信阳师范学院学报(自然科学版)
信暘師範學院學報(自然科學版)
신양사범학원학보(자연과학판)
JOURNAL OF XINYANG NORMAL UNIVERSITY(NATURAL SCIENCE EDITION)
2015年
2期
303-307
,共5页
刘林超%冯震宇%闫盼%陈晴晴
劉林超%馮震宇%閆盼%陳晴晴
류림초%풍진우%염반%진청청
连续介质力学模型%部分埋入%纵向振动%复刚度%桩土模量比
連續介質力學模型%部分埋入%縱嚮振動%複剛度%樁土模量比
련속개질역학모형%부분매입%종향진동%복강도%장토모량비
continuous mechanics model%partially embedded%vertical vibration%complex stiffness%pile-soil modulus ratio
采用连续介质力学模型,考虑桩-土之间的连续条件和边界条件,得到了土体的纵向振动位移,建立了埋入和外露部分桩基的纵向振动微分方程。考虑埋入和外露部分桩基的连续条件和边界条件,求解了部分埋入单桩的纵向振动,并以数值算例的形式讨论了桩基埋入深度和桩土模量比对桩顶复刚度的影响。通过参数分析和讨论,表明部分埋入桩纵向简谐振动存在共振现象,桩基的埋入深度和桩土模量比对桩顶复刚度有较大影响,且桩基外露部分越长,桩顶复刚度随频率变化曲线波动越厉害。
採用連續介質力學模型,攷慮樁-土之間的連續條件和邊界條件,得到瞭土體的縱嚮振動位移,建立瞭埋入和外露部分樁基的縱嚮振動微分方程。攷慮埋入和外露部分樁基的連續條件和邊界條件,求解瞭部分埋入單樁的縱嚮振動,併以數值算例的形式討論瞭樁基埋入深度和樁土模量比對樁頂複剛度的影響。通過參數分析和討論,錶明部分埋入樁縱嚮簡諧振動存在共振現象,樁基的埋入深度和樁土模量比對樁頂複剛度有較大影響,且樁基外露部分越長,樁頂複剛度隨頻率變化麯線波動越厲害。
채용련속개질역학모형,고필장-토지간적련속조건화변계조건,득도료토체적종향진동위이,건립료매입화외로부분장기적종향진동미분방정。고필매입화외로부분장기적련속조건화변계조건,구해료부분매입단장적종향진동,병이수치산례적형식토론료장기매입심도화장토모량비대장정복강도적영향。통과삼수분석화토론,표명부분매입장종향간해진동존재공진현상,장기적매입심도화장토모량비대장정복강도유교대영향,차장기외로부분월장,장정복강도수빈솔변화곡선파동월려해。
Considering the continuity conditions and boundary conditions of the pile and soil, the vertical dynamic displacement of the soil was obtained based on continuous mechanics model, and established the vertical dynamic dif-ferential equations of the embedded part and exposed part of the pile.The vertical vibration of partially embedded sin-gle pile was solved by considering the continuity conditions and boundary conditions of the embedded part and exposed part of the pile, and the influence of the length of embedment of pile and the pile-soil modulus ratio on complex stiff-ness at pile head was investigated with numerical example.Through the discussion of parameters, it was concluded that the resonance of partially embedded single pile will occur under harmonic dynamic load, and the length of embedment of pile and the pile-soil modulus ratio have great effect on the complex stiffness of the pile at pile head, the fluctuation of the curves of complex stiffness of the pile at pile head varying with frequency will more seriously when the length of exposed part of the pile is longer.