岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
z2期
229-236,241
,共9页
硬填料坝%应力%有限元%地基弹模
硬填料壩%應力%有限元%地基彈模
경전료패%응력%유한원%지기탄모
hardfill dam%stress%finite elements%modulus of foundation
通过对一个100 m高典型硬填料坝的应力变形分析,指出坝体填筑过程和硬填料随龄期和应力状态变化的应力-应变特征的模拟对坝体应力变形结果影响显著不容忽略。采用二元本构模型和仿真计算方式,研究了地基弹性模量对坝体应力和强度安全性的影响。地基的变形对坝体应力有显著的影响。地基弹模较低时与较刚性地基的坝体应力情况差异很大。地基弹模较低时,竣工期坝基面中部的拉应力和坝址与坝踵处的压应力都很大,可能并不满足抗拉和抗压强度。与竣工期相比,挡水期坝基面的压应力增加,拉应力减小,抗压强度安全性减小,抗拉强度安全性增加。对于硬填料坝,竣工期和挡水期的抗剪强度安全系数均很高,一般可不进行抗剪强度的计算。
通過對一箇100 m高典型硬填料壩的應力變形分析,指齣壩體填築過程和硬填料隨齡期和應力狀態變化的應力-應變特徵的模擬對壩體應力變形結果影響顯著不容忽略。採用二元本構模型和倣真計算方式,研究瞭地基彈性模量對壩體應力和彊度安全性的影響。地基的變形對壩體應力有顯著的影響。地基彈模較低時與較剛性地基的壩體應力情況差異很大。地基彈模較低時,竣工期壩基麵中部的拉應力和壩阯與壩踵處的壓應力都很大,可能併不滿足抗拉和抗壓彊度。與竣工期相比,擋水期壩基麵的壓應力增加,拉應力減小,抗壓彊度安全性減小,抗拉彊度安全性增加。對于硬填料壩,竣工期和擋水期的抗剪彊度安全繫數均很高,一般可不進行抗剪彊度的計算。
통과대일개100 m고전형경전료패적응력변형분석,지출패체전축과정화경전료수령기화응력상태변화적응력-응변특정적모의대패체응력변형결과영향현저불용홀략。채용이원본구모형화방진계산방식,연구료지기탄성모량대패체응력화강도안전성적영향。지기적변형대패체응력유현저적영향。지기탄모교저시여교강성지기적패체응력정황차이흔대。지기탄모교저시,준공기패기면중부적랍응력화패지여패종처적압응력도흔대,가능병불만족항랍화항압강도。여준공기상비,당수기패기면적압응력증가,랍응력감소,항압강도안전성감소,항랍강도안전성증가。대우경전료패,준공기화당수기적항전강도안전계수균흔고,일반가불진행항전강도적계산。
The stress and deformation of a typical 100-meter-high hardfill dam is investigated. Both the process of the construction of the dam and the stress-strain relationship of the hardfill material which varied with the construction age and stress state have a great impact on the stresses and the deformation of the dam. The elastic modulus of the foundation has a great impact on the stresses of the dam. The stresses are quite different in a dam with a low elastic modulus compared with that with a rigid foundation. While the elastic modulus of the foundation decreases, the minor principal stress of the dam at the middle of the horizontal section adjacent to the foundation decreases; and the maximum principal stress at toe and heel of the dam increases at an empty reservoir. Both the tensile strength and compressive strength of the material may not meet the requirements of the dam on a foundation with a low elastic modulus. The compressive stress above the basement increases and the tensile stress decreases at a full reservoir compared with that in the empty reservoir. The anti-compressive safety factor of the dam decreases and the anti-tensile safety factor increases at full reservoir. The factor of shear strength safety is always high. Hence the analysis of a hardfill dam should be focused on the compressive and tensile strength safety.