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   台阶生长 在 金属学及金属工艺 分类中 的翻译结果: 查询用时:0.451秒
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  step growth
    Step Growth of Primary Silicon in Al Si Alloy
    Al-Si 合金中初晶 Si 的台阶生长
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  “台阶生长”译为未确定词的双语例句
    SUBUNITS AND THEIR SYMPATHETIC NUCLEATION-LEDGEWISE GROWTH OF BAINITE IN A Cu-Zn-Al ALLOY
    Cu-Zn-Al合金贝氏体的亚单元及其激发形核、台阶生长
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    The experimental results show that the bainitic transformation in Cu-Zn-Al alloys occurs by a diffusioncontrolled ledgewise mechanism.
    实验结果表明,Cu-Zn-Al合金的贝氏体相交属扩散控制的台阶生长机制。
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    The subunits are sympathetically nucleated. Three types of sympathetic nucleation were observed: face-to-face, edge-to-edge and edge-to-face.
    亚单元是通过激发形核的,观察到三种类型的激发方式:面-面激发、边-边激发及边-面激发.Cu-Zn-Al合金的贝氏体相变为激发形核-台阶生长过程.
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    The height of relief is 60-140nm, and the maximum shape deformation is ca. 0.23. The multi-layer structure of bainite and the effect of carbon and silicon on the fine structure of bainite can be interpreted by sympathetic nucleation-ledgewise growth mechanism.
    超亚单元的浮突高度为60-140nm,最大形状变型量约为0.23.贝氏体的多层次结构以及合金无素C和Si对它的影响可用激发形核-台阶生长机制来解释.
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The ferrite/austenite interfacial structure in lower bainite has been

采用透射电镜技术研究高碳钢下贝氏体铁素体与母相奥氏体界面结构,发现铁素体宽面上存在可移动的生长台阶、巨型台阶以及它们的三维形态;在下贝氏体铁素体宽面上还存在结构台阶,生长台阶也可以由结构台阶演变而来,为下贝氏体的台阶生长机制提供了实验证据。

The subunit of bainite in a Cu-Zn-Al alloy has been observed by means of TEM. The shape, size and distribution of subunits under TEM are the same as those obtained by scanning tunneling microscope. The ledges on subunit were found to be grown up by ledgewise mechanism. The subunits are sympathetically nucleated. Three types of sympathetic nucleation were observed: face-to-face, edge-to-edge and edge-to-face.

利用透射电镜(TEM)观察到Cu-zn-Al合金贝氏体的亚单元结构,其形状、大小及分布规律与扫描隧道显微分析(STM)的结果一致.亚单元上有台阶存在,表明它们是通过台阶机制生长的。亚单元是通过激发形核的,观察到三种类型的激发方式:面-面激发、边-边激发及边-面激发.Cu-Zn-Al合金的贝氏体相变为激发形核-台阶生长过程.

In order to investigate the bainitic transformation mechanism in Cu-base alloys, the fine structure of bainites in three kinds of Cu-Zn-Al alloys was studied with the transmission electron microscopy (TEM). Three-dimensional ledges were observed on the broad faces and at the tip of bainitic plates, which proves the real existence of ledges. The height of the ledges ranged from nearly 2 nm to about 100 nm . Kink and small ledges at nanometer scale on the riser of a superledge were found for the first time. The...

In order to investigate the bainitic transformation mechanism in Cu-base alloys, the fine structure of bainites in three kinds of Cu-Zn-Al alloys was studied with the transmission electron microscopy (TEM). Three-dimensional ledges were observed on the broad faces and at the tip of bainitic plates, which proves the real existence of ledges. The height of the ledges ranged from nearly 2 nm to about 100 nm . Kink and small ledges at nanometer scale on the riser of a superledge were found for the first time. The experimental results show that the bainitic transformation in Cu-Zn-Al alloys occurs by a diffusioncontrolled ledgewise mechanism.

为探讨铜合金的贝氏体相变机制,用透射电镜研究了三种Cu-Zn-Al合金贝氏体的精细结构,在贝氏体片条的宽面及生长前端均观察到三维形态的台阶,表明台价是客观存在的实验事实。台阶的高度范围很大,既有近百nm的巨型台阶,也有nm级生长台阶。在贝氏体生长前端的巨型台阶阶面上首次发现nm级扭折和小台阶。实验结果表明,Cu-Zn-Al合金的贝氏体相交属扩散控制的台阶生长机制。

 
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