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
INFLUENCE OF INTERFACE BETWEEN GRAIN BOUNDARY FERRITE AND PRIOR AUSTENITE ON BAINITE TRANSFORMATION IN A LOW CARBON STEEL
低碳钢中晶界铁素体/原奥氏体界面对贝氏体转变的影响
This paper shows that inheritance phenomenon of coarse austenite grains are due to the boundary segregation of carbide along the prior austenite grain boundary.
研究表明,调质后粗晶奥氏体的遗传现象,是由于沿原奥氏体晶界碳化物偏聚析出的结果。
Relationship between Grain Boundary Characters and Grain Boundary Strength of Austenitic Stainless Steel A304
奥氏体不锈钢A304晶界特征与晶界强度的关系
Determination of the hybridization states of atoms in Fe-C-Me unit cell of alloyed austenite
奥氏体中Fe-C-Me晶胞原子杂化状态的确定
austenite grainsize determination
奥氏体晶粒大小测定法
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
The primitive clan gradually broke up.
原始氏族逐渐解体。
Austenite grain size and continuous cooling transformation behavior in 20CrMoNb gear steel
齿轮钢20CrMoNb奥氏体晶粒尺寸及相变行为
Study on Dynamic Recrystallization Character of Austenite for X65 Pipeline Steel
X65管线钢奥氏体动态再结晶规律研究
Static recrystallization behaviors of deformed 42CrMo steel
42CrMo钢形变奥氏体的静态再结晶
Numerical Simulation of Grain Growth in Nb-Alloyed Austenitic Stainless Steel
含铌奥氏体不锈钢晶粒长大数值模拟
Study on Austenite Grain Growth Behavior of High-Strength Shipbuilding Steel
高强度船板钢奥氏体晶粒长大的规律
Analysis and Prevention Measures about Leakage of Austenitic SS Tube in Supercritical Boiler
超临界锅炉奥氏体不锈钢管爆漏原因分析及预防控制措施
Numerical Simulation on recrystallization of coarse-grained austenite in low-carbon Nb-microalloyed steel
低碳含铌钢粗晶奥氏体再结晶的数值模拟
Effect of abnormally large prior-austenite grains on the presence of surface intergranular cracks
异常粗大的奥氏体晶粒对表面晶间裂纹的影响
Research on the Grain Ultra-refinement in Austenite by Dynamic Recrystallization and Its Martensitic Transformation;
奥氏体动态再结晶晶粒超细化及其马氏体相变研究
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。