1) hydrogen-induced loss
氢感应损失
2) stress loss
应力损失
1.
Application technology of stress loss of pre-stressed anchor during stretch locking;
预应力锚杆在张拉锁定时应力损失的应用技术
2.
Taking anchor-chained piles project as example,this paper gives an analysis on the stress loss of pressed strand anchor and describe the reasons of the prestreesed loss and puts forward countermeasures for reducing the loss.
文章结合工程实践通过对锚索预应力损失进行分析统计,阐述了预应力损失的原因,提出了避免和减少预应力损失的措施。
3.
Based on the observed data,a statistical empirical formula was put forward of for soil pressures and main horizontal stress losses of pit walls in foundation pit excavation in north China plain.
为切实提高土压力计算的准确性,进行了大量的基坑周边土压力现场监测,以现场监测数据为依据,总结出了华北平原地下不同深度土压力(水平主应力)计算的统计型经验公式和基坑开挖导致的坑壁土体水平主应力损失的统计型经验公式,介绍了土压力现场监测方法与过程,给出了监测实例。
3) effective losses
效应损失
1.
The peasants endured more effective losses.
20世纪30年代初,县地方政府为给乡村治理各项新举措筹集经费,骤然加重了农民的田赋正附税负担,同时,其他负担的存在使得农民负担更趋沉重,农民承受了更大的效应损失。
4) induced loss
感应损耗
5) Hydrogen induced ductility loss
氢致塑性损失
6) prestress losses
预应力损失
1.
Analysis of factors affected on prestress losses of unloading rock mass;
卸荷岩体锚固预应力损失的影响因素分析
2.
Prediction of Thermal Effects, Shrinkage and Creep Effects, and Prestress Losses in Long-Span PC Box Girder Bridge;
大跨预应力混凝土箱梁桥非荷载效应及预应力损失研究
3.
Based on ideal prestress design for beam string structures,the prestress losses caused by various factors during the construction and normal service stages are studied in this paper.
在理想预应力设计的基础上,对张弦梁结构的施工阶段和正常使用阶段的预应力损失进行了研究;对不同类型的预应力损失提出了相应的分析与补偿方法,并结合已建工程,采用顺序循环法,探讨了钢束的分批张拉损失,可供工程设计者参考。
补充资料:(OC-6-11)-二氢六氢铂酸
CAS: 16941-12-1
分子式: H2PtCl6·6H2O
分子质量: 517.92
熔点: 60℃
中文名称: 氯铂酸;(OC-6-11)-二氢六氢铂酸
英文名称: hexachloro-, dihydrogen, (OC-6-11)-Platinate;Chloroplatinic acid;chloroplatinic acid;dihydrogen hexachloroplatinate;dihydrogen hexachloroplatinate
性质描述: 红褐色结晶
分子式: H2PtCl6·6H2O
分子质量: 517.92
熔点: 60℃
中文名称: 氯铂酸;(OC-6-11)-二氢六氢铂酸
英文名称: hexachloro-, dihydrogen, (OC-6-11)-Platinate;Chloroplatinic acid;chloroplatinic acid;dihydrogen hexachloroplatinate;dihydrogen hexachloroplatinate
性质描述: 红褐色结晶
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