Journal
MATERIALS & DESIGN
Volume 83, Issue -, Pages 75-84Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.matdes.2015.05.049
Keywords
Small punch test; Metals and alloys; Thin foils; Material properties; Finite elements
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Thin foils having thickness values of 200 pm and less are commonly applied in the food industries, medical applications and more. Small punch technique (SPT) is a promising mechanical testing method for specimens thicker than 250 pm, in which a formulation correlating the measured parameters to standard tensile properties was previously reported. The current research is focused, for the first time, on the correlation between SPT and tensile mechanical properties of SS-316L thinner specimens in the range of 100-200 mu m. It is demonstrated by finite-element-analysis, that the mechanical response of thin foils having thicknesses in the range of 25-500 mu m can be divided into three categories. For specimens thicker than 300 mu m, thin plate bending equations that were applied previously for thick specimens, are still valid, while for thinner specimens this theory fails to provide adequate correlation between SPT and tensile yield stress. For specimens thinner than 50 mu m it was identified that equations derived from membrane solution should be employed rather than classical plate theory. For intermediate thickness values in the 50-300 mu m range, a transition-zone was identified between plate and membrane-like mechanical responses. For the lower region, 50-100 mu m, an analytical expression correlating the measured SPT parameters and the tensile yield stress is currently proposed. (C) 2015 Elsevier Ltd. All rights reserved.
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