The fine grained steel is used acc. DIN 17178 : 1986-5 for welded steel tubes and acc. DIN 17179 : 1986-5 as seamless steel tubes for special purposes down to -20 °C. Application: pressure vessel construction, apparatus construction, pipelines, mechanical engineering, toolbuilding Special requiremen

The fine grained steel is used acc. DIN 17178 : 1986-5 for welded steel tubes and acc. DIN 17179 : 1986-5 as seamless steel tubes for special purposes down to -20 degrees C. Application: pressure vessel construction, apparatus construction, pipelines, mechanical engineering, toolbuilding Special req

The steel P355NH is a creep-resistant weldable fine-grain structural steel (alloy quality steel). Tubes made of this steel are used in the pressure vessel construction, apparatus construction, pipeline construction as well as in the general mechanical engineering and device construction. Maximum ope

Pure aluminium Electrical conductivity alloy according to DIN, ensured by the German electrotechnical commission for electro-technology with, also in accordance to DIN 40 501 part of 1 to part of 4. This material has a very good electrical and good thermal conductivity, however only relatively low m

The fine grained steel is used acc. DIN 17178 : 1986-5 for welded steel tubes and acc. DIN 17179 : 1986-5 as seamless steel tubes for special purposes from -60 to 400 degrees C. Application: pressure vessel construction, apparatus construction, pipelines, mechanical engineering, toolbuilding Special

The fine grained steel is used acc. DIN 17178 : 1986-5 for welded steel tubes and acc. DIN 17179 : 1986-5 as seamless steel tubes for special purposes from -50 to 400 degrees C. Application: pressure vessel construction, apparatus construction, pipelines, mechanical engineering, toolbuilding Special

The fine grained steel is used acc. DIN 17178 : 1986-5 for welded steel tubes and acc. DIN 17179 : 1986-5 as seamless steel tubes for special purposes down to -20 degrees C. Application: pressure vessel construction, apparatus construction, pipelines, mechanical engineering, toolbuilding Special req

The for pressure vessels approved material X3CrTi17, mat. no. 1.4510, has an similar corrosion behaviour like the X6Cr17 (1.4016). The steel is resistant to intercrystalline corrosion in the delivery condition and also in the welded condition. It is higher resistant to stress corrosion in hot lyes a

The highly corrosion resistant austenitic material X1NiCrMoCu31-27-4, mat. number 1.4563, is comparable to X 1 NiCrMoCu 31 27 4 acc. to SEW 400 : 1991-02 (invalid, replaced by edition SEW 400 : 1997-02 where this trademark is not contained anymore). The rolled and forged steel is applicable acc. to

The austenitic CrNi-steel X2CrNiN18-10, comparable to X 2 CrNiN 18 10 acc. to DIN 17440 : 1985-07, shows a higher yield point by nitrogen alloying which survives also at higher temperatures. This is used in pressure vessel and leightweight construction. Improvement of the corrosion resistance by its

Material X2CrNiMoN17-13-3 is comparable to X 2 CrNiMoN 17 13 3 acc. to DIN17440 : 1985-07. It is a fully austenitic steel that is suitable for mirror finishing. It shows higher strength owing to nitrogen alloying and owing to more molybdenum addition higher corrosion resistance especially to non oxi

Material X 2 CrNiMoN 25 22, (now: X1CrNiMoN25-22-2 ), material number 1.4466 is applicated acc. to VdTÜV-Wbl 415 : 2001-09 (sheets) for pressure vessels acc. to TRB 100 and AD-data sheet W 2 and W 10 from -195 to 400 °C (heavy duty). Further application in nuclear power engineering as far as nuclear

Material X 2 CrNiMoN 17 13 5 (now: X2CrNiMoN17-13-5), material number 1.4539, is applicated acc. to VdTÜV-Wbl 405 : 2000-12 for pressure vessels acc. to TRB 100 and AD-data sheets W 2 and W 10 from -196 to 400 °C. and for pressure gas tanks as per TRG 201 and TRG 203 from -196 to 400 °C. Further app

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.66 g/cm³H34EN 573-3, EN 485, EN 754MechanicalPropertyValueConditionRelated StandardsCommentBending Fatigue Strength140.0 MPaH34EN 573-3, EN 485, EN 754Bending angle 90°1.0 °/tH34EN 573-3, EN 4852.0 °/tH34EN 573-3, EN 4852.5 °/tH34EN 57

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.66 g/cm³H116EN 573-3, EN 14286, EN 485MechanicalPropertyValueConditionRelated StandardsCommentBending angle 180°3.0 °/tH116EN 573-3, EN 14286, EN 4856.0 °/tH116EN 573-3, EN 14286Bending angle 90°2.0 °/tH116EN 573-3, EN 4852.5 °/tH116EN

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.66 g/cm³H111EN 573-3, EN 14286, EN 485, EN 754, EN 755MechanicalPropertyValueConditionRelated StandardsCommentBending angle 180°1.0 °/tH111EN 573-3, EN 4851.5 °/tH111EN 573-3, EN 14286, EN 4854.0 °/tH111EN 573-3, EN 14286Bending angle

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.68 g/cm³H111EN 573-3, EN 14286, EN 485, EN 755MechanicalPropertyValueConditionRelated StandardsCommentBending angle 180°0.5 °/tH111EN 573-3, EN 4851.0 °/tH111EN 573-3, EN 14286, EN 4852.0 °/tH111EN 573-3, EN 14286Bending angle 90°0.5 °

Quantity: One truck load – Specialty products on request.Additional services: Via Cindal (the Aludium R&D department): R&D services, benchmarking, chemical audits, material specification, process optimisation, quality monitoring, sample analysis, prototyping, trainingPropertiesGeneralPropert

Quantity: One truck load – Specialty products on request.Additional services: Via Cindal (the Aludium R&D department): R&D services, benchmarking, chemical audits, material specification, process optimisation, quality monitoring, sample analysis, prototyping, trainingPropertiesGeneralPropert

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.71 g/cm³H34EN 573-3, EN 1592, EN 485MechanicalPropertyValueConditionRelated StandardsCommentBending angle 180°2.5 °/tH34EN 573-3, EN 485Bending angle 90°1.0 °/tH34EN 573-3, EN 4851.5 °/tH34EN 573-3, EN 4852.0 °/tH34EN 573-3, EN 4852.5