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Axisymmetric Hertz's Contact Model
Posted Mar 13, 2017, 9:40 p.m. EDT Materials, Structural Mechanics Version 5.2a 2 Replies
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Hi All,
I have a quite simple 2D axisymmetric system: indentation (0.75 um) of a spherical probe (5 um diameter) into a relatively large and soft linear elastic sample (40 um height, E=1 kPa, Poisson's ratio=0.48). However, I'm constantly getting reaction force about 20% lower than predicted by Hertz's theory, with different meshes and step sizes. I think the problem could be in the high Poisson's ratio, but I see no difference in solution with and without "nearly incompressible material" selection. For lower Poison's ratio the solution is closer to the theory, and when I'm using the hyperelastic Mooney–Rivlin material too. But I need a linear elastic material for my future studies and want to find the reason for such difference. Any advice?
Thanks,
Yuri
I have a quite simple 2D axisymmetric system: indentation (0.75 um) of a spherical probe (5 um diameter) into a relatively large and soft linear elastic sample (40 um height, E=1 kPa, Poisson's ratio=0.48). However, I'm constantly getting reaction force about 20% lower than predicted by Hertz's theory, with different meshes and step sizes. I think the problem could be in the high Poisson's ratio, but I see no difference in solution with and without "nearly incompressible material" selection. For lower Poison's ratio the solution is closer to the theory, and when I'm using the hyperelastic Mooney–Rivlin material too. But I need a linear elastic material for my future studies and want to find the reason for such difference. Any advice?
Thanks,
Yuri
2 Replies Last Post Mar 14, 2017, 10:04 a.m. EDT