北京建筑大学学报
北京建築大學學報
북경건축대학학보
Journal of Beijing Institute of Civil Engineering and Architecture
2015年
1期
12-16,24
,共6页
徐琛%戚承志%陈昊祥%李博宁
徐琛%慼承誌%陳昊祥%李博寧
서침%척승지%진호상%리박저
惯性力%强迫振动方程%Pasternak地基模型%地基基床系数k0%剪切模量G0
慣性力%彊迫振動方程%Pasternak地基模型%地基基床繫數k0%剪切模量G0
관성력%강박진동방정%Pasternak지기모형%지기기상계수k0%전절모량G0
inertial force%forced vibration motion equation%Pasternak foundation model%foundation bed coefficient k0%shear modulus G0
为了研究在剪切波沿地下长型结构纵向传播情况下,惯性力对于结构与地基动力相互作用的影响,采用Pasternak地基模型,分别建立长型地下结构静力平衡方程、自由振动方程和强迫振动方程。通过振型叠加法将偏微分方程简化为常微分方程,利用微分算子法分别求得静力平衡方程、自由振动方程和强迫振动方程的解析解。通过算例计算,考虑地基土硬度对于地基基床系数k0、剪切波速vs、泊松比ν、地基土剪切模量G0的影响,比较并分析静力平衡方程解与强迫振动方程解的差别,得出当地基土硬度较大的情况下惯性力影响较小的结论。
為瞭研究在剪切波沿地下長型結構縱嚮傳播情況下,慣性力對于結構與地基動力相互作用的影響,採用Pasternak地基模型,分彆建立長型地下結構靜力平衡方程、自由振動方程和彊迫振動方程。通過振型疊加法將偏微分方程簡化為常微分方程,利用微分算子法分彆求得靜力平衡方程、自由振動方程和彊迫振動方程的解析解。通過算例計算,攷慮地基土硬度對于地基基床繫數k0、剪切波速vs、泊鬆比ν、地基土剪切模量G0的影響,比較併分析靜力平衡方程解與彊迫振動方程解的差彆,得齣噹地基土硬度較大的情況下慣性力影響較小的結論。
위료연구재전절파연지하장형결구종향전파정황하,관성력대우결구여지기동력상호작용적영향,채용Pasternak지기모형,분별건립장형지하결구정력평형방정、자유진동방정화강박진동방정。통과진형첩가법장편미분방정간화위상미분방정,이용미분산자법분별구득정력평형방정、자유진동방정화강박진동방정적해석해。통과산례계산,고필지기토경도대우지기기상계수k0、전절파속vs、박송비ν、지기토전절모량G0적영향,비교병분석정력평형방정해여강박진동방정해적차별,득출당지기토경도교대적정황하관성력영향교소적결론。
To study the influence of inertia force on dynamic interaction between underground structure and soil when shear wave propagates along axial direction of long underground structure, static equilibrium equation, free vibration motion equation and forced vibration motion equation are developed based on Pasternak foundation model. By applying mode superposition method the partial differential equation is converted into ordinary differential equation. These equations are solved analytically based on differential operator method. For evaluating the influence of foundation soil rigidity on foundation bed coefficient k0 , shear wave velocity vs , Poisson ratio ν, foundation soil shear modulus G0 , numerical example is given and the solutions for static equilibrium equation and forced vibration equation are compared. Comparison shows that the influence of inertial force on forced vibration of structure is relatively small when foundation soil rigidity is relatively high.