1) dislocation climb
位错攀移
1.
The creep rate resulting from dislocation climb induced by vacancy supereaturation during the anodic polarization has been calculated.
阳极溶解产生过饱和空位引起刃位错攀移,从而导致蠕变速率dε/dt的升高。
2) climb(ing) of dislocations,dislocation climb
位错攀移<冶>
3) dislocation climb
位错上升,位错攀移
4) dislocation climb
位错攀位
5) climb
[英][klaɪm] [美][klaɪm]
攀移
1.
The helices are identified to have the Burgers vector [111] and result from the climb process of screw [111] dislocation at high temperature.
位错蜷线偶是由[111]螺型位错偶经过攀移形成的。
2.
In this paper the process of vacancy condensation and nucleation is explained by the theory of diffuse dislocation climb for steady creep of alloy in high temperature.
对高温合金的稳态蠕变 ,利用位错扩散攀移理论解释了空位凝聚和空洞形核的过程 ,得出空位凝聚并形成空位集团主要是由于位错攀移所发射 (湮没 )空位 ,引起局部空位浓度异常所致 。
6) dislocation slip
位错滑移
1.
The experimental results show that strain rate doesn't affect the fracture mechanism of intragranular dimple and mainly dislocation slipping;the tensile strength is increased slightly along with the increase of strain rate,however,the elongation doesn't decrease in general which is decreased firstly and raised later with the increase of strain rate,the high s.
结果表明,应变速率对10Ni5CrMoV钢的断裂方式没有影响,拉伸试样均为塑性断裂,断裂微观机制主要是位错滑移;抗拉强度随应变速率增加而略有增加;伸长率随应变速率的增加先下降后上升,但总体无降低;高应变速率并未造成该钢的脆化。
2.
Through the analyses of the X-ray diffraction data and the corresponding crystallography, it was found that during the first pass of ECAP, the main deformation mode of α phase is {1011}(1012} twinning, while during the following passes the main deformation mode is dislocation slip.
α相在第1道次ECAP过程中主要的变形方式是{1011}〈1012〉孪生,在随后道次的ECAP过程中主要变形方式为位错滑移,变形方式的转变主要是由于ECAP造成的组织细化效应;对于β相,各道次ECAP的主要变形方式均为位错滑移。
3.
Twinning and dislocation slip have been proven to be the dominant model of plastic deformation when the temperature is bel.
当温度在动态再结晶温度以下时,材料的塑性变形主要是:孪生、位错滑移。
补充资料:中华攀雀
鸟 种:中华攀雀
鸟种描述:描述:雄鸟:体型纤小(11厘米)的山雀。顶冠灰,脸罩黑,背棕色,尾凹形。雌鸟及幼鸟似雄鸟但色暗,脸罩略呈深色。 虹膜-深褐;嘴-灰黑;脚-蓝灰。 叫声:高调、柔细而动人的哨音tsee;较圆润的piu及一连串快速的siu声。鸣声似雀鸟,"tea-cher"的主调接si-si-tiu副歌。 分布范围:俄罗斯的极东部及中国东北;迁徙至日本、朝鲜和中国东部。 分布状况:据悉在中国北方并不罕见,但冬季在中国东部、日本及南至香港则越来越常见。 习性:冬季成群,特喜芦苇地栖息环境。 注:有时作为攀雀(eurasian penduline tit)r. pendulinus的一亚种(参见郑作新,1987, 1994)。
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