1.
Analysis of Surrounding Rock Pressure of Niuhushan Tunnel Under Unloading Effect
卸荷效应下牛湖山隧道围岩应力分析
2.
Analysis under Excavation Unloading of Open-Pit Slope;
考虑开挖过程卸荷效应的露天矿边坡分析
3.
The Numerical Analysis under Excavation Unloading of the Slope Stability of the Three Gorges Shiplock;
考虑开挖卸荷效应的三峡船闸边坡稳定性数值分析
4.
Finite element analysis of foundation unloading and relaxation effects of Xiaowan Arch Dam
小湾拱坝坝基开挖卸荷松弛效应的有限元分析
5.
ACOUSTIC RESPONSES TO ROCK CORE UNLOADING-DISTURBANCE AND UNLOADING-SENSITIVE ROCK MASS
岩芯卸荷扰动的声学反应与卸荷敏感岩体
6.
Reseach on the Formation Mechanism and the Engineering Effects of the Concentratioin Unloading Zone of the YangQu Hydronpower Station on the Yellow River
黄河羊曲水电站下坝址集中卸荷带成因机制及其工程效应研究
7.
THE RESEARCH ABOUT MECHANISM ON UNLOADING TIME EFFECT CAST-IN-PLACE BORED PILES
钻孔灌注桩成孔卸荷时效性理论研究
8.
Numerical Simulation of Rock Mass Unloading Damage and Its Engineering Application;
岩体卸荷损伤数值模拟及其工程应用
9.
Study on Unloading Mechanics and Its Reological Properties of Rock under High Strsss
高应力下岩石卸荷及其流变特性研究
10.
The Application of an Unloading Valve for the Billet CCM
一种卸荷阀在小方坯连铸机上的应用
11.
EXPERIMENTAL STUDY ON TIME-DEPENDENT PROPERTIES AND PORE WATER PRESSURE OF SOFT SOIL UNDER UNLOADING
软土卸荷时效性及其孔隙水压力变化试验研究
12.
Study and Application on Performance Test System of Automobile air Brake Unloading Valve;
汽车气制动卸荷阀性能测试系统的研究与应用
13.
Research on Lateral Unloading Stress Path and Wall Deformation For Foundation Pit;
基坑侧向卸荷应力路径及挡墙侧向变形研究
14.
Emergency Unload Control System of Power Generation Unit of Offshore Petroleum Platform
海上石油平台发电机组的应急卸荷控制系统
15.
Research on unloading relaxation criterion of high rocky slope excavation and its engineering application
岩石高边坡开挖卸荷松弛准则研究与工程应用
16.
STUDY ON PRESTRESS LOSS LAW OF ANCHOR CABLES IN DEEP UNLOADING DEFORMED RIPPED BLOCKS
深卸荷变形拉裂岩体锚索预应力损失规律研究
17.
The maximum load on a bearing should always be smaller than the relief load in order to avoid scuffing.
为了避免划伤,轴承上的最大负荷应该总是小于其卸载负荷。
18.
The maximum load on a bearing should always be smaller than the relief load in order to avoid scuffing and brineling.
为了避免划伤和压坑,轴承上的最大负荷应该总是小于其卸载负荷。