DIN EN 10268 flanges, Pipe Fitting, Steel Pipe, Heat Exchanger and Reducer, Gasket, Tee, Pipe Fitting, Tube Plate, have all specifications. With many yeas production experience, strict control ASTM 11Q chemical composition and ASTM 11Q mechanical properties.(plate) Fatigue properties of laser and hybrid laser-TIG welds of s460 mc chemical composition(steel) Jan 20, 2020In this research, we investigate the fatigue properties of the welds of high-strength low-alloy steels S460MC (1.0982) and S700MC (1.8974) produced by the Austrian company Voestalpine. The chemical composition of each of these steels detected by GDOES is shown in Table 1. Low levels of carbon and manganese with the precise addition of niobium s460 mc chemical composition
S460MC as determined by the static tensile test. These are average values from five measurements. Tab. 1 Chemical composition of S460MC (wt%) acc. to SN EN 10149 and measured by Q4Tasman spectrometer C Si Mn P S Al Nb V Ti EN 10149 0.12 0.5 1.6 0.025 0.015 0.015 0.09 0.20 0.15(plate) Q460 Steel Chemical Composition, Specifications s460 mc chemical composition(steel) Q460 Steel IntroductionProperties and ApplicationsDatasheet & SpecificationEquivalent GradesQ460 steelis a Chinese steel grade of Low Alloy High Strength Structural Steel, Yield Strength is 460 MPa, data is tested with 16mm diameter steel bars or steel plates, tensile strength is 550-720 Mpa, test with steel bar Ø40mm.For Q460 steel equivalent, chemical composition and mechanical properties, please see the tables below.See more on theworldmaterialEstimated Reading Time 30 secsPublished Table I Declared Chemical Composition of S460MC and S700MC[21,22] Full size table. The carbon equivalent CET (1) usually used for low-alloyed high-strength steel weldability considerations is only 0.17 and 0.27 wt pct for S460MC and S700MC, respectively.
Technical features Chemical composition Ladle analysis mass percentages C [%] Si [%] Mn [%] P [%] S [%] Al [%] min. 0.015 max. 0.12 0.04 0.50 (plate) to BS 5950(steel) 2.3.3 Chemical composition 10 2.3.4 Dimensional and mass tolerances 10 2.4 Steel for cold forming 11 2.4.1 Manufacturing process 11 2.4.2 Mechanical properties 11 2.4.3 Chemical composition 11 2.4.4 Dimensional and mass tolerances 12 2.5