1) Acacia baileyana
贝利氏相思
1.
Tissue Culture and Rapid Propagation of Acacia baileyana;
贝利氏相思的组织培养和快速繁殖
2) Baillie pill
贝利氏丸
3) Bailey test
贝利氏试验
4) A·Cunning haniihk
肯氏相思
1.
The Comparative Experiment of Afforestation Growth between A·Acdaia mangiun wilia, A·Cunning haniihk, A·Aula coarpa and Acacia crassicapa.A;
马占相思、肯氏相思、纹荚相思、厚荚相思造林生长比较试验
5) bainite transformation
贝氏体相变
1.
Effect of deformation parameters on bainite transformation of Nb-microalloyed low carbon steel;
热变形参数对铌微合金钢贝氏体相变的影响
2.
Research on bainite transformation in GDL-1 steels with different rare earth content;
不同稀土含量的GDL-1钢中贝氏体相变研究
3.
This paper Overviewed recent research of bainite transformation.
本文综述了贝氏体相变的最新研究进展。
6) bainitic transformation
贝氏体相变
1.
Orientation Relationship of Bainitic Transformation in a Cu Zn Al Mn Alloy;
Cu-Zn-Al-Mn合金贝氏体相变的位向关系
2.
Point-of-views on mechanism of bainitic transformation given by different authors, displacists and diffusionists, on basis of morphology, kinetics or crystallography are critically reviewed.
钢、有色合金和一些陶瓷材料中都存在贝氏体相变。
3.
, segregate at grain boundaries or other defects, and even the carbide may precipitate, resulting in the increase of the driving force for nucleation, in turn, marked raise of the nucleation rate and acceleration of incubation for bainitic transformation.
外加应力使贝氏体相变形核率增大,等温孕育期缩短,即使所加应力远低于母相的屈服强度,由于钢中γ→α+γ的形核驱动力较大(约为kJ/mol数量级),贝氏体相变的膨胀应变能很小,过小的外加应力对形核率的影响甚微,考虑在外加应力的影响下,会使界面能量有所下降,也可能发生碳原子的再分布,偏聚在晶界或其它缺陷,甚至碳化物析出都会显著地增大形核率和缩短孕育期,有待进一步实验给予证明,无应力下,贝氏体相变动力学可以用Avrami的等温相变方程来表述;应力下则符合应力下铁素体及珠光体相变的动力学模型(经修改的Avrami方程),形变奥氏体促发贝氏体相变,但随后会发生奥氏体的力学稳定化,其机制可能和马氏体相变时的奥氏体力学稳定化不完全相同,仅形变形成的位错阻碍贝氏体以一定位向长大,使相变动力学迟缓,贝氏体相变时奥氏体力学稳定化的模型有待建立。
补充资料:贝利氏丸