2) cavity expansion theory
圆孔扩张理论
1.
Considering the plugging effect of the pipe pile,the cavity expansion theory is applied to studying the squeezing effect of pipe pile.
首先综述了国内外管桩挤土效应和土塞效应的研究现状,然后在考虑土塞效应的前提条件下,利用圆孔扩张理论对管桩的挤土效应进行了分析研究。
2.
Based on the squeezing effect in the process of pile sinking,the squeezing behaviour of concrete-cored sand-gravel piles is analyzed by applying cavity expansion theory and consolidation theory.
从挤土桩沉桩过程产生的挤土效应出发,运用圆孔扩张理论和固结理论,分析了混凝土芯砂石桩的挤土性状。
3.
The cavity expansion theory used for plane problems is extended to the spatial axisymmetric condition to improve the analytical solution of soil displacement induced by pilesinking.
将平面圆孔扩张理论推广到空间轴对称条件,改进了沉桩引起的位移解析解;考虑土体的弹塑性和挤土引起的土体性质的变化,利用有限元法对沉桩进行了分析计算;对沉桩进行了离心模型试验。
3) cavity expansion method
圆孔扩张理论
1.
The radius of plastic area, the maximum compress stress caused by driving pile ,and the pore water stress can be concluded by using the cavity expansion method and the effective stress theory.
分析了软土地基中静压桩的挤土效应机理,依据圆孔扩张理论和有效应力原理,推导出塑性区影响范围、桩对土体的挤压应力、孔隙水压力估算公式等。
2.
Reviewed are five methods for the analysis of the penetration of jacked in piles,namely,cavity expansion method,strain path method finite element method,slip line method and calibration model test.
在分析饱和粘土中静压桩的贯入机理的基础上,对静压桩沉桩分析的圆孔扩张理论、应变路径法、有限元分析、滑移线理论和模型槽试验等五种方法逐一进行评述,并提出在传统的平面圆孔扩张理论基础上加以改进,采用准静态空间轴对称方程组对静压桩贯入过程进行模拟,从而得出土体位移、应力、初始超孔压的空间解析解,同时采用有限元分析、模型槽试验相互印证的研究方
5) theory of round-hole expansion
圆孔扩张理论
1.
After analyzing the general calculation methods of pile-soil stress ratio and pointing out their defects,this paper derived a new formula to calculate the stress-strain of pile and soil in loading process by using the theory of round-hole expansion and the harmony condition.
针对这些问题,通过引进圆孔扩张理论,根据平衡条件及位移协调条件,导出了受荷过程中桩土应力应变关系。
2.
The theory of round-hole expansion was used to simulate the mutual actions between pile and soil.
引进圆孔扩张理论,模拟桩土相互作用,分析了散体材料桩复合地基的应力分布特征,并导出了桩体与土体承载过程中的应力应变计算公式,在此基础上,充分考虑了布桩方式对承载力的影响,根据两种典型的布桩方式,分别提出了一套散体材料桩复合地基面积比承载力计算方法,弥补了常规计算方法的不足。
6) cylindrical cavity expansion
圆柱孔扩张理论
1.
Two constitutive relations(linear elastic model and ideal elastic-plastic model)and two pile-drivien process s simulation modes(stress boundary conditions method and cylindrical cavity expansion theory)are adopted and combined respectively to compute.
采取线弹性、理想弹塑性两种本构关系以及应力边界条件法、圆柱孔扩张理论两种沉桩过程模拟方式分别进行组合计算, 并对三种计算组合由于不同的本构关系和沉桩过程模拟方式所引起的超孔隙水压力、径向有效应力增量、地面隆起以及桩周土径向位移等沉桩效应的差异进行讨论, 得出一些初步结论。
补充资料:极大扩张和极小扩张
极大扩张和极小扩张
maximal and minimal extensions
极大扩张和极小扩张匡.习的司出目.公油抽lex妇心.旧;MaKcl.Ma刀‘.oe H Mll.”M田.妇oe PaC山一Pe皿朋] 一个对称算子(s笋nr贺苗c opemtor)A的极大扩张和极小扩张分别是算子牙(A的闭包,(见闭算子(cfo“月。详mtor”)和A’(A的伴随,见伴随算子(呐。int opera.tor)).A的所有闭对称扩张都出现在它们之间.极大扩张和极小扩张相等等价于A的自伴性(见自伴算子(义休.adjoint operator)),并且是自伴扩张唯一性的必要和充分条件.A.H.J’Ior朋oB,B.c.lll户、MaR撰
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参考词条