岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
12期
3459-3463,3484
,共6页
土工膜%附加应力%布辛内斯克解
土工膜%附加應力%佈辛內斯剋解
토공막%부가응력%포신내사극해
geomembrane%additional stress%Boussinesq solution
土工膜与砂土界面力学特性直接影响着填埋场衬垫系统的稳定性。依据弹性力学和土力学的基本理论,推导出加肋土工膜与砂土界面附近砂土中附加应力解析解,得到相应的应力分布。分析结果表明,加肋土工膜与砂土界面中附加应力等值线以双曲线型拱、扩肩型拱和圆弧型拱这3种分布形态存在的,砂土中任意点附加应力分布形态只与肋块长度、肋块表面距离远近有关,与肋块所受端承阻应力无关;在相同条件下,条形肋块比块状肋块对砂土附加应力的影响大,条状加肋土工膜能更有效地提高界面的剪切性能;离肋块表面距离越远,砂土中附加应力值越小,当与肋块表面距离达到12 mm时,这时砂土中附加应力几乎为0,也即肋块对其附近砂土的影响范围为12 mm左右。
土工膜與砂土界麵力學特性直接影響著填埋場襯墊繫統的穩定性。依據彈性力學和土力學的基本理論,推導齣加肋土工膜與砂土界麵附近砂土中附加應力解析解,得到相應的應力分佈。分析結果錶明,加肋土工膜與砂土界麵中附加應力等值線以雙麯線型拱、擴肩型拱和圓弧型拱這3種分佈形態存在的,砂土中任意點附加應力分佈形態隻與肋塊長度、肋塊錶麵距離遠近有關,與肋塊所受耑承阻應力無關;在相同條件下,條形肋塊比塊狀肋塊對砂土附加應力的影響大,條狀加肋土工膜能更有效地提高界麵的剪切性能;離肋塊錶麵距離越遠,砂土中附加應力值越小,噹與肋塊錶麵距離達到12 mm時,這時砂土中附加應力幾乎為0,也即肋塊對其附近砂土的影響範圍為12 mm左右。
토공막여사토계면역학특성직접영향착전매장츤점계통적은정성。의거탄성역학화토역학적기본이론,추도출가륵토공막여사토계면부근사토중부가응력해석해,득도상응적응력분포。분석결과표명,가륵토공막여사토계면중부가응력등치선이쌍곡선형공、확견형공화원호형공저3충분포형태존재적,사토중임의점부가응력분포형태지여륵괴장도、륵괴표면거리원근유관,여륵괴소수단승조응력무관;재상동조건하,조형륵괴비괴상륵괴대사토부가응력적영향대,조상가륵토공막능경유효지제고계면적전절성능;리륵괴표면거리월원,사토중부가응력치월소,당여륵괴표면거리체도12 mm시,저시사토중부가응력궤호위0,야즉륵괴대기부근사토적영향범위위12 mm좌우。
The mechanical property of interface between geomembrane and sand is a critical problem in stability analysis of landfill liner system. Based on basic theories of elastic mechanics and soil mechanics, the analytical solution of additional stress is given. The additional stress distribution of sandy soil near the interface is analyzed. The results show that there are three kinds of distribution form of additional stress isolines, which are hyperbolic type arch, enlarge shoulder arch type and circular arc arch. The additional stress distribution patterns are only related with the length of reinforcement and the distance from the reinforcement surface. There are no relation to the bearing stress of reinforcement. Under the same conditions, the effect of strip reinforced geomembrane is larger than that of lump reinforced geomembrane. So the strip reinforced geomembrane can improve the interface shear performance more effectively. The farther the sandy soil from the interface, the weaker the additional stress. When the distance from the reinforcement surface is up to 12 mm, the additional stress is close to zero. That is to say, the range of influence of reinforcement is about 12 mm.