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Rock Mechanics and Rock Engineering

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01.05.2011 | Technical Note

Deformation and Breakage Properties of Crushable Blocky Materials

verfasst von: EnLong Liu

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 3/2011

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Most geological materials encountered in engineering are particulate materials, which are composed of distinct particles interacting with each other and associated voids. Upon loading, the particulates may slide, rotate and crush or break. The deformation and breakage mechanism of particulate materials is complicated and many experimental studies have attempted to characterize this process (see e.g. Rowe 1962; Drescher 1976; Chappell 1979; Oda et al. 1980; Calvetti et al. 1997; Lanier 2001; Wolf et al. 2003; Delenne et al. 2004). Furthermore, some researchers use theoretical and numerical methods to study the failure mechanism of particulate materials (see e.g. McDowell et al. 1996; Anandarajah 2004; Chang and Hicher 2005). …

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Anandarajah A (2004) Sliding and rolling constitutive theory for granular materials. Earth Space, pp 73–77

Bartake PP, Singh DN (2007) A generalized methodology for determination of crushing strength of granular materials. Geotech Geol Eng 25:203–213CrossRef

Calvetti F, Combe G, Lanier J (1997) Experimental micromechanical analysis of a 2D granular material: relation between structure evolution and loading path. Mech Cohes Frict Mater 2:121–163CrossRef

Chang CS, Hicher PY (2005) An elasto-plastic model for granular materials with microstructural consideration. Int J Solids Struct 42:4258–4277CrossRef

Chappell BA (1979) Deformational response in discontinua. Int J Rock Mech Mining Sci Geomech 16:377–390 AbstractCrossRef

Delenne JY, Youssoufi MSE, Cherblanc F et al (2004) Mechanical behavior and failure of cohesive granular materials. Int J Numer Anal Methods Geomech 28:1577–1594CrossRef

Drescher A (1976) An experimental investigation of flow rules for granular materials using optically sensitive glass particles. Geotechnique 26(4):591–601CrossRef

Hardin BO (1984) Crushing of soil particles. J Geotech Eng 111(10):1176–1192

Lanier L (2001) Micro-mechanisms of deformation in granular materials: experiments and numerical results. In: Vermeer PA et al (eds): LNP 568, pp 163–172

Mcdowell GR, Bolton MD, Robertson D (1996) The fractal crushing of granular materials. Int J Mech Phys Solids 44:2079–2102CrossRef

Nakata Y, Hyodo M, Hyde AFL et al (2001) Microscopic particle crushing of sand subjected to high pressure one-dimensional compression. Soils Found 41(1):69–82

Oda M, Konishi J, Nemat-Nasser S (1980) Some experimentally based fundamental results on the mechanical behavior of granular materials. Geotechnique 30(4):479–495CrossRef

Rowe PW (1962) The stress–dilatancy relation for static equilibrium of an assembly of particles in contact. Proc R Soc Lond A 269:500–527CrossRef

Takei M, Kusakabe O, Hayashi T (2001) Time-dependent behavior of crushable materials in one-dimensional compression tests. Soils Found 41(1):97–121

Wolf H, Kőnig D, Triantafyllidis T (2003) Experimental investigation of shear band patterns in granular material. J Struct Geol 25:1229–1240CrossRef

Titel: Deformation and Breakage Properties of Crushable Blocky Materials
verfasst von: EnLong Liu
Publikationsdatum: 01.05.2011
Verlag: Springer Vienna
Erschienen in: Rock Mechanics and Rock Engineering / Ausgabe 3/2011
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-010-0117-2

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