Continuum crystal plasticity analyses of the plastic flow features underneath single-crystal indentations

Alcalá, Jorge; Ojos, D. Esqué-de los; Očenášek, Jan

doi:10.1080/14786435.2010.488636

Cited by 9 publications

(15 citation statements)

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“…A reduction of sinking-in or an enhancement of pileup effects with increasing penetration is thus found to occur concurrently with an intensification in the outwards spreading of the plastic zone at the indented surface. Consequently, the plastic zone shape only remains constant in the strict limiting cases of rigid-perfectly-plastic and rigid-power-law hardening material responses, so that geometrical-similarity is again violated in solids with a marked r ys (Mata et al, 2006;Alcalá et al, 2010).…”

Section: Deconstructing Self-similaritymentioning

confidence: 97%

Reassessing spherical indentation: Contact regimes and mechanical property extractions

Alcalá

Ojos

2010

International Journal of Solids and Structures

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Section: Deconstructing Self-similaritymentioning

confidence: 97%

Reassessing spherical indentation: Contact regimes and mechanical property extractions

Alcalá

Ojos

2010

International Journal of Solids and Structures

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“…In this work the stresses, shear strains, and crystal lattice rotation map within the material were obtained and the numerical predictions were validated with the experimental results (nanoindentation tests and EBSD investigation of the indented area). Moreover, both spherical and pyramidal indentation tests in fcc single crystals were simulated by Alcala et al [10] and Narayanan et al [11] Zahedi et al [12] developed their own crystal plasticity models to investigate spherical indentation in copper single crystals. Not only Cu but also single crystals made of other materials have been investigated recently.…”

Section: Nanoindentation Is a Technique Which Hasmentioning

confidence: 99%

Depth Dependence of Nanoindentation Pile-Up Patterns in Copper Single Crystals

Kucharski

Jarząbek

2014

Metall Mater Trans A

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A study of the dependence of nanoindentation pile-up patterns on the indentation load and crystallographic orientation is presented. Three different orientations-(001), (011), and (111)-of single crystal copper were investigated. Experiments were conducted on a CSM ultrananoindentation tester using a Berkovich tip. The topographic images were obtained using an atomic force microscope. The evolution of pile-up patterns with different applied loads was observed. The results show that for applied loads equal to 0.45 mN and smaller the pile-up patterns do not depend on the crystallographic orientation of the indented surface; instead, they depend on the tip's geometry. On the other hand, in the case of indentation loads bigger than 2 mN, pile-up patterns on the surfaces of (001)-, (011)-, and (111)-oriented single crystals have fourfold, twofold, and sixfold (or threefold) symmetry, respectively. An intermediate state was also reported. Furthermore, a detailed analysis of residual impressions with maximal applied loads equal to 2 mN and bigger reveals that both pile-up and sink-in patterns are present.

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“…This is due to the asymmetry of the Berkovich indenter, as discussed before, and differences between the size of plastic zones at both flanks were observed also by other authors 300 . Apart from this asymmetry, Alcalá et al 340,341 found that plastic zones for Berkovich indentations do not differ much from those produced by spherical indenters. Thus, the growth direction of martensite under the nanoindenter can be considered as the result of shear stresses on multiple slip systems activated by nanoindentation.…”

Section: Small <001> Oriented Grainsmentioning

confidence: 96%

“…Alcalá et al 340,341 performed analyses of the plastic behavior below nanoindentations in Cu. Their results are represented in Figure 95, where the simulation shows that for fcc materials plastic flow is favored parallel to the indentation axis for <111> oriented grains, while for <001> grains it is flattened in vertical direction, but prolonged parallel to the surface plane.…”

Section: Small <001> Oriented Grainsmentioning

confidence: 99%

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Deformation mechanisms of metastable stainless steels accessed locally by monotonic and cyclic nanoindentation

Sapezanskaia

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Metastable austenitic stainless steels feature an abundance of different deformation mechanisms, which contribute to the distinguished mechanical properties of these alloys. However, these properties are known to depend on the local microstructure and also are highly anisotropic. Furthermore, deformation is expected to be different for the bulk and the surface of a sample. In this sense, a discrete study is not trivial. The present work aims at investigation of the main deformation mechanisms and their gradual evolution, by employing controlled deformation of individual austenite grains via monotonic and cyclic nanoindentation. The corresponding loading–unloading curves have given extensive information about underlying mechanical properties, which could be related to an exhaustive reconstruction of the deformation substructure, both in surface and bulk, by different small scale characterization techniques. Amongst others, features such as time-dependent deformation, reversible phase transformation under load, crystalline anisotropy and grain size influences, besides plasticity transmission and fatigue behavior have been found and analyzed. Los aceros inoxidables austeníticos metaestables pueden experimentar una amplia gama de mecanismos de deformación diferentes, los cuales contribuyen a sus extraordinarias propiedades mecánicas. Sin embargo, estas propiedades dependen de la microestructura y son altamente anisotrópicas. Además, la deformación es diferente en la superficie y en el interior de una muestra. Por lo tanto, un estudio detallado no resulta trivial. El objetivo de este trabajo es el estudio de los principales mecanismos de deformación, así como de su desarrollo gradual. Para ello se han realizado ensayos de nanoindentación, tanto monotónica como cíclica, los cuales han permitido la deformación controlada de granos austeníticos preseleccionados. Las curvas de carga y descarga de los ensayos de nanoindentación han proporcionado amplia información sobre el comportamiento mecánico del acero, la cual se ha podido correlacionar con la reconstrucción detallada de las subestructuras de deformación, tanto a nivel superficial como en el interior, la cual se ha llevado a cabo mediante técnicas de caracterización a escala microscópica. Entre otros, se encontraron y estudiaron fenómenos como las transformaciones de fase reversibles bajo carga, la influencia tanto de la anisotropía cristalina como del tamaño de grano, mecanismos dependientes del tiempo, junto con la transmisión de plasticidad y la respuesta a fatiga. Les aciers inoxydables austénitiques métastables sont le siège de différents mécanismes de déformation qui sont à l'origine des propriétés mécaniques qui distinguent ce type d’alliages. Cependant, ces dernières, dépendant de la microstructure locale, sont fortement anisotropes. Par ailleurs, la déformation d'un échantillon massif serait différente de celle obtenue en surface. De ce fait, une étude détaillée trouve tout son intérêt. Le présent travail vise donc à identifier les principaux mécanismes de déformation et de leur évolution progressive, en se basant sur une déformation contrôlée de grains austénitiques individuels par des tests mécaniques de nanoindentation monotoniques et cycliques. Les courbes correspondantes au chargement-déchargement révèlent des informations détaillées sur les propriétés mécaniques sous-jacentes qui pourraient être liées à une étude complète de la structure de déformation en surface et en volume par différentes techniques de caractérisation à une échelle très fine. La déformation en fonction du temps, les phénomènes de transformation de phase réversible sous charge, l'anisotropie cristalline, l'influences de la taille des grains, la transmission de la plasticité et la tenue en fatigue ont été mis en évidence et étudiés.

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Continuum crystal plasticity analyses of the plastic flow features underneath single-crystal indentations

Cited by 9 publications

References 43 publications

Reassessing spherical indentation: Contact regimes and mechanical property extractions

Reassessing spherical indentation: Contact regimes and mechanical property extractions

Depth Dependence of Nanoindentation Pile-Up Patterns in Copper Single Crystals

Deformation mechanisms of metastable stainless steels accessed locally by monotonic and cyclic nanoindentation

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