岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
3期
743-750
,共8页
桩板式抗滑挡土墙%振动台试验%动力响应%抗震设计
樁闆式抗滑擋土牆%振動檯試驗%動力響應%抗震設計
장판식항활당토장%진동태시험%동력향응%항진설계
anti-sliding sheet pile wall%shaking table test%dynamic response%seismic design
汶川地震路基震害调查表明,在顺层或堆积体边坡中的桩板式抗滑挡墙具有良好的抗震性能.为了更好地了解该结构的抗震性能和优化抗震设计方法,以大型振动台模型试验为手段对其进行研究.为明确地震作用下桩板式抗滑挡墙的地震响应特性,试验采用缩尺的卧龙台站实测地震波对模型激励.试验结果揭示了土压力沿桩身分布规律、桩体位移和边坡岩土体加速度的地震响应特征.研究表明,地震土压力沿桩身呈非线性分布,竖向地震荷载对水平加速度有放大效果.所以,双向加载时的地震土压力比水平单向加载时大,但二者差距在地震基本烈度VII、VIII度区域不显著.滑坡推力、滑床对桩的土体抗力和桩身位移均与输入地震动峰值加速度成正比,即随着地震动峰值加速度的增加,加速度放大比增大;滑动面材料剪切强度折减,滑坡推力、土体抗力和抗身位移均增大,且增大速率加快.此外,结合试验成果,建议了桩板式抗滑挡墙设计时地震综合影响系数Cz的合理取值,对应地震基本烈度VII、VIII、IX度区分别为0.2、0.35、0.4.试验结果有助于揭示该结构抗震机制,也为其抗震设计提供了可靠依据.
汶川地震路基震害調查錶明,在順層或堆積體邊坡中的樁闆式抗滑擋牆具有良好的抗震性能.為瞭更好地瞭解該結構的抗震性能和優化抗震設計方法,以大型振動檯模型試驗為手段對其進行研究.為明確地震作用下樁闆式抗滑擋牆的地震響應特性,試驗採用縮呎的臥龍檯站實測地震波對模型激勵.試驗結果揭示瞭土壓力沿樁身分佈規律、樁體位移和邊坡巖土體加速度的地震響應特徵.研究錶明,地震土壓力沿樁身呈非線性分佈,豎嚮地震荷載對水平加速度有放大效果.所以,雙嚮加載時的地震土壓力比水平單嚮加載時大,但二者差距在地震基本烈度VII、VIII度區域不顯著.滑坡推力、滑床對樁的土體抗力和樁身位移均與輸入地震動峰值加速度成正比,即隨著地震動峰值加速度的增加,加速度放大比增大;滑動麵材料剪切彊度摺減,滑坡推力、土體抗力和抗身位移均增大,且增大速率加快.此外,結閤試驗成果,建議瞭樁闆式抗滑擋牆設計時地震綜閤影響繫數Cz的閤理取值,對應地震基本烈度VII、VIII、IX度區分彆為0.2、0.35、0.4.試驗結果有助于揭示該結構抗震機製,也為其抗震設計提供瞭可靠依據.
문천지진로기진해조사표명,재순층혹퇴적체변파중적장판식항활당장구유량호적항진성능.위료경호지료해해결구적항진성능화우화항진설계방법,이대형진동태모형시험위수단대기진행연구.위명학지진작용하장판식항활당장적지진향응특성,시험채용축척적와룡태참실측지진파대모형격려.시험결과게시료토압력연장신분포규률、장체위이화변파암토체가속도적지진향응특정.연구표명,지진토압력연장신정비선성분포,수향지진하재대수평가속도유방대효과.소이,쌍향가재시적지진토압력비수평단향가재시대,단이자차거재지진기본열도VII、VIII도구역불현저.활파추력、활상대장적토체항력화장신위이균여수입지진동봉치가속도성정비,즉수착지진동봉치가속도적증가,가속도방대비증대;활동면재료전절강도절감,활파추력、토체항력화항신위이균증대,차증대속솔가쾌.차외,결합시험성과,건의료장판식항활당장설계시지진종합영향계수Cz적합리취치,대응지진기본열도VII、VIII、IX도구분별위0.2、0.35、0.4.시험결과유조우게시해결구항진궤제,야위기항진설계제공료가고의거.
From the investigation of seismic hazards of subgrade in Wenchuan earthquake, the anti-sliding sheet pile wall has been proven to be an excellent seismic structure in bedding or accumulation slopes. In order to understand the seismic performance better and optimize the seismic design, large shaking table test is performed. In order to ascertain the seismic response characteristics of anti-sliding sheet pile wall, acceleration histories recorded at Wolong station in Wenchuan earthquake are scaled and used to excite the model. The test results reveal the distribution pattern of earth pressure along the pile, seismic response of displacement and accelerations in slopes under ground shaking. The research demonstrates that the distribution of seismic earth pressure is nonlinear along the pile; and vertical seismic load has amplification effect on horizontal acceleration. Therefore, the seismic earth pressure under bidirectional loads is larger than that under unidirectional horizontal load. However, the difference between them is not obvious in seismic zones of basic intensity VII and VIII. Furthermore, landslide thrust, soil resistance of sliding bed, and displacement of pile are proportional to the input seismic peak acceleration. It means that, with the increase of input peak seismic acceleration, the amplification ratio of acceleration increases and the material shear strength of sliding surface reduces. The landslide thrust, soil resistance and pile displacement increase;and the increment rates become larger. In addition, based on the test results, reasonable values of seismic coefficient Cz are proposed for the structure;and the values of Cz are 0.2, 0.35 and 0.4 in the seismic zones of basic intensity VII, VIII and IX respectively. The test results are helpful to reveal the seismic mechanism and can provide reliable basis for seismic design of anti-sliding sheet pile wall.