1) dynamic crystallization
动态晶化
1.
In order to improve the magnetic properties by microstructure optimization for Nd2Fe14B/α-Fe nanocrystalline permanent magnets,the effects of dynamic crystallization on the microstructure and magnetic properties have been investigated by use of X-ray diffraction(XRD) and transmission electron microscopy(TEM) for the Nd10.
为改善纳米晶交换耦合Nd2Fe14B/α-Fe永磁合金微结构以提高磁性能,用熔体快淬和动态晶化热处理的方法制备了纳米晶交换耦合Nd2Fe14B/α-Fe永磁体,采用XRD和TEM等方法系统研究了动态晶化热处理对Nd10。
2.
1) alloy was prepared by rapid-quenching and subsequent dynamic crystallization.
采用快淬和动态晶化法制备了成分为Nd10。
2) atomizing kinetic crystallization
微团化动态结晶
3) dynamic solidification
动态结晶
1.
On the basis of the model of atomic cluster jump theory,a microdynamical model of crystal growth rate was developed under condition of the dynamic solidification.
利用原子簇团跳跃理论模型,建立了动态结晶条件下的晶体生长速度微观动力学模型,指出古典连续生长(ContinuousGrowth或CG)模型仅是本模型的一个特例。
4) dynamic recrystallization softening fraction
动态再结晶软化率
1.
By using the experiment results of high-temperature compressive deformation of D2 steel, the relationship between dynamic recrystallization softening fraction of high-temperature derofmation and deformation conditions is investigated.
本文利用D2钢高温压缩变形的实验结果研究了高温变形时动态再结晶软化率与变形条件的关系,同时应用多元回归法回归出动态再结晶软化率的数学模型。
5) dynamic recrystallization
动态再结晶
1.
Research on dynamic recrystallization for high Nb pipeline steels produced with FTSR;
高Nb管线钢在FTSR工艺中的动态再结晶行为研究
2.
Prediction models of austenite dynamic recrystallization of medium-carbon microalloyed steel during forging process;
非调质钢锻造过程奥氏体动态再结晶模型的建立
3.
Modeling dynamic recrystallization of pure nickel by cellular automaton;
纯镍动态再结晶过程的元胞自动机模型
6) Dynamic Recrystalization
动态再结晶
1.
The fine grain and narrow HAZ were found in friction stir weld and the dynamic recrystalization 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。
补充资料:多晶莫来石晶须(纤维)
分子式:
CAS号:
性质:莫来石相为主晶相的多晶纤维。化学成分为Al2O3 72%~77%,SiO222%~17%,B2O3 3%~5%,P2O51.5%~3.0%。纤维直径2~7μm,纤维长度20~125μm。使用温度1350℃。多采用溶胶-凝胶法制造。主要用作补强填料,也可作为轻质、隔热保温材料使用。
CAS号:
性质:莫来石相为主晶相的多晶纤维。化学成分为Al2O3 72%~77%,SiO222%~17%,B2O3 3%~5%,P2O51.5%~3.0%。纤维直径2~7μm,纤维长度20~125μm。使用温度1350℃。多采用溶胶-凝胶法制造。主要用作补强填料,也可作为轻质、隔热保温材料使用。
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