1) Low-carbcn martensite and intcrlath austenite
低碳马氏体和条间奥氏体
2) low-carbon martensite
低碳马氏体
1.
The structure and properties of low-carbon martensite and 3Cr13+Al pseudo coatings deposited by high velocity arc spraying technique are compared and analyzed.
将低碳马氏体和3Cr13+AlRE伪合金高速电弧喷涂层进行了性能和组织结构的对比分析。
3) low carbon martensite
低碳马氏体
1.
The applications of low carbon martensite in plastic die,cold-working die and hot-working die in recent years were summarized.
概述了近年来低碳马氏体在塑料模具、冷作模具、热作模具中的应用 ,强调使模具钢的淬火后组织中得到更多的、甚至全部低碳马氏体 ,是提高模具的强韧性 ,延长模具使用寿命的关
2.
The effect of hardening and tempering process on the organization and performance of high-strength and high-toughness non-hardened-and tempered steel of low carbon martensite is researched.
研究了淬火、回火工艺对低碳马氏体型高强度高韧性非调质钢的组织和性能的影响。
3.
This paper studies the elastic sag resistance of a low carbon martensite spring steel 35Si2CrVB developed recently and points that cyclic softening of spring under working is the cause of elastic sag,also considers that elastic sag resistance can be valued through dynamic mechanical properties.
对新研制的低碳马氏体弹簧钢 35Si2CrVB的弹性减退性能作了研究 ,指出弹性减退的本质是弹簧在服役过程中的循环软化 ,材料的动态屈服强度σ′0 2 ,动态屈强比σ′0 2 /σb 和σ′0 2 /σ′0 2 可作为评定材料弹性减退抗力的重要的力学指标。
4) Austenite/carbon
奥氏体/碳
5) low-carbon martensite steel
低碳马氏体钢
1.
The microstructure and mechanical properties of low-carbon martensite steel with tensile strength of about 1000MPa;
1000MPa级低碳马氏体钢的微观组织与力学性能
6) low carton martensite technology
低碳马氏体技术
