Modeling of very thin aluminum nitride film mechanical properties from nanoindentation measurements

Modeling of very thin aluminum nitride film mechanical properties from nanoindentation measurements

The mechanical property determination of thin films by nanoindentation can be affected by the substrate depending on the indentation testing conditions and the film thickness. In this condition and especially for very thin films, application of models is required for separating the substrate influen...

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Bibliographic Details
Published in:Thin solid films Vol. 594; no. Part A; pp. 129 - 137
Main Authors: Roudet, F., Chicot, D., Decoopman, X., Iost, A., Bürgi, J., Garcia-Molleja, J., Nosei, L., Feugeas, J.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2015
Elsevier
Subjects:
Aluminum nitride
Displacement
Elastic modulus
Engineering Sciences
Film thickness
Hardness
Indentation
Modeling
Modulus of elasticity
Nanoindentation
Thin films
Thin films
Elastic modulus
Hardness
Modeling
Nanoindentation
Aluminum nitride
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Summary:The mechanical property determination of thin films by nanoindentation can be affected by the substrate depending on the indentation testing conditions and the film thickness. In this condition and especially for very thin films, application of models is required for separating the substrate influence of the indentation measurement. In this paper, hardness and elastic modulus of columnar aluminum nitride of 250nm (thickness) have been determined by nanoindentation. The hardness versus the indenter displacement variation has been studied applying a variety of models to compare their prediction. A specific methodology avoiding the knowledge of the film thickness is proposed. Concerning the elastic modulus determination, different weight functions have been applied without any success since the elastic modulus variation versus the indenter displacement shows typically an ‘S’ curve whereas the standard models predict a linear variation. Consequently to adequately represent this variation, the models are modified accordingly to Avrami's law. As a main result, the hardness is found to be equal to 10GPa and the elastic modulus close to 150GPa. •The mechanical properties of AlN thin film have been determined by nanoindentation.•The hardness is determined without knowing the film thickness.•Both the Avrami's law and Gao's function are used to determine the elastic modulus.•The hardness and the elastic modulus of AlN equal 10GPa and 150GPa, respectively.
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ISSN:0040-6090
1879-2731
DOI:10.1016/j.tsf.2015.10.010