1 5714, 16NiCr4, 637M17 EN 10084: 2008 Case hardening carburizing steel application on parts requiring high core strength, structures subject to abrasion and variable loads, typically used for small parts such as heavy-duty sprockets, screws, pins, shafts, spigots, machine parts, cars and motors
21CrMoV5-7, 1 7709, 21CrMoV5-11, 1 8070 Steels and nickel alloys for fasteners with specified elevated and or low temperature properties acc to EN 10269
1.4913, X19CrMoNbVN11-1
1 4913, X19CrMoNbVN11-1 high-alloyed chrome-molybdenum Creep resisting martensitic stainless steel formulated for primary forming into wrought products, 1 4913, X19CrMoNbVN11-1 high-alloyed chrome-molybdenum Creep resisting steel martensitic stainless steel formulated for primary forming into wrought products, Using Bolts, Nuts, When working at elevated temperatures resistant to 600 ℃, characterized by good resistance and creep limit 1 4913 is the Numeric designation for this material X19CrMoNbVN11-1 is the Chemical designation Other Spec EN 10269-2006, EN 10302-2008, EN 10269-2013, EN 10088-1-2005, DIN EN 10269-2014
X3CrNiMo13-4, 1 4313, F6NM, UNS S41500, AISI 415 Forged or Rolled Alloy and Martensitic stainless steel, in accordance with ASTM A182 A182M, EN 10088-1, ASTM A240, ASME SA240
B50A789(GTD 450) steel is a common material for manufacturing gas turbine compressor blades and guide vanes From the perspective of composition characteristics, B50A789 steel is similar to alloy structural steel(0Cr17Ni4Cu4Nb), and both belong to precipitation hardening martensitic stainless steel 1, and its strengthening mechanism mainly relies on aging strengthening of copper-rich phase and precipitation strengthening of molybdenum and niobium The Charpy impact test method is one of the important means to test the mechanical properties of materials, and is widely used to evaluate the ductile-brittle properties of B50A789 steel under impact loads
1.3813, X40MnCrN19
1 3813 non-magnetic steels, rust and acid resistant 1 3813 is often supplied in a hot-cold-formed version TLV 9384 01, SEW 390, DIN Spec
AISI 422, 1 4935, AISI 616, Alloy 616, X20CrMoWV12-1 Martensitic Stainless Steel, Creep resisting Steel acc to EN 10088-3 and EN 10302 Spec
AE961W martensitic stainlesssteel
AE961W martensitic thermally strong and heat-resistant stainless steel is a low-carbon 12% Cr steel added with a large amount of W, Mo, V and other ferrite forming elements that reduce the austenite phase region, so that the steel has martensitic properties Bulk transformation hardening ability, 13Cr11Ni2W2MoV is a martensitic heat-resistant stainless steel with excellent comprehensive mechanical properties, high tensile strength at room temperature, high lasting strength and creep limit, and has been widely used in the aviation industry to manufacture work below 600 ℃ Engine tie rods, bolts, seal rings, bushings, pins, blades, discs, shafts and other important parts Comply with GJB 2294-95, GJB 2294A-2014, HB5024-89 and other standards
Z12CNDV12, Z12CNDV12-03, UNS S64152, X12CrNiMoV12-3, 1.4938, 10Cr12Ni3Mo2VN
Z12CNDV12, Z12CNDV12-03 belongs to martensitic heat-resistant steel, Steel for turbine blades used for super (super) critical units, In terms of purity, the steel requirements for Z12CNDV12 steam turbine blades are very strict Z12CNDV12 steel is developed on the basis of Cr-12 martensitic stainless steel by adding Ni, Mo, V and other elements, and has good comprehensive performance after quenching and tempering
86CrMoV7, 1 2327 Tool steel for cold working tools in metallurgy according to BN-68 0631-03, EN ISO 4957: 2000 , DIN 17350 Applications to Cold rolls, back-up rolls, straightening rolls, non-ferrous 2 and 4 high roll mills
416 martensitic stainless steel and this grade can be heat threated 1 4005 or X12CrS13 acc to EN 10088-3, ASTM A582 582M TYPE 416, AISI 416, UNS S41600
X65Cr13, 1 4037 martensitic stainless steel is characterised by its high hardenability in conjunction with good corrosion resistance in moderately corrosive environments Due to its higher carbon content acc to EN 10088-3, SEW 400, DIN 17440
40CrMoV4-6, 1.7711 Steel for high temperature boilers and high temperature bolts
40CrMoV4-6, 1 7711, ASTM SA193 A193 B16 - Steel for high temperature boilers and high temperature steel for bolts, nuts, motor and machine components such as crankshafts, axles, spindles and gears according to EN 10269
X120Mn12, 1.3802, 1.3401, A128 Non-magnetic steel
X120Mn12, 1 3401, A128 high-wear abrasive austenitic Non-magnetic steel(Non Magnetizable Steels) acc to EN, DIN Spec