StainlessSteel17-4PH(BJT)_TDS Material Properties Yield Strength (ASTM E8M) 660±40 MPa Ultimate Tensile Strength (ASTM E8M) 912±35 MPa Elongation at break (ASTM E8M) 5.9±2 % Hardness (ASTM E18) 26.4±1 HRC Density (ASTM B311) 7.5-7.66 g/cc Description Material Highlights Corrosi...
(2)最佳激光辐照能显著提高 17-4PH 不锈钢耐蚀性,具体表现在:动电位极化测试后腐 蚀坑更小且更均匀;Rp 值已超过 106 Ω·cm2,CPE1值最低,表面钝化膜致密性和均匀性优 于化学钝化样品;Mott-Schottky 测试曲线中,钝化膜中施主浓度 ND 与受主浓度 N...
17-4 PH martensitic Hardenable Stainless Steel Material No.DIN Abbreviation AFNOR AISI/SAE/ASTM ISO Euro Standard EN Others 1.4542 X5CrNiCuNb16-4 X5CrNiCuNb16-4 (former Z 7 CNU 17.04)AISI 630 (17-4 PH) ASTM F899 X5CrNiCuNb16-4 X5CrNiCuNb16-4 10088-3 NF S 94-090 UNS S17400...
17-4PH马氏体沉淀不锈钢
17-4PH不锈钢的粉末获得可以透过以下方式产出:预合金粉、元素粉混合以及母合金粉末三种。预合金粉末意味着每个颗粒是具有相同成分的微小铸件;元素粉混合意味着铁、铬、镍和其他元素都以颗粒的组合,每个颗粒都是单一元素[49],母合金是一种以羰基铁粉(纯铁)与至少33%预合金粉末混合而成的混合体,此母合金用的预合金...
17-4PH不锈钢是在Cr17型不锈钢基础上加入Cu、Nb等强化元素发展出的一种马氏体沉淀硬化型不锈钢,其强度主要源于马氏体相变和在时效温度范围内析出ε-Cu、NbC、M23C6等时效硬化相而产生沉淀硬化。17-4PH合金是沉淀、淬水、马氏体的不锈钢,和这个等级具有高强度、硬度(高达300 0 C/5000 C)和抗腐蚀等特性。经过热...
17-7PH is a versatile engineering material that is used to produce nuclear components, aerospace parts andmilitary structures. Stock Availability We stock 17-4PH stainless steel sheets in various thicknesses and conditions (including annealed, H900, H1025, H1100, and H1150 conditions). We also ...
17-4PH martensitic HardenableStainlessSteel MaterialNo.DINAbbreviationAFNORAISI/SAE/ASTMISO EuroStandard EN Others 1.4542X5CrNiCuNb16-4 X5CrNiCuNb16-4 (formerZ7CNU17.04) AISI630 (17-4PH) ASTMF899 X5CrNiCuNb16-4 X5CrNiCuNb16-4 10088-3 ...
17-4PH Stainless Steel Reduce lead times for metal tools, fixtures, and prototypes 17-4PH Stainless Steel is a multipurpose steel used for industrial applications. Heat-treatable to 36 HRC and possessing 95% wrought strength, Markforged 17-4PH enables you to print high-strength, robust metal ...
Generally, the microstructure of the sintered 17-4PH materials consists of α, ά, and γ phases. The α phase forms in PSM 17-4PH materials at sintering temperatures below 1220 °C [1]. Furthermore, the ά phase was identified in the microstructure of the 17-4PH material sintered at ...