The softening mechanism is dynamic recrystallization.
软化的主要机制为动态再结晶;
The softening mechanism is mainly dynamic recrystallization.
软化机制主要为动态再结晶。
The dynamic recrystallization of ferrite will occur at high strain.
应变量较高时,将会发生铁素体的动态回复和再结晶。
Dynamic recrystallization fraction is close to 1 during rough rolling;
薄板坯连铸连轧粗轧阶段的动态软化率接近于1。
As the temperature elevating, dynamic recrystallization was more fully.
随变形温度升高,再结晶区域增大。
The dynamic recrystallization grain size has power law relation with Z parameter.
再结晶晶粒尺寸和Z参数呈幂律关系。
Dynamic recrystallization takes place in the weld nugget zone and fine grains are achieved.
焊核区发生动态再结晶,生成细小的等轴晶粒。
And the more the deformation degree increases, the more the grains of dynamic recrystallization.
且随变形程度的增大,动态再结晶晶粒越来越多。
With the increase of reduction ratio, the volume fraction of dynamic recrystallization increases.
随着压下率的增加,动态再结晶体积分数升高;
The microstructure of MB26 alloy during static and dynamic recrystallization process was studied.
研究了热挤压态MB 26镁合金的静态与动态再结晶过程。
It is shown that dynamic recrystallization of ferrite can occur in low carbon microalloyed steels.
试验结果表明,低碳微合金钢能够发生铁素体动态再结晶。
Only deformation is higher the critical deformation can the dynamic recrystallization be occurred.
只有变形量高于临界变形量时才能发生动态再结晶。
The microstructure of AZ31 magnesium was consist of dynamic recrystallization grain and large grain .
显微组织由细小动态再结晶和未变形的大晶粒组成。
The relation between dynamic recrystallization of austenite SWRH82B steel and parameter Z was analyzed.
同时,分析了参数Z和动态再结晶的关系。
The dynamic recrystallization behavior in rolling process affects directly the reliability of prediction.
轧制过程中发生的动态再结晶行为直接影响着预报结果的可靠性。
The standard deviation of dynamic recrystallization grain size decreases with the increase of strain rate.
动态再结晶晶粒尺寸标准偏差随应变速率的增加而减小。
When the temperature is constant, the dynamic recrystallization was increased as the strain rate decreased.
当温度一定时,随着应变速率的降低材料越容易发生动态再结晶。
At the same velocity, the dynamic recrystallization phenomenon is rather distinct with the rise of temperature.
在相同的速度下,随着温度的升高,动态再结晶现象比较明显。
The model of post-dynamic recrystallization has been obtained by using multivariate nonlinear regression analysis.
采用多元非线性回归法得到了后动态再结晶模型。
The dynamic recrystallization mechanism during hot compress was examined by the true stress-strain curves and TEM.
采用真应力一真应变曲线和TEM研究其高温压缩变形中的流变应力行为和它的动态再结晶过程。
The dynamic recrystallization behavior is inhibited with the increase of strain rate, but the grain size decreases.
动态再结晶行为随着应变速率的增大而逐渐被抑制,但晶粒尺寸反而减小;
The fine grain and narrow HAZ were found in friction stir weld and the dynamic recrystallization produces fine grain.
焊核区由于动态再结晶具有细小的等轴晶粒,旁边存在一个特殊的组织形貌——热机影响区域。
It was discovered that there is no distinct influence of percentage of dynamic recrystallization on meta-dynamic recrystallization.
发现动态再结晶百分比对亚动态再结晶过程没有明显的影响。
The major deformation mechanisms were found to be dislocation glide, grain breaking, and geometric dynamic recrystallization (GDRX).
合金的变形机制主要是位错滑移,晶粒碎化和几何动态再结晶机制。
The effect of uneven distribution of strain during compression on dynamic recrystallization and grain size of austenite was analyzed.
分析了热模拟变形过程中的非均匀应变对奥氏体动态再结晶及晶粒尺寸的影响。
A new dynamic recrystallization model consisting of particle-stimulated nucleation and sub-grain rotated-induced nucleation was proposed.
为此,提出了一种新的粒子激发形核与亚晶倾转形核长大的混合再结晶模式。
These phenomena have already been mentioned above, the paper explained using dynamic recovery, dynamic recrystallization and vacancy theory.
根据上述诸现象,文章用动态回复再结晶理论、空洞理论等进行了解释。
The dynamic recrystallization and recrystallized grain sizes of heading for high-temperature alloy (GH4169) bolt are simulated with this software.
应用该软件分析了高温合金(GH4169)螺栓镦挤工艺的动态再结晶过程和再结晶的晶粒度分布。
According to origin mechanism and process, recrystallization in mylonite can be divided into dynamic recrystallization and static recrystallization.
依据形成机制和过程可以划分为动态重结晶和静态重结晶作用。
Rotational Dynamic Recrystallization (RDR) mechanism which based on mechanics assistance can well explain the microstructure evolution within the ASB.
一种基于力学辅助的旋转式动态再结晶(rdr)机制可以很好的解释as B内组织的演化过程。
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