1·The compressive strength also varied with the curing time.
养护时间不同,其抗压强度有明显的差异。
2·The compressive strength and porosity of the product are measured.
对制品进行抗压强度和气孔率的测试观察。
3·Simultaneously, the compressive strength of concrete falls markedly.
混凝土抗压强度降低比较明显。
4·The compressive strength was increased by the addition of Na or K salt.
当液剂中添加钾或钠盐时,可使固化体的压缩强度增强;
5·The effect of side-stress to improve cement-loess axial compressive strength is little.
侧压力在增大水泥黄土轴向抗压强度方面的贡献是比较小的。
6·The effects of different temperatures on compressive strength and bulk density were studied.
主要探讨了不同的烧结温度对试样的耐压强度和体积密度的影响。
7·In addition, the relationship between the fractal dimension and compressive strength is approached.
此外,对分形维数与抗压强度的关系也进行了探讨。
8·The cement remaining in the zone forms an effective hydraulic seal with a high compressive strength.
留在层内的水泥形成了一个具有高抗压强度的有效的液压密封。
9·The mechanical strength of diamond crystal particle is usualy eveluated by measuring its compressive strength.
单颗粒压缩强度是衡量人造金刚石机械强度的重要参数之一。
10·The compressive strength of concrete at an age t depends on the type of cement, temperature and curing conditions.
时间t时的抗压强度与水泥种类,温度以及养护条件有关。