[PDF] The Role Of The Microstructure In Granular Material Instability eBook

Author : Nho Gia Hien Nguyen
Publisher :
Page : 0 pages
File Size : 19,67 MB
Release : 2016
Category :
ISBN :

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Granular materials consist of dense pack of solid grains and a pore-filling element such as a fluid or a solid matrix. The grains interact via elastic repulsion, friction, adhesion and other surface forces. External loading leads to grain deformations as well as cooperative particle rearrangements. The particle deformations are of particular importance in many industry applications and research subjects, such as powder metallurgy and soil mechanics. The response of granular materials to external loading is complex, especially in case when failure occurs: the mode of the failure can be diffuse or localized, and the development of specimen pattern can be drastically different when the specimen can no longer sustain external loading. In this thesis, a thorough numerical analysis based on a discrete element method is carried out to investigate the macroscopic and microscopic behavior of granular materials when a failure occurs. The numerical simulations include the vanishing of the second-order work instability criterion to detect failure. Furthermore, it is proved that the vanishing of second-order work coincides with the change from a quasi-static regime to a dynamic regime in the response of the specimen. Then, microstructure evolution is investigated. Evolution of force-chains and grain-loops are investigated during the deformation process until reaching the failure. The second-order work is once again taken into account to elucidate the local aspect that governs the failure, taking place at the particle scale. The collapse of the discrete specimen when it turns from quasi-static to dynamic regime is accompanied with a burst in kinetic energy. This rise of kinetic energy occurs when the internal stress cannot balance with the external loading when a small perturbation is added to the boundary, resulting in a difference between the internal and external second-order works of the system. The mesostructures have a symbiosis relationship with each other and their evolution decides the macroscopic behavior of the discrete system. The distribution of the collapse of force-chain correlates with the vanishing of the second-order work at the grain scale. The mesostructures play an important role in the instability of granular media. The second-order work can be used as an effective criterion to detect the instability of the system on both the macroscale and microscale (grain scale).

Author : Nho Gia Hien Nguyen
Publisher :
Page : 125 pages
File Size : 48,86 MB
Release : 2019
Category :
ISBN :

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Granular materials consist of dense pack of solid grains and a pore-filling element such as a fluid or a solid matrix. The grains interact via elastic repulsion, friction, adhesion and other surface forces. External loading leads to grain deformations as well as cooperative particle rearrangements. The particle deformations are of particular importance in many industry applications and research subjects, such as powder metallurgy and soil mechanics. The response of granular materials to external loading is complex, especially in case when failure occurs: the mode of the failure can be diffuse or localized, and the development of specimen pattern can be drastically different when the specimen can no longer sustain external loading. In this thesis, a thorough numerical analysis based on a discrete element method is carried out to investigate the macroscopic and microscopic behavior of granular materials when a failure occurs. The numerical simulations include the vanishing of the second-order work instability criterion to detect failure. Furthermore, it is proved that the vanishing of second-order work coincides with the change from a quasi-static regime to a dynamic regime in the response of the specimen. Then, microstructure evolution is investigated. Evolution of force-chains and grain-loops are investigated during the deformation process until reaching the failure. The second-order work is once again taken into account to elucidate the local aspect that governs the failure, taking place at the particle scale. The collapse of the discrete specimen when it turns from quasi-static to dynamic regime is accompanied with a burst in kinetic energy. This rise of kinetic energy occurs when the internal stress cannot balance with the external loading when a small perturbation is added to the boundary, resulting in a difference between the internal and external second-order works of the system. The mesostructures have a symbiosis relationship with each other and their evolution decides the macroscopic behavior of the discrete system. The distribution of the collapse of force-chain correlates with the vanishing of the second-order work at the grain scale. The mesostructures play an important role in the instability of granular media. The second-order work can be used as an effective criterion to detect the instability of the system on both the macroscale and microscale (grain scale).

Author : Pasquale Giovine
Publisher : Springer Nature
Page : 288 pages
File Size : 21,15 MB
Release : 2020-11-09
Category : Mathematics
ISBN : 3030492672

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This contributed volume provides an up-to-date overview of the mechanics of granular materials, ranging from sparse media to soils. With chapters exploring state-of-the-art theoretical, experimental, and applied trends in the study of granular matter in various states, readers will be motivated to learn about the current challenges and potential avenues of exploration in this active area of research. Including a variety of perspectives, this volume will be a valuable reference for audiences in a number of fields. Specific topics covered include: X-ray tomography techniques for analyzing sand Evaluation of effective stress in unsaturated soils Hyper-plasticity Wave propagation in granular systems Partly saturated porous media Multi-scale approaches to the dynamics of sparse media Views on Microstructures in Granular Materials is an ideal resource for PhD students and researchers in applied mathematics, solid-state physics, civil engineering, and mechanical engineering.

Author : K. Iwashita
Publisher : CRC Press
Page : 408 pages
File Size : 36,86 MB
Release : 2020-08-13
Category : Study Aids
ISBN : 1000150518

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This textbook compiles reports written by about 35 internationally recognized authorities, and covers a range of interests for geotechnical engineers. Topics include: fundamentals for mechanics of granular materials; continuum theory of granular materials; and discrete element approaches.

Author : Dimitrios Kolymbas
Publisher : Springer Science & Business Media
Page : 558 pages
File Size : 24,5 MB
Release : 2012-12-06
Category : Science
ISBN : 3642570186

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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 : Ioannis Stefanou
Publisher : John Wiley & Sons
Page : 368 pages
File Size : 32,62 MB
Release : 2021-03-12
Category : Technology & Engineering
ISBN : 1119755182

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Instabilities Modeling in Geomechanics describes complex mechanisms which are frequently met in earthquake nucleation, geothermal energy production, nuclear waste disposal and CO2 sequestration. These mechanisms involve systems of non-linear differential equations that express the evolution of the geosystem (e.g. strain localization, temperature runaway, pore pressure build-up, etc.) at different length and time scales. In order to study the evolution of a system and possible instabilities, it is essential to know the mathematical properties of the governing equations. Therefore, questions of the existence, uniqueness and stability of solutions naturally arise. This book particularly explores bifurcation theory and stability analysis, which are robust and rigorous mathematical tools that allow us to study the behavior of complex geosystems, without even explicitly solving the governing equations. The contents are organized into 10 chapters which illustrate the application of these methods in various fields of geomechanics.

Author : George Exadaktylos
Publisher : Springer Science & Business Media
Page : 469 pages
File Size : 43,25 MB
Release : 2007-04-27
Category : Science
ISBN : 3540493425

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This is an up-to-date review of developments in the field of bifurcations and instabilities in geomechanics from some of the world’s leading experts. Leading international researchers and practitioners of the topics debate the developments and applications which have occurred over the last few decades. Beside fundamental research findings, applications in geotechnical, petroleum, mining, and bulk materials engineering are emphasised.

Author : Bettina Albers
Publisher : Springer
Page : 416 pages
File Size : 36,81 MB
Release : 2016-02-09
Category : Science
ISBN : 3319282417

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This book presents research advances in the field of Continuous Media with Microstructure and considers the three complementary pillars of mechanical sciences: theory, research and computational simulation. It focuses on the following problems: thermodynamic and mathematical modeling of materials with extensions of classical constitutive laws, single and multicomponent media including modern multifunctional materials, wave propagation, multiscale and multiphysics processes, phase transformations, and porous, granular and composite materials. The book presents the proceedings of the 2nd Conference on Continuous Media with Microstructure, which was held in 2015 in Łagów, Poland, in memory of Prof. Krzysztof Wilmański.

Author : Anita Mehta
Publisher : Springer Science & Business Media
Page : 322 pages
File Size : 45,89 MB
Release : 1994
Category : Gardening
ISBN : 9780387940656

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Powders have been studied extensively because they arise in a wide variety of fields, ranging from soil mechanics to manufacture of pharmaceuticals. Only recently, however, with the deepening understanding of fractals, chaos, 1/f noise, and self-organization, has it been useful to study the mechanical properties of powders from a fundamental physical perspective. This book collects articles by some of the foremost researchers in the field, including chapters on: the role of entropy in the specification of a powder, by S.F. Edwards (Cambridge); discrete mechanics, by P.K. Haff (Duke); computer simulations of granular materials, by G.C. Barker (Norwich); pattern formation and complexity in granular flow, by R.P. Behringer and G.W. Baxter (Duke); avalanches in real sand piles, by A. Mehta (Birmingham); micromechanical models of failure, by M.J. Adams (Unilever) and B.J. Briscoe (Imperial College); mixing and segregation in particle flows, by J. Bridgwater (Birmingham); and hard-sphere colloidal suspensions, by P. Bartlett (Bristol) and W. van Megen (Melbourne).