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1)  Ausrenitic complete recrystallization region
奥氏体完全再结晶区
2)  austenite non-recrystallization region
奥氏体未再结晶区
1.
The effect of thermomechanical treatment processing(immediate quenching after deformation in the austenite non-recrystallization region)on microstructures of T91 ferritic heat resistant steel was investigated by compressive deformation performed on a Gleeble 1500 thermomechanical simulator.
在 Gleeble 1500热模拟实验机上采用热压缩实验方法,研究了形变热处理工艺即在奥氏体未再结晶区变形后直接淬火对 T91铁素体耐热钢微观组织的影响。
3)  austenite recrystallization
奥氏体再结晶
1.
According to the recrystallization during every pass sequence,a modified function considering the austenite recrystallization is put forward and adopted firstly.
根据各道次再结晶的变化规律 ,首次提出并采用了考虑奥氏体再结晶变化的修正函数 ,将轧制负荷与金属在变形过程中的组织变化联系起来 ,使预报精度明显提
2.
According to the experiment,the effects of rolling parameters on the extent of austenite recrystallization and grain size show a varying way in different temperature area.
在试验基础上就一般强度船板钢热变形时奥氏体再结晶百分数及晶粒尺寸与工艺参数的关系进行了研究。
4)  austenitic recrystallization model
奥氏体再结晶模型
1.
the result can accurately give expression to the actual value, and the austenitic recrystallization model is in according with the experiment result.
通过对实测结果与预测结果的对比分析可知 :作者所建奥氏体再结晶模型和实验结果比较吻
2.
Austenitic recrystallization phenomenon was simulated and a static austenitic recrystallization model of computer was established in hot rolled.
结果表明 :采用后插法来测定静态再结晶分数能够比较准确的反映实际情况 ;作者所建奥氏体再结晶模型和实验结果比较吻合。
5)  austenite spontaneity recrystallization
奥氏体自发再结晶
1.
The result shows: the critical temperature that austenite grain size abruptly coarsens is 1200℃;the minimum temperature of austenite spontaneity recrystallization is 850℃,the recrystallization austenite is needle austenite and spher austenite at 850~900℃ ; there is structure inheritance at the temperature under 900℃and there is no structure inheritance at the temperat.
对 10 Ni5 Cr Mo V钢奥氏体化温度对晶粒尺寸的影响及奥氏体自发再结晶的基本规律作了研究。
6)  Recrystallization of Austeniting phase transition
奥氏体相变再结晶
补充资料:奥氏体-贝氏体球铁
分子式:
CAS号:

性质:又叫奥-贝球铁。基体组织为奥氏体加贝氏体组织的球墨铸铁。这类球铁硅含量一般在1.4%~3.8%。含锰量小于0.5%,与普通球铁比较硅偏高、锰偏低。通过调节化学成分与热处理获得理想的奥-贝球铁的基体组织为针状贝氏体或无碳贝氏体一富碳奥氏体。这类球铁具有优良的综合机械性能、强度高、耐磨性好、韧性好、特别是有高的缺口韧性,可代替钢,用于制作重要受力结构件,如曲轴、齿轮、凸轮轴等。

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