机构地区: 东南大学交通学院
出 处: 《公路交通科技》 2011年第6期8-13,共6页
摘 要: 运用弹性薄板理论,根据连续配筋混凝土路面板挠度等效与应力等效原则,将作用于板中的车辆集中荷载通过傅里叶级数展开为等效的半波正弦荷载,提出了车辆荷载作用下脱空的连续配筋混凝土路面板的竖向位移和应力公式。结果表明:集中荷载作用下连续配筋混凝土板的最大挠度与荷载大小、板的宽度成正比,与板的厚度、横向弹性模量成反比,其中板的宽度与厚度影响显著。板的最大应力与荷载大小、板的宽度成正比,与板的厚度成反比,其中板的厚度影响显著。在脱空地基路段,应优先选择增加板的厚度来降低板的挠度和应力。分析结果为脱空的连续配筋混凝土路面的结构设计提供理论基础。 Based on the theory of elastic thin plates,the concentrated vehicle load of continuously reinforced concrete pavement(CRCP) was translated to the equivalent half-wave sine load through the Fourier series expansion according to equivalent bending deflection and stress principle,and the bending deflection and stress formulas of CRCP subjected to concentrated vehicle load were proposed.The results show that(1) the maximal bending deflection is proportional to vehicle load and slab width,and is inversely proportional to slab thickness and transverse elastic modulus.The influence of slab width and thickness are significant.The maximal stress is proportional to the vehicle load and slab width,and is inversely proportional to the slab thickness whose influence is significant;(2) increasing slab thickness is the priority choice to reduce the maximal bending deflection and stress of the pavement over hollow base.The results of analyses are helpful to the design of CRCP subjected to the concentrated vehicle load over hollow base.