Micromechanics And Constitutive Modeling Og Granular Materials In Stress Reversal And Cyclic Loading Locaized Deformation Experimental Observation And Modeling
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| Total Pages | : 47 |
| Release | : 1995 |
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The work performed under this grant, focused on the process of initiation and growth of shear bands in frictional granules. Such localized deformations commonly occur in particulate media and are of considerable engineering and scientific importance. They occur in a variety of areas of advanced materials processing, at different scales. They are a common mode of failure in soil masses and geological formations. A technique has been developed to study the deformation of lead doped lines of granules within the sample of a granular material, using the UCSD 5 large hollow cylindrical cell, together with flash X ray photography. The special cell has been modified for this purpose, and several successful tests have been performed. The facilities are then employed to develop in depth fundamental understanding of the microstructure of a shearband zone, and the spatial variation of the accompanying deformation. With this technique, we have captured the deformation that leads to shearband formation in several preliminary experiments. We have successfully solidified the sample containing shearbands, in situ. using a polymeric resin. We have then prepared sections for complete microstructural analysis, and have performed some preliminary analysis of the results. These and related issues are discussed in this report.
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| Total Pages | : |
| Release | : 1718 |
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| Author | : James T. Jenkins |
| Publisher | : Elsevier |
| Total Pages | : 377 |
| Release | : 2017-05-03 |
| Genre | : Technology & Engineering |
| ISBN | : 1483289818 |
Studies in Applied Mechanics, Volume 7: Mechanics of Granular Materials: New Models and Constitutive Relations provides information pertinent to the fundamental aspects of the mechanics of granular materials. This book presents the theoretical and experimental studies of quasi-static deformations of granular materials. Organized into 30 chapters, this volume begins with an overview of the results on the description of a macroscopic stress measure and measures of the fabric of granular masses that support external loads through frictional contact. This text then introduces some quantities for the macroscopic description of mechanical and graphical characteristics of granular materials. Other chapters consider particle rolling, which appears to be a major microscopic deformation mechanism when interparticle friction is large. This book discusses as well the stress-induced anisotropy of granular materials that have initially strong anisotropic fabric. The final chapter deals with the interpretation of linear instabilities of voidage disturbances in fluidized beds. This book is a valuable resource for scientists, theoreticians, and experimentalists.
| Author | : Masao Satake |
| Publisher | : Elsevier Publishing Company |
| Total Pages | : 392 |
| Release | : 1988 |
| Genre | : Granular materials |
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This proceedings volume contains papers from researchers in Japan, the United States and England who have made fundamental contributions to the micromechanics of granular materials. The purpose of the seminar was to facilitate an exchange of ideas between scientists working with statistical and continuum theories, computer simulations and experiments on both static and dynamic behaviour. In describing the solid like behaviour of granular materials, many new ideas on the constitutive relations are introduced in this volume. As an application of the analysis, the mechanism of liquefaction is discussed. Computer simulations have become a vital tool in establishing the micromechanical approaches which otherwise would not be experimentally tested. In numerical simulations and theoretical analyses of rapid granular flow, various modifications on the nature of materials and boundaries are given. Possible applications of the techniques of the stereology and analysis based on geometrical statistics are also included. The papers collected in this volume signify that the promotion of a good understanding of the mechanics of granular materials has been and will continue to be valued in a variety of technical disciplines.
| Author | : H.H. Shen |
| Publisher | : Elsevier |
| Total Pages | : 476 |
| Release | : 2013-10-22 |
| Genre | : Technology & Engineering |
| ISBN | : 1483291286 |
The 45 papers presented in this volume all share the common goal of constructing continuum models based on the micro behaviours of granular materials. Computer simulations continue to provide observations to aid modelling, while new experimental works begin to show promise for increased understanding in this area. Theoretical studies have extended into transitions between the rapid and quasi-static regimes and the fluid and solid mixture flows. Exciting new topics discussed in this volume include: concepts of a measure for randomness in quasi-static granular materials, which is analogous to the granular temperature in a rapid flow; scaling effects in granular media and their implications in both physical and computer simulations; instability; and boundary effects on heterogeneous behavior in simple flow configurations, which are posing new challenges for mathematical modelling. The volume will prove indispensable reading for researchers interested in the current developments in the fundamental aspects of mechanics of granular materials.
| Author | : Dimitrios Kolymbas |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 558 |
| Release | : 2012-12-06 |
| Genre | : Science |
| ISBN | : 3642570186 |
In view of its extreme complexity the mathematical description of the mechanical behaviour of granular materials is an extremely difficult task. Today many different models compete with each other. However, the complexity of the models hinders their comparison, and the potential users are confused and, often, disencouraged. This book is expected to serve as a milestone in the present situation, to evaluate the present methodes, to clear up the situation, to focus and encourage for further research activities.
| Author | : Balasingham Balendran |
| Publisher | : |
| Total Pages | : 472 |
| Release | : 1993 |
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| Author | : Gianfranco Capriz |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 374 |
| Release | : 2012-12-06 |
| Genre | : Technology & Engineering |
| ISBN | : 1461200792 |
Soils are complex materials: they have a particulate structure and fluids can seep through pores, mechanically interacting with the solid skeleton. Moreover, at a microscopic level, the behaviour of the solid skeleton is highly unstable. External loadings are in fact taken by grain chains which are continuously destroyed and rebuilt. Many issues of modeling, even of the physical details of the phenomena, remain open, even obscure; de Gennes listed them not long ago in a critical review. However, despite physical complexities, soil mechanics has developed on the assumption that a soil can be seen as a continuum, or better yet as a medium obtained by the superposition of two and sometimes three con and the other fluids, which occupy the same portion of tinua, one solid space. Furthermore, relatively simple and robust constitutive laws were adopted to describe the stress-strain behaviour and the interaction between the solid and the fluid continua. The contrast between the intrinsic nature of soil and the simplistic engi neering approach is self-evident. When trying to describe more and more sophisticated phenomena (static liquefaction, strain localisation, cyclic mo bility, effects of diagenesis and weathering, ..... ), the nalve description of soil must be abandoned or, at least, improved. Higher order continua, incrementally non-linear laws, micromechanical considerations must be taken into account. A new world was opened, where basic mathematical questions (such as the choice of the best tools to model phenomena and the proof of the well-posedness of the consequent problems) could be addressed.
| Author | : Bernard Cambou |
| Publisher | : John Wiley & Sons |
| Total Pages | : 263 |
| Release | : 2013-03-01 |
| Genre | : Science |
| ISBN | : 1118623088 |
Nearly all solids are compised of grains. However most studies treat materials as a continious solid. The book applies analysis used on loose granular materials to dense grainular materials. This title’s main focus is devoted to static or dynamic loadings applied to dense materials, although rapid flows and widely dispersed media are also mentioned briefly. Three essential areas are covered: Local variable analysis: Contact forces, displacements and rotations, orientation of contacting particles and fabric tensors are all examples of local variables. Their statistical distributions, such as spatial distribution and possible localization, are analyzed, taking into account experimental results or numerical simulations. Change of scales procedures: Also known as “homogenization techniques”, these procedures make it possible to construct continuum laws to be used in a continuum mechanics approach or performing smaller scale analyses. Numerical modeling: Several methods designed to calculate approximate solutions of dynamical equations together with unilateral contact and frictional laws are presented, including molecular dynamics, the distinct element method and non-smooth contact dynamics. Numerical examples are given and the quality of numerical approximations is discussed.
| Author | : Bernard Cambou |
| Publisher | : Elsevier |
| Total Pages | : 198 |
| Release | : 2016-08-19 |
| Genre | : Technology & Engineering |
| ISBN | : 008101077X |
Granular Materials at Meso-scale: Towards a Change of Scale Approach proposes a new way for developing an efficient change of scale—considering a meso-scale defined at the level of local arrays of particles. The change of scale is known to be a very interesting way to improve the modelling of mechanical behavior granular materials. In the past, studies have been proposed using a micro-scale at the grain level to perform change of scale, but limitations have been proven for these approaches. Definition and analysis of the phases are detailed, constituted by sets of meso-domains sharing the same texture characteristics. The authors propose a local constitutive model for the phases, allowing the constitutive model of the representative elementary volume to be definied from a change-of-scale approach and, finally, presenting the validation of obtained modeling on cyclic loadings. Proposes a new way for developing an efficient change of scale—considering a meso-scale Explores local meso-domains and texture characteristics Defines meso-strain and stress Analyzes the evolution of these variables and texture characteristics in relation to the applied loading
