength, especially for lower toughness demands cross-sectional. Its better machinable because of the Pb addition. Application in the automotive engineering, toolbuilding, apparatus engineering (screws, nuts, smal parts).Prop