1) cyclotomic Zp extension
分圆Zp扩张
2) cavity expansion
圆孔扩张
1.
According to Mohr-Coulomb failure criteriont,he stress-strain-volume change relationshipst,he volume balance and energy conservation equations,and the rules of large deformation and non-associated flow under high stresses,the limit bearing capacities of cavity expansion are given considering the large deformation and dilation with volumetric change and large deformation,respectively.
根据圆孔扩张过程中塑性区土体在孔扩压力作用下的应力–应变–体变关系、扩孔过程中的能量守恒原理、非相关联流动准则以及莫尔–库仑破坏准则,分别给出考虑体变守恒和大变形规律2种条件下砂性土圆孔扩张问题的极限扩孔压力计算公式。
2.
The stress distribution due to the cavity expansion is considered as three zones, the first is failure zone, the second is plastic zone and the third is elastic zone.
将土体在圆孔扩张过程中的应力分布分为三个区域,基于修正剑桥模型,推导了圆孔扩张过程中土体在三个区域的超孔隙水压力的解析表达式,对比分析了固结比对土体中应力分布的影响。
3.
In this paper,the stress distribution due to the cavity expansion is considered as three zones,the first is failure zone,the second is plastic zone and the third is elastic zone.
将土体在圆孔扩张过程中的应力分布分为三个区域,基于修正剑桥模型推导了圆孔扩张过程中土体在三个区域的超孔隙水压力的解析表达式。
3) cylinder expansivity
圆柱扩张
4) cylindrical cavity expansion
圆孔扩张
1.
place tubular piles are analytically analyzed by making use of cylindrical cavity expansion theory,and by comparison with general piles,its superiorities in respect of disturbing soils are displayed.
应用圆孔扩张理论 ,分析了筒桩施工挤土效应 ,并通过比较 ,得出筒桩施工挤土效应远远小于普通沉管灌注桩或预制实心桩 ;筒桩可内外承担摩阻力 ,承载力高 ,挤土效应小 ,是一种比较理想和值得推广的桩型。
5) Round holes extension
圆径扩张
补充资料:分圆扩张
分圆扩张
cydotomic extension
分圆扩张!叮dotomic exteosi.;即yro毗钾口.碑比“能],域k的 由k添加单位根(见原根(prlnlitive root))得到的扩域K.有时也用于称呼K在人上的任意于扩张一个无限代数扩张,如果是一些有限分圆扩张的并,则称为分圆扩张.当k二Q为有理数域时所得到的分圆域(cydotomic field)是分圆扩张的重要例子设灭的特征为0,丸(C,)为添加本原单位根C。后得到的分圆扩张,则k(么)是k与分圆域Q(C,)的合成,因而分圆域的很多性质可以搬到分圆扩张上去.例如,k(认)是k的Abel扩张(这对特征有限的域也成立),k(心、)/k的Galois群是Q(C。)/Q的Galois群的子群,特别地,前一个Galois群的阶能整除势伪),价(n)为Euler函数. 当k为代数数域时,在k(气)/k中分歧的素除子能整除n,但当k尹Q时整除。的素除子在k代。)中仍可能是不分歧的.代数数域的分圆扩张,若其Galois群r与l进数的加法群Z,同构,则称为分圆r扩张(见[2],【3],14】)·当C‘“k时,此r扩张形如k。=U,k。,其中k。=火(心,.)·
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