Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/9011
Title: On the conical indentation response of elastic auxetic materials: Effects of Poisson's ratio, contact friction and cone angle
Authors: Photiou, Demetris 
Prastiti, N. 
Sarris, Ernestos 
Constantinides, Georgios 
metadata.dc.contributor.other: Φωτίου, Δημήτρης
Πραστίτη, N.
Σαρρής, Ερνέστος
Κωνσταντινίδης, Γεώργιος
Major Field of Science: Engineering and Technology
Field Category: Mechanical Engineering
Keywords: Auxetic materials;Contact mechanics;Indentation
Issue Date: 1-Mar-2016
Source: International Journal of Solids and Structures 2016, vol. 81,pp. 33-42
Volume: 81
Start page: 33
End page: 42
Journal: International Journal of Solids and Structures 
Abstract: All rights reserved.The linear elastic analytical solution of an axisymmetric probe indenting a semi-infinite half-space forms the backbone of most indentation data analysis protocols. It has been noted in the literature that the theoretical solution relies on a boundary condition that is ill-posed which leads to discrepancies from the actual response that depends, among other parameters, on the Poisson's ratio of the indented material. While correction factors have been proposed, prior studies have concentrated on the positive Poisson's ratio regime and have neglected an exciting and developing class of materials: the auxetic systems. The finite element method is used to simulate the conical indentation response of elastic materials with Poisson's ratios covering the whole thermodynamically possible range, -1≤ν≤0.5. Consistent with theoretical predictions, the indentation resistance and hardness of auxetic materials is enhanced compared to their non-auxetic counterparts. The stress profiles and contact details are systematically analyzed and the increase in resistance is traced to the shear stiffening and the reduction of contact area compared to conventional materials. Furthermore, it is shown that the analytical linear elastic solution falls short in accurately describing the indentation response, especially for negative Poisson's ratio materials. In contrast to the theoretical prediction, the contact area reduces as the Poisson's ratio increases resulting in increased required force to penetrate the material and an enhanced pressure distribution beneath the indenter. The analytical solution is corrected for the whole ν range and best fit polynomials are proposed for ease-of-use. The effects of contact-friction and indenter cone-angle are also studied and quantified.
URI: https://hdl.handle.net/20.500.14279/9011
ISSN: 00207683
DOI: 10.1016/j.ijsolstr.2015.10.020
Rights: © Elsevier
Type: Article
Affiliation : Cyprus University of Technology 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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