1) lath martensite steel
板条马氏体钢
1.
The relationship between fracture toughness and notch toughness, tensile ductilities in lath martensite steel has been investigated.
研究了超高强度板条马氏体钢的平面应变断裂韧性与缺口韧性、拉伸塑性之间的关系。
2) lath martensite
板条马氏体
1.
The morphology and crystallographic analysis of lath martensite in 17CrNiMo6 steel;
17CrNiMo6钢中板条马氏体的形态与晶体学分析
2.
Effect of Niobium on Recrystallization of Deformed Lath Martensite Structure of Low Carbon Steel;
铌对低碳钢形变板条马氏体组织再结晶的影响
3.
Effect of lath martensite on toughness in overheated zone of 10Ni5CrMoV and 12Ni2CrMoVA steels;
10Ni5CrMoV和12Ni2CrMoVA过热区板条马氏体对韧性的影响
3) martensitic lath
马氏体板条
1.
The new strength toughen mechanisms, such as super fine Martensitic laths, new strength phases, Laves phase and M 2C carbide, precipitated coherence with Martensitic matrix and the VIM+VAR double vacuum melting with super pureness, super homogenization hotwork, controlled Martensite transformation heat treatment techniques have been investigated.
论述了超细化马氏体板条 ,共格沉淀新强化相 (Laves相 ) ,M2 C碳化物和残余—逆转变奥氏体向马氏体相变诱发塑性等强韧化机理 ,用超纯洁熔炼、超均匀化及控制相变等工艺 ,获得一种低碳 - 1 4Cr - 1 2Co -5Mo -Me新型超高强度、高塑性、高韧性不锈
4) martensite lath
马氏体板条
1.
The results indicate:Being the strengthen phase,the hexagonal Ni3Ti was precipitated on the martensite lath during ageing process,the size of Ni3Ti precipitates and martensite lath were increased with ageing temperature;reverted austenite was precipitated in interlath and intralath,the size and amount of reverted austenite in interlath were increased with aging temperature.
结果表明:时效过程中在马氏体板条上析出的强化相为密排六方结构的Ni3Ti,且Ni3Ti粒子和马氏体板条尺寸随时效温度的升高而增大;逆转变奥氏体在马氏体板条及其板条界上析出,且板条界上的逆转变奥氏体尺寸及数量随时效温度的升高而增加。
2.
The results show that the steel with 7 μm grains was acquired by thermo-cycle refining treatment,many martensite lath blocks were partitioned into some sub-grains,and a few single lathes were partitioned by some martensite lath packets in new refined grains;compared with the steel treated by 1 050 ℃×1 h,the yield strength of thermo-cycle refined steel w.
研究表明,通过循环相变α′γ可得到7μm的等轴晶粒,新生晶粒内的板条马氏体块又重新被分割而成为若干个亚晶粒,同时部分单一的马氏体板条束又被夹角略大于60°方向上的若干个小马氏体板条束所分割,从而进一步细化了马氏体组织;与传统热处理工艺1 050℃×1 h相比,在同样时效处理规程下进行时效处理,钢的屈服强度提高了130 MPa,A、Z分别提高了7。
5) martensite packets
马氏体板条束
6) CrMnMo martensitic liner board steel
CrMnMo马氏体衬板钢
1.
Impact abrasion properties and mechanism of CrMnMo martensitic liner board steel in corrosive condition;
CrMnMo马氏体衬板钢腐蚀条件下的冲击磨损特性及机理
补充资料:板条马氏体
lathmartensite:其单元的立体形貌呈板条形状的那种类型的马氏体。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条