Deformation twin formed by self-thickening, cross-slip mechanism in nanocrystalline Ni
We report the observation of a deformation twin formed by a recently proposed self-thickening, cross-slip twinning mechanism. This observation verifies one more twinning mechanism, in addition to thos...
We report the observation of a deformation twin formed by a recently proposed self-thickening, cross-slip twinning mechanism. This observation verifies one more twinning mechanism, in addition to thos...
Unusual surface reliefs from photoinduced creeping and aggregation behavior of azopolymer
We report the spontaneous formation of unusual surface reliefs, in which two sets of sinusoidal gratings were hierarchically structured, merely by single-step holographic inscription on amorphous azop...
We report the spontaneous formation of unusual surface reliefs, in which two sets of sinusoidal gratings were hierarchically structured, merely by single-step holographic inscription on amorphous azop...
Spherical indentation of a finite poroelastic coating
Appl. Phys. Lett. 93, 031911 (2008); doi:10.1063/1.2957993
Published 23 July 2008
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Indentation testing of a finite poroelastic layer is considered. Finite element modeling was used to investigate spherical contact creep tests, with emphasis on the influence of layer thickness and of finite rise time on the time-dependent deformation. Thin layers are stiffened by the substrate constraint even at very small relative indenter penetrations and reach steady state more quickly than thick layers. The degree of consolidation following loading is affected by the interaction of layer thickness and rise time and cannot be predicted from either alone. These results provide guidance for micro- and nanoindentation testings of hydrogel coatings for biomedical applications.
©2008 American Institute of Physics
| History: | Received 24 April 2008; accepted 17 June 2008; published 23 July 2008 |
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http://link.aip.org/link/?APPLAB/93/031911/1 |
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BibSonomy
KEYWORDS and PACS
- 81.40.Np
Fatigue, embrittlement, fracture and failure - 62.20.M-
Structural failure of materials - 81.40.Jj
Elasticity and anelasticity, stress-strain relations - 62.20.D-
Elasticity of solids - 81.70.Bt
Mechanical testing, impact tests, static and dynamic loads - 81.40.Lm
Deformation, plasticity, and creep - 62.20.F-
Deformation and plasticity of solids - YEAR: 2008
RELATED DATABASES
PUBLICATION DATA
0003-6951 (print)
1077-3118 (online)
AIP
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