1.
It provides a scientific evidence for study on the plastic deformation of ledeburite steel and iron materials.
为莱氏体钢铁材料塑性变形的研究提供了科学的证据。
2.
ferritic-austenitic alloy steel
铁素体奥氏体合金钢
3.
Matrix Structure of Martensite and Bainite in Steels
钢中马氏体和贝氏体基体组织的特征
4.
Dissimilar Welding of Bainitic Steel Crossing and U71MN Rail
贝氏体钢辙叉与U71Mn钢钢轨的焊接
5.
Sandberg process
碳钢局部索氏体化处理
6.
Krupp austenitic steel
克虏伯奥氏体不锈钢
7.
Boronizing of ZG1Cr18Ni9 austenite stainless steel
ZG1Cr18Ni9奥氏体不锈钢的渗硼
8.
Flash butt welding of bainite steel crossing with U71Mn steel rail
贝氏体钢辙叉与U71Mn钢轨的焊接
9.
The Latest Advancement of Carbide Free Bainite/Martensite Duplex Phase Steel
无碳化物贝氏体/马氏体复相钢的新进展
10.
THE EFFECT OF PRIOR AUSTENITIC GRAIN BOUNDARIES ON NUCLEATION OF(225)_γ MARTENSITE IN STEELS
钢中原始奥氏体晶界对(225)_γ马氏体形核的影响
11.
Study of Continuous Cooling after Austenite Deformation of Low Carbon Bainitic Steels;
低碳贝氏体型钢变形奥氏体连续冷却研究
12.
Effect of Minor Boron on Undercooled Austenite Transformation in Low Carbon Bainite Steel
微量硼对低碳贝氏体钢过冷奥氏体转变的影响
13.
Welding of Austenite-Ferrite Diphasic Rustless Steel
奥氏体-铁素体型双相不锈钢的焊接
14.
Research Progress of Reduced Activation Ferritic/Martensitic Steel
低活化铁素体/马氏体钢的研究进展
15.
Through the processing, it becomes a kind of extremely hard, wear-resistant and dispersed ledeburite structure which consists of martensite, retained austenite and carbide phases.
表面层极硬、耐磨而弥散的莱氏体是由马氏体+残留奥氏体+碳化物相组成。
16.
Conversion Relation of Leeb-hardness,Vickers-hardness and Strength of Austenitic Stainless Steels
奥氏体不锈钢里氏硬度、维氏硬度及强度之间的换算关系
17.
Overall technical design of No.4 bloom CCM at LISC
莱钢炼钢厂大方坯连铸机总体工艺设计
18.
Steel--Conversion of elongation values--Part 2: Austenitic steels
GB/T17600.2-1998钢的伸长率换算第2部分:奥氏体钢