王自强 scite author profile

王自强

3Publications

13Citation Statements Received

31Citation Statements Given

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Affiliations

Institute of Mechanics, Chinese Academy of Sciences, North Chiang Mai University

Publications

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Nanoindentation of thin-film-substrate system: Determination of film hardness and Young's modulus

2004

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ABSTRACT:In the present paper, the hardness and Young's modulus of film-substrate systems are determined by means of nanoindentation experiments and modified models. Aluminum film and two kinds of substrates, i.e. glass and silicon, are studied. Nanoindentation XP II and continuous stiffness mode are used during the experiments. In order to avoid the influence of the Oliver and Pharr method used in the experiments, the experiment data are analyzed with the constant Young's modulus assmnption and the equal hardness assumption. The volume fraction model (CZ model) proposed by Fabes et al. (1992) is used and modified to analyze the measured hardness. The method proposed by Doerner and Nix (DN formula) (1986) is modified to analyze the measured Young's modulus. Two kinds of modified empirical formula are used to predict the present experiment results and those in the literature, which include the results of two kinds of systems, i.e., a soft film on a hard substrate and a hard film on a soft substrate. In the modified CZ model, the indentation influence angle, ~, is considered as a relevant physical parameter, which embodies the effects of the indenter tip radius, pile-up or sink-in phenomena and deformation of film and substrate.

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Lattice wave theory of molecular dynamics

Tang¹,

王自强²

2011

Sci. Sin.-Phys. Mech. Astron.

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Effective elastic moduli of inhomogeneous solids by embedded cell model

詹世革

王自强

1999

Acta Mech Sinica

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An embedded cell model is presented to obtain the effective elastic moduli for three-dimefl~sional two-phase composites which is an exact analytic formula without any simplified approximation and can be expressed in an explicit form. For the different cells such as spherical inclusions and cracks surrounded by sphere and oblate ellipsoidal matrix, the effective elastic moduli are evaluated and the results are compared with those from various micromechanics models. These results show that the present model is direct, simple and efficient to deal with three-dimensional two-phase composites.

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王自强

Nanoindentation of thin-film-substrate system: Determination of film hardness and Young's modulus

Lattice wave theory of molecular dynamics

Effective elastic moduli of inhomogeneous solids by embedded cell model

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