1) soil cohesion
土体黏聚力
1.
New formula can analyse the effect of soil cohesion, reflect the unloading effect of the soil over steel conduit in allusion to surcharge load, be applicated for the area where is multilayered soil over the conduit, and also can quantitatively reflect the unloading effect of orterde over the conduit.
新导出的计算公式可计入土体黏聚力的作用,能够反映管顶土层对地面荷载的卸荷作用,可用于管顶为多层土的地段;可定量反映出管顶上方不同位置处、不同厚度的硬土层对管顶竖向土压力的减载效果;较原来的计算公式有较大的改进。
2) soil cohesion
泥土的黏聚力
3) cohesion of soil
土体内聚力
1.
Discussion on the cohesion of soil changing with water content, cohesive soil content and dry density;
土体内聚力随含水量、粘粒含量及干密度变化关系探讨
4) cohesion
[英][kəʊ'hi:ʒn] [美][ko'hiʒən]
黏聚力
1.
Testing study on influence of freezing and thawing circulation on saline soil’s cohesion;
冻融循环对盐渍土黏聚力影响的试验研究
2.
Computation of lateral soil pressure on soil nailing wall considering cohesion force and cut slope angle;
考虑黏聚力及放坡角度的土钉墙侧土压力计算
3.
Nonlinear visco-elasto-plastic rheological model of rock with consideration of cohesion and internal friction coefficient;
考虑黏聚力与内摩擦系数的岩石黏弹塑性流变模型
5) cohesion force
黏聚力
1.
It considers the cohesion force of filling soil and the adhesive force on interfaces of retaining walls.
针对库仑土压力理论中图解法计算黏性土被动土压力过程繁琐及精度较低的问题,应用库仑平面滑裂面假定,考虑填土黏聚力及其与挡土墙墙背接触面上的黏着力,建立了可用于编程试算的黏性填土挡土墙的被动土压力计算公式。
2.
At the same time,cohesion forces of the negative sheared interfaces become 95 %,80 % and 54 % of those of original interfaces,and friction angles of the negative sheared interfaces become 90 %,76 % and 57 % of those of original interfaces respectively.
00时,对应反向剪切强度分别为各自正向初始强度的90%、75%、55%,对应的反向剪切黏聚力约为初始正向剪切黏聚力的95%、80%、54%,反向剪切摩擦角约为初始正向剪切摩擦角的90%、76%、57%。
6) Effect of soil cohesion
土体粘聚力影响
补充资料:氢化-1-癸烯四聚体、 三聚体
CAS:68649-12-7
沸点:316℃
中文名称:氢化-(1-癸烯四聚体与1-癸烯三聚体)
氢化-1-癸烯四聚体、 三聚体
英文名称:1-Decene, tetramer, mixed with 1-decene trimer, hydrogenated
Hydrogenated trimer and tetramer of decene
沸点:316℃
中文名称:氢化-(1-癸烯四聚体与1-癸烯三聚体)
氢化-1-癸烯四聚体、 三聚体
英文名称:1-Decene, tetramer, mixed with 1-decene trimer, hydrogenated
Hydrogenated trimer and tetramer of decene
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