1) Crystal annealing
晶体退火
2) annealing twin
退火孪晶
1.
The annealing twins occur in GH4199 alloy with electric field treatment and the number of twins increases w.
6%;合金经电场处理后产生退火孪晶,随处理时间的延长孪晶数量增加;孪晶的出现可以改变变形过程中显微裂纹的扩展方向,增加合金塑性变形功,推迟断裂时间,从而提高合金断裂延伸率;此外,电场处理提高了合金变形均匀性,亦能改善合金塑性。
2.
The results show that, most annealing twin microstruc- ture distribute in austenite matrix of annealed sample, and the deformation twin formed during tensile strain make the sample attain high strength and high plasticity.
结果表明,轧制后退火处理钢板的室温组织为奥氏体基体中存在大量的退火孪晶,在拉伸变形中形成的形变孪晶使产品获得了高强度、高塑性。
3) annealing crystallization
退火晶化
1.
Comparing with annealing crystallization,many cha racteristics in the shock wave crystallization can not be explained using diffus ion theory.
与退火晶化比较 ,激波晶化具有一系列鲜明特征 ,这些特征是固态下扩散性相变理论难以解释的 ,有深刻的物理内涵。
4) annealing twins
退火孪晶
1.
The results show that the fracture mechanism of the sheets is typical toughness fracture under the condition of tensile failure,and the microstructure is austenitic with a large number of annealing twins before tension.
实验结果表明钢板拉伸时发生典型的延性断裂;拉伸前的组织为伴有大量退火孪晶的奥氏体;在拉伸过程中退火孪晶转变成形变孪晶,使产品的强度和塑性提高;退火过程中形成的织构组分有利于塑性变形。
2.
The results show that the annealing twins and the massive fault are found after annealing, moreover with the ascensionof temperature, the grain size, annealing twins quantity and the fault density increase also.
结果表明:退火后有退火孪晶和大量的层错存在,而且随温度的升高,晶粒尺寸变大、孪晶的数量和层错密度也随晶粒尺寸的增加而增大;此外孪晶移动到边界处会受到阻碍,形成非共格的孪晶界面。
5) annealing twin
退火双晶
6) recrystallization annealing
再结晶退火
1.
Model of recrystallization annealing and properties of niobium microalloyed high strength steel sheet after cold rolling;
高强冷轧铌钢的再结晶退火与性能模型
2.
Study on Modeling and Simulation of Recrystallization Annealing Process for Material with Second Phase Particle by Cellular Automata Method;
二相粒子材料再结晶退火的元胞自动机模型及其模拟研究
3.
EBSD investigation of cold-rolled non-oriented silicon steel in recrystallization annealing process
冷轧无取向硅钢再结晶退火过程的EBSD分析
补充资料:软化退火(见低温退火)
软化退火(见低温退火)
soft-annealing
rU0nhUO tUihUO软化退火(soft一annealing)见低温退火。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条