Dissertation > Mathematical sciences and chemical > Mechanics > Solid Mechanics > Deformation solid dynamics > Stress wave

Dynamic Numerical Simulation of Double Circle Cavities and Circle Lining Impacted by SH Wave

Author LiMingQiang
Tutor QiHui
School Harbin Engineering University
Course Solid Mechanics
Keywords The scatttreing of SH wave FEM Dynamic stress concentration Double circle cavities circle lining
CLC O347.4
Type Master's thesis
Year 2006
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The scattering problems and the dynamic stress concentration problems of SH-wave by double circle cavities, and circle lining in near field are investigated in this thesis by the method of FEM. There are two problems in simulating SH-wave issue by finite element method. The first is establishing artificial boundary problem, because of simulating the infinite field from the finite field in which intercept from the infinite field, so we introduce artificial boundary. The second is solving all kinds of disadvantageous influence in space-time dispersing to reduce error. In additional, the problems of load’s infliction and model’s size should be considered. In this article, we found the finite element model in allusion to the problem above, solved the equation by the general finite element analysis software ANSYS, gave some node’s displacements and stress solution vs. time and the dynamic stress concentration at the edge of cavity, discussed the result. Our analytic works in concrete are mainly as follows:Scattering of dynamic SH-wave and dynamic stress concentration problem are investigated by double circle cavities in half space. The error and solution bringing from finite element disperse are expatiated. The finite element model and result are given. The influence on displacement of different finite element model’s lateral boundary and the cavities’ radius and the variety of dynamic stress concentration at different material of medium are discussed.Scattering of dynamic SH-wave and dynamic stress concentration problem are investigated by circle lining cavities in half space. The result of finite element method and transmission and the result of displacement of the surface and the edge of cavity vs. time and the dynamic stress concentration factor of it are given.

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