A Pragmatic Approach for the Evaluation of Depth-Sensing Indentation in the Self-Similar Regime

Mahdavi Hamidreza; Poulios Konstantinos; Niordson Christian F.

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A Pragmatic Approach for the Evaluation of Depth-Sensing Indentation in the Self-Similar Regime

机译：A Pragmatic Approach for the Evaluation of Depth-Sensing Indentation in the Self-Similar Regime

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This work evaluates and revisits elements from the depth-sensing indentation literature by means of carefully chosen practical indentation cases, simulated numerically and compared to experiments. The aim is not to provide a comprehensive study, but to close a series of debated subjects, which constitute major sources of inaccuracies in the evaluation of depth-sensing indentation data in practice, with the help of illustrative examples. First, own examples and references from the literature are presented in order to demonstrate how crucial self-similarity detection and blunting distance compensation are, for establishing a rigorous link between experiments and simple sharp indenter models. Moreover, it is demonstrated, once again, in terms of clear and practical examples, that no more than two parameters are necessary to achieve an excellent match between a sharp indenter finite element simulation and experimental force-displacement data. The clear conclusion is that reverse analysis methods promising to deliver a set of three unique material parameters from depth-sensing indentation cannot be reliable. Lastly, in light of the broad availability of modern finite element software, we also suggest to avoid the rigid indenter approximation, as it is shown to lead to unnecessary inaccuracies. All conclusions from the critical literature review performed lead to a new semi-analytical reverse analysis method, based on available dimensionless functions from the literature and a calibration against case specific finite element simulations. Implementations of the finite element model employed are released as supplementary material, for two major finite element software packages.

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《Journal of Applied Mechanics: Transactions of the ASME》 |2022年第1期|共14页
作者
Mahdavi Hamidreza; Poulios Konstantinos; Niordson Christian F.;
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作者单位

Tech Univ Denmark;

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原文格式 PDF
正文语种英语
中图分类应用力学;
关键词
self-similar indentation; indenter bluntness; indenter compliance; finite element analysis; reverse analysis; ELASTIC-PLASTIC PROPERTIES; INSTRUMENTED INDENTATION; REDUCED MODULUS; THIN-FILMS; PENETRATION; HARDNESS; UNIQUENESS; INDENTER; IMPRINT; STRESS;

A Pragmatic Approach for the Evaluation of Depth-Sensing Indentation in the Self-Similar Regime

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