Adhesive contacts of axially-symmetric bodies can also be exactly mapped to a one-dimensional equivalent model. The rule for this mapping was developed in 2011 by Markus Heß. It is based on the basic idea of Johnson, Kendall, and Roberts that the contact with adhesion arises from the contact without adhesion plus a rigid-body translation. Because both parts of the contact problem can be mapped to a one-dimensional equivalent model with a modified geometry, then this is true of the entire problem. To begin, we will formulate the simple rules of application for the adhesive normal contact and refrain from presenting the required evidence. Subsequently, these rules will be explained in more detail, which requires a certain understanding of the theoretical background on adhesion in three-dimensional contacts, which we will also provide. For those not satisfied with these short explanations, the entirety of the necessary evidence may be found in Chap. 17.
CITATION STYLE
Popov, M., Benad, J., Popov, V. L., & Heß, M. (2015). Acoustic emission in rolling contacts. In Method of Dimensionality Reduction in Contact Mechanics and Friction (pp. 207–214). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-53876-6_14
Mendeley helps you to discover research relevant for your work.