1) resistance to sinking pipe
沉管阻力
2) pile-sinking resistance
沉桩阻力
1.
On the estimation of static pressure pile pile-sinking resistance in the area of Shenyang Liaoning;
浅谈辽沈地区静压桩沉桩阻力的估算
2.
Four representative formulae on the estimation of pile-sinking resistance were selected, and their applicability was evaluated with a great deal of measured data of projects.
分析了估算沉桩阻力的必要性。
3.
Taking into account the choice of pile and equipment type, the pile-sinking resistance must be estimated and the probability of pile-sinking should be evaluated before the construction.
然而,由于受桩型选择和设备选型等因素的影响,静压桩在施工前要对其沉桩阻力进行估算,评价沉桩可能性;另外,静压桩都是挤土桩,部分工程施工前要分析沉桩挤土效应的影响,并提出防护措施的建议。
3) penetration resistance
沉桩阻力
1.
This paper takes advantage of the data from static penetration testing(SPT) combined with graphic display technology to calculate penetration resistance of jacked piles.
利用静力触探的资料,结合图形显示技术计算沉桩阻力,并通过调节桩端阻力和桩侧摩阻力的两个修正系数α、β来使计算曲线和实测曲线吻合。
2.
The penetration resistance of jacked piles changes with different embedded depth,it is the integrated exhibition of soil properties and provides significant basis for selecting the jacked piling equipment and calculating the ultimate resistance capacity.
静压桩的沉桩阻力随入土深度的增加而不断变化,沉桩阻力是对土层性质的综合反映,同时也为分析沉桩可能性及选择沉桩设备、推算静压桩极限承载力提供了重要依据。
4) penetration resistance
沉贯阻力
1.
A study on the penetration resistance of bucket foundation;
筒型基础沉贯阻力估算方法
5) Jacking resistance
沉桩阻力
1.
Calculating jacking resistance of jacked pile by using beating counts of standard penetration test;
利用标贯击数估算静压桩的沉桩阻力
6) penetrating resistance
沉桩阻力
1.
Simulation computation of penetrating resistance based on static cone penetration data;
基于静力触探的静力压桩沉桩阻力模拟计算
2.
A computer program is compiled herein by taking the data of static sounding as the major input for calculating the penetrating resistance of jacked pile with the aid of artificial neural network.
本文将人工神经网络用于计算静力压入桩的沉桩阻力 ,编制了以静力触探资料为主要输入因素的计算程序 ,程序可以对比显示计算和实测曲线。
补充资料:肺循环阻力(或全肺阻力)
肺循环阻力(或全肺阻力)
pulmonary circulation resistance
血液在肺部血管内流动时和血管壁之间的摩擦力和血液内部的摩擦阻力。肺动脉管壁较薄,分支短而管径大,故肺动脉的可扩性较大,对血流的阻力很小,仅0.12PRU(外周阻力单位)。肺循环动脉部分总的阻力和静脉部分总的阻力相等,故血液流动时在动脉部分的压力降落和静脉部分的压力降落相等。
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