1) confined compression test
侧限压缩实验
1.
The compressibility of the coal is first defined, and the confined compression test method is presented.
提出了粉煤可压缩性定义,设计了粉煤侧限压缩实验方法。
2) oedometer test
侧限压缩试验
1.
Based on the oedometer test, the mechanics behavior of sand was studied.
利用侧限压缩试验,研究了松散型砂在侧限应力状态下的力学行为,描述型砂压实状态的物理量,提出了型砂的瞬时压缩模量与压缩状态相关的假设。
3) unconfined compression test
无侧限压缩试验
4) confined compression
侧限压缩
1.
Crushing and fractal behaviors of quartz sand-gravel particles under confined compression;
侧限压缩下石英砂砾的颗粒破碎特性及其分形描述
2.
Deformation field analysis of cohesive soil in process of confined compression by the technique of DPDM
基于DPDM技术的某黏性土侧限压缩试验变形场分析
3.
A confined compression test and a direct shear test were used to investigate the crushing behavior of quartz coarse sand and fine gravel particles under different compressive stress,and measure the breakage by B_(15),B_(6o),B_g andB_r.
本文利用侧限压缩试验和直剪试验研究各级应力下石英粗砂和细砾的颗粒破碎特性和强度特性,运用4种破碎率B_(15)、B_(60)、B_g。
5) site confined compression test
现场侧限压缩试验
1.
An analysis method for uncoupled K-G model parameters in site confined compression test of rock-fill materials and its application on CFRD;
堆石料现场侧限压缩试验解耦K-G模型参数分析方法及在面板坝中的应用
6) non-confining compression strength test
无侧限抗压强度实验
1.
Through indoor conventional experiment, saturation test and non-confining compression strength test, research has been put to the physical and mechanical characteristics of the loess consolidated by Na_(2)SiO_(3) solusition, a Na_(2)SiO_(3) composite body, and the basic mechanical parameters of the loess near the Daming Palace Han Yuan Temple have been acquited.
通过室内常规实验、浸水实验、无侧限抗压强度实验,对Na2SiO3溶液加固的黄土-Na2SiO3复合体的物理力学特性进行了室内实验研究,取得了(唐)大明宫含元殿窑址附近黄土-Na2SiO3复合体的基本力学特性参数,可供该地区其他类似条件的遗址加固设计参考。
补充资料:侧向压缩强度
分子式:
CAS号:
性质:又称沿层压缩强度。对层压塑料板的层压侧面施加平行于层间方向的压应力所能承受的强度。层压塑料板一般、是由浸过树脂的玻璃纤维布或纸叠合起来,在一定的压力和温度下固化制得,所以它是各向异性材料,特别对沿层方向和垂直层面方向,性能相差更为显著。因此,在报告它的力学性能时必须说明方向。
CAS号:
性质:又称沿层压缩强度。对层压塑料板的层压侧面施加平行于层间方向的压应力所能承受的强度。层压塑料板一般、是由浸过树脂的玻璃纤维布或纸叠合起来,在一定的压力和温度下固化制得,所以它是各向异性材料,特别对沿层方向和垂直层面方向,性能相差更为显著。因此,在报告它的力学性能时必须说明方向。
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