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- The deformation induced martensite in metastable austenite stainless steels effect their physical and chemical properties. 亚稳奥氏体不锈钢冷变形后产生形变诱发马氏体,影响其物理和化学性能。
- Abstract : The deformation induced martensite in metastable austenite stainless steels effects their physical and chemical properties. 摘要 : 亚稳奥氏体不锈钢冷变形后产生形变诱发马氏体,影响其物理和化学性能。
- The mechanical characteristics and structural changes ofa CrMnN stainless steel with metastable austenite during tensile deformation are investigated and the work-hardening mechanism is discussed. 研究了一种含亚稳奥氏体铬锰氮不锈钢在拉伸变形过程中的力学特性与组织变化,并对其加工硬化机制进行了讨论。
- The wear resistance of the metastable austenitic Mn-steels can be raised by chromium. 铬可有效提高介稳奥氏体锰钢的耐磨性。
- The effect of nitrogen,carbon and manganese on mechanical properties and work-hardening ability metastable austenitic manganese steel was studied. 研究了氮、碳、锰等合金元素对介稳奥氏体锰钢力学性能及耐磨性的影响。
- The Strain Hardening Behavior of Metastable Austenite Stainless Steel 亚稳态奥氏体不锈钢的硬化行为
- Metastable austenite transformation in low carbon microalloying steel 低碳微合金钢在过冷奥氏体亚稳定区的转变
- Keywords metastable austenite matrix;cast alloy;wear surface behaviors; 亚稳奥氏体基;铸造合金;磨损表层特性;
- MICROSTRUCTURE CHANGES DURING CAVITATION EROSION FOR A CrMnN STAINLESS STEEL WITH METASTABLE AUSTENITE 奥氏体铬锰氮不锈钢在气蚀过程中的组织变化
- Effect of Nitrogen, Carbon and Manganese on Work-Hardening Ability of Metastable Austenite Manganese Steel 氮碳锰对介稳奥氏体锰钢加工硬化性能的影响
- Study on tensile deformation characteristic of CrMnN stainless steel with metastable austenite 含亚稳奥氏体铬锰氮不锈钢的拉伸变形特性研究
- Keywords microstructure design wear cast iron metastable austenite thermostability; 结构设计;耐磨铸铁;亚稳奥氏体;耐热性;
- SUS304 metastable austenitic stainless steel SUS304亚稳奥氏体不锈钢
- metastable austenite 介稳奥氏体
- Lifetime measurement of metastable state of Yttrium atom[J]. 引用该论文 杜清;李世芳;周志尧;朱利洲;林福成.
- A two stage growth process for metastable pits was suggested. 提出了一个亚稳态蚀孔生长的两阶段模型。
- At best, relationships between the foci are metastable. 我们至多只能说,这些关注焦点之间的关系是基本稳定的。
- Furthermore, precipitate of Nb in deformed austenite is more helpful for DEFT. Nb对变形奥氏体再结晶的显著抑制作用十分有利于DIFT,同时,Nb的碳氮化物析出对DIFT是十分有益的。
- In this work, xW is about 11 times of the original austenite grains. 在本研究中,xW约为原始奥氏体晶粒大小的11倍。
- Other than austenite,copper element dissolution is found in material. 母材区除了奥氏体组织外,存在铜元素的扩散。
