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Model of a superlattice indentation
-
A. Kravchuk
Veröffentlicht/Copyright:
23. Mai 2013
Abstract
This paper deals with the problem of penetration of a conical indenter into a multilayer rigid – perfectly-plastic body. The penetration of the indenter is studied on the basis of the Haar and von Karman hypothesis. The analytical distribution of the contact stress is obtained. A relationship between Meyer hardness and yield stresses of the layers is established.
Keywords: Rigid –; perfectly-plastic body; Superlattice (multilayer) body; Hardness; Conical indenter
References
[1] A.J.Ishlinsky, D.D.Ivlev: Mathematical Theory of Plasticity, Fizmatlit, Moskow (2001) [in Russian].Suche in Google Scholar
[2] R.T.Shield: Proc. Roy. Soc. Series A233 (1955) 267.10.1098/rspa.1955.0262Suche in Google Scholar
[3] A.Kravchuk, R.Buzio, U.Valbusa, Z.Rymuza: Technische Mechanik, Band 25, Heft2 (2005) 81.Suche in Google Scholar
Received: 2006-10-11
Accepted: 2007-1-14
Published Online: 2013-05-23
Published in Print: 2007-05-01
© 2007, Carl Hanser Verlag, München
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Artikel in diesem Heft
- Contents
- Contents
- Editorial
- Editorial
- Basic
- Getting accurate nanoindentation data from time-dependent and microstructural effects of zinc
- Indentation-induced densification of soda-lime silicate glass
- Nanomechanical characterization of relaxation processes in As–S chalcogenide glasses
- Nanoindentation behavior and mechanical properties measurement of polymeric materials
- Model of a superlattice indentation
- Nanomechanical studies of MEMS structures
- Mechanical properties of nanostructured polymer particles for anisotropic conductive adhesives
- Nanomechanical studies of ultrathin polymeric resist films
- Testing the viscoelastic properties of SU8 photo resist thin films at different stages of processing by nanoindentation creep and stress relaxation
- Microscale characterization of bitumen – back-analysis of viscoelastic properties by means of nanoindentation
- Applied
- Visco-elastic properties of thin nylon films using multi-cycling nanoindentation
- Area function calibration in nanoindentation using the hardness instead of Young's modulus of fused silica as a reference value
- Multiscale modelling of nanoindentation
- Unusual architecture of the exceedingly tough Macadamia “nut”-shell as revealed by atomic force microscopy and nanomechanics
- Notifications
- DGM News
Schlagwörter für diesen Artikel
Rigid –;
perfectly-plastic body;
Superlattice (multilayer) body;
Hardness;
Conical indenter
Artikel in diesem Heft
- Contents
- Contents
- Editorial
- Editorial
- Basic
- Getting accurate nanoindentation data from time-dependent and microstructural effects of zinc
- Indentation-induced densification of soda-lime silicate glass
- Nanomechanical characterization of relaxation processes in As–S chalcogenide glasses
- Nanoindentation behavior and mechanical properties measurement of polymeric materials
- Model of a superlattice indentation
- Nanomechanical studies of MEMS structures
- Mechanical properties of nanostructured polymer particles for anisotropic conductive adhesives
- Nanomechanical studies of ultrathin polymeric resist films
- Testing the viscoelastic properties of SU8 photo resist thin films at different stages of processing by nanoindentation creep and stress relaxation
- Microscale characterization of bitumen – back-analysis of viscoelastic properties by means of nanoindentation
- Applied
- Visco-elastic properties of thin nylon films using multi-cycling nanoindentation
- Area function calibration in nanoindentation using the hardness instead of Young's modulus of fused silica as a reference value
- Multiscale modelling of nanoindentation
- Unusual architecture of the exceedingly tough Macadamia “nut”-shell as revealed by atomic force microscopy and nanomechanics
- Notifications
- DGM News
