1.
The effect of nitrogen, carbon and manganese on work| hardening ability of metastable austenite manganese steel in impact wearing condition was studied.
研究了氮、、对介稳奥氏体锰钢在冲击磨损条件下加工硬化性能的影响。
2.
Investigation on the Austenitic Welding Material with Low Cr and High Mn Contents
一种低铬高锰奥氏体钢焊接材料的研究
3.
Influence of Manganese on Low Temperature Impact Behavior of Austenite TRIP/TWIP Steels
锰含量对奥氏体TRIP/TWIP钢低温冲击行为的影响
4.
steel that has enough nickel and chromium or manganese to retain austenite at atmospheric temperatures.
含有足量的镍和铬或锰以在大气温度下保持奥氏体的钢。
5.
The surface hardness of medium manganese austenite steel's is increased remarkably by using the casting surface alloy.
通过铸造表面合金化方法,使中锰奥氏体钢表面硬度提高。
6.
Metallurgical Sources and Restrictive Methods of Cryogenic Intergranular Brittleness in High Manganese Austenitic Steels;
高锰奥氏体钢低温沿晶脆性的产生原因及抑制方法的研究
7.
ferritic-austenitic alloy steel
铁素体奥氏体合金钢
8.
Krupp austenitic steel
克虏伯奥氏体不锈钢
9.
Boronizing of ZG1Cr18Ni9 austenite stainless steel
ZG1Cr18Ni9奥氏体不锈钢的渗硼
10.
twelve-two maraging stee
十二-二镍锰马氏体时效钢
11.
High manganese steels undergo a ductile to brittle transition at low temperature, which is accompanied by a change in the fracture mechanism from dimple fracture to intergranular fracture.
高锰奥氏体钢随温度降低其断裂机制由韧窝状断裂转变到晶界断裂。
12.
Study on Wear Resistance of As-cast High Cr-Mn Austenitic White Cast Iron
铸态高铬锰奥氏体白口铸铁抗磨性试验研究
13.
Corrosion mechanisms of a new-type high-manganese austenitic alloy in a molten zinc bath
新型高锰奥氏体合金耐液锌的腐蚀机理
14.
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
15.
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
16.
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
17.
Welding of Austenite-Ferrite Diphasic Rustless Steel
奥氏体-铁素体型双相不锈钢的焊接
18.
Effect of ESR on Cryogenic Toughness of Austenitic Steel
电渣重熔对奥氏体钢低温韧性的影响