%0 Journal Article
%T 不可压缩弹性薄膜球形压痕问题的一种渐近解析解<br>An asymptotic analytical solution to the spherical indentation problem of incompressible elastic thin film
%A 焦志安
%A 吴剑
%A 万玲
%J 重庆大学学报
%D 2019
%R 10.11835/j.issn.1000-582X.2019.12.009
%X 针对刚性基底上不可压缩弹性薄膜的轴对称球形压痕问题，采用了一种基于Kerr模型的简单解析求解方法。在该方法中，薄膜上表面的接触压强与位移为线性微分关系。之后利用贝蒂互等定理，求解了该问题的高阶渐近解，推导了接触力、压痕深度和接触半径之间的显式关系。当忽略高阶项时，得出的高阶渐近解与现有研究中的低阶解相同。此外还建立了有限元模型来验证渐近解的精度。结果显示，与已有的低阶渐近解相比，高阶渐近解与现有的数值计算结果和有限元分析结果吻合得更好。<br>In order to solve the problem of axisymmetric indentation of an incompressible elastic film on a rigid substrate, a simple analytical method based on Kerr-model is derived, in which the differential relation between the contact pressure and the displacement of the film's upper surface is established. Then, the high-order asymptotic solution to the problem is solved by using Betti's reciprocal theorem and the explicit relation between contact pressure, indentation depth and contact radius is built. When the high-order term is ignored, the present asymptotic solution is the same as the existing low-order solution. In addition, a finite element model is established to verify the accuracy of the asymptotic solution. The result shows that, compared with the existing low-order asymptotic solutions, the higher-order asymptotic solution agrees better with the existing numerical results and the newly developed numerical simulation results
%K 球形压痕 不可压缩 Kerr模型 贝蒂互等定理 弹性薄膜 接触<br>spherical indentation incompressible Kerr-model Betti's reciprocal theorem elastic film contact
%U http://qks.cqu.edu.cn/cqdxzrcn/ch/reader/view_abstract.aspx?file_no=20191209&flag=1