The Effect of Scale-Dependent Hardness on Elasto-Plastic Asperity Contact between Rough Surfaces |
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Authors: | Robert L. Jackson |
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Affiliation: | Department of Mechanical Engineering , Auburn University , Auburn, AL, 36849-5341 |
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Abstract: | Statistical methods are used to model elasto-plastic contact between two rough surfaces using a recent finite element model of elasto-plastic hemispherical contact and also recent advances in strain gradient modeling. The elasto-plastic hemispherical contact model used to model individual asperities accounts for a varying hardness effect due to deformation of the contact geometry that has been documented by other works. The strain gradient model accounts for changes in hardness due to scaling effects. The contact between surfaces with hypothetical material and surface properties, such as the elastic modulus, yield strength, and roughness are modeled. A model is also constructed to consider a variable asperity contact radius to evaluate if the strain gradient model will affect it differently. The models produce predictions for contact area, contact force, and surface separation. The strain gradient effects decrease the real area of contact and increase the average contact load in comparison to the model without these effects. The strain gradient model seems to have a larger influence on the predictions of contact load and area than does considering a variable asperity contact radius for the cases considered in this work. |
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Keywords: | Contact Mechanics Surface Roughness Contact of Rough Surfaces Analysis and Models |
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