1·The evolution of IMCs is related to the aging temperature and aging time.
IMC的演变主要是与老化温度、老化时间有关,较厚的IMC不利于焊接性能的提高。
2·Room temperature impact ductility decreased with the aging time increasing.
室温冲击韧度随时效时间的延长整体下降,为韧性断裂;
3·The hardness of the silica column increased with the increase of aging time.
延长陈化时间,硅胶整体柱的硬度随之增大。
4·And the expression of aging damage factor against aging time and aging temperature was obtained by experiment.
得到了老化损伤因子与老化温度和老化时间的关系式。
5·The yellow index of blends at different mixing time and thermal aging time increased obviously than that of pure polymer.
在不同混炼时间及热老化时间下,共混物的黄度指数相对纯聚合物有明显提高。
6·The effect of preparation temperature and aging time of the precursor on the properties of the resulting MgO was studied.
以不同沉淀剂制备了碱式碳酸镁前驱体,讨论了前驱体制备温度和制备时间对得到的氧化镁的影响。
7·For the same aging time, higher aging temperature increases fraction of precipitated particles and modified their morphology.
在相同的时效时间下,越高的处理温度可以得到更大的析出相粒子体积分数;
8·Activity of POD, which was positively correlated with virous vigor indexes of maize seeds, was also declined with aging time.
结果表明,玉米种子的发芽势、发芽率、发芽指数和活力指数均随老化时间的延长而降低;
9·With the prolonging of aging time and the going up of aging temperature, the unstable index of asphalt's gel increases gradually.
随老化时间的延长和老化温度的升高,沥青的胶体不稳定指数逐渐增加。
10·The shape recovery ratio in the alloy 1 with ultralow carbon contnet increases with increasing the aging time when aged at 1123K.
在112 3K时效时,超低碳合金1的形状回复率随时效时间的增加一直呈直线上升的趋势。