Finite Thickness Influence on Spherical and Conical Indentation on Viscoelastic Thin Polymer Film

V.  Gonda; J.  den Toonder; J.  Beijer; L. J.  Ernst; G. Q.  Zhang

Source: Journal of Electronic Packaging:;2005:;volume( 127 ):;issue: 001::page 33

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DOI: 10.1115/1.1846065

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The thermo-mechanical integration of polymer films requires a precise knowledge of material properties. Nanoindentation is a widely used testing method for the determination of material properties of thin films such as Young’s modulus and the hardness. An important assumption in the analysis of the indentation is that the indented medium is a semi-infinite plane or half space, i.e., it has an “infinite thickness.” In nanoindentation the analyzed material is often a thin film that is deposited on a substrate. If the modulus ratio is small, (soft film on hard substrate) and the penetration depth is small too, then the Hertzian assumption does not hold. We investigate this situation with spherical and conical indentation. Measurement results are shown using spherical indentation on a visco-elastic thin polymer film and a full visco-elastic characterization is presented.

keyword(s): Polymer films , Thickness , Elastic half space , Thin films AND Nanoindentation ,

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Finite Thickness Influence on Spherical and Conical Indentation on Viscoelastic Thin Polymer Film

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contributor author	V. Gonda
contributor author	J. den Toonder
contributor author	J. Beijer
contributor author	L. J. Ernst
contributor author	G. Q. Zhang
date accessioned	2017-05-09T00:15:54Z
date available	2017-05-09T00:15:54Z
date copyright	March, 2005
date issued	2005
identifier issn	1528-9044
identifier other	JEPAE4-26242#33_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/131669
description abstract	The thermo-mechanical integration of polymer films requires a precise knowledge of material properties. Nanoindentation is a widely used testing method for the determination of material properties of thin films such as Young’s modulus and the hardness. An important assumption in the analysis of the indentation is that the indented medium is a semi-infinite plane or half space, i.e., it has an “infinite thickness.” In nanoindentation the analyzed material is often a thin film that is deposited on a substrate. If the modulus ratio is small, (soft film on hard substrate) and the penetration depth is small too, then the Hertzian assumption does not hold. We investigate this situation with spherical and conical indentation. Measurement results are shown using spherical indentation on a visco-elastic thin polymer film and a full visco-elastic characterization is presented.
publisher	The American Society of Mechanical Engineers (ASME)
title	Finite Thickness Influence on Spherical and Conical Indentation on Viscoelastic Thin Polymer Film
type	Journal Paper
journal volume	127
journal issue	1
journal title	Journal of Electronic Packaging
identifier doi	10.1115/1.1846065
journal fristpage	33
journal lastpage	37
identifier eissn	1043-7398
keywords	Polymer films
keywords	Thickness
keywords	Elastic half space
keywords	Thin films AND Nanoindentation
tree	Journal of Electronic Packaging:;2005:;volume( 127 ):;issue: 001
contenttype	Fulltext

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