Physics of Dry Granular Media by H.J. HerrmannPhysics of Dry Granular Media by H.J. Herrmann

Physics of Dry Granular Media

EditorH.J. Herrmann, J.-P. Hovi, S. Luding

Paperback | December 8, 2010

not yet rated|write a review

Pricing and Purchase Info

$726.95

Earn 3635 plum® points

In stock online

Ships free on orders over $25

Not available in stores

about

Dry granular materials, such as sand, sugar and powders, can be poured into a container like a liquid and can also form a pile, resisting gravity like a solid, which is why they can be regarded as a fourth state of matter, neither solid nor liquid. This book focuses on defining the physics of dry granular media in a systematic way, providing a collection of articles written by recognised experts. The physics of this field is new and full of challenges, but many questions (such as kinetic theories, plasticity, continuum and discrete modelling) also require the strong participation of mechanical and chemical engineers, soil mechanists, geologists and astrophysicists. The book gathers into a single volume the relevant concepts from all these disciplines, enabling the reader to gain a rapid understanding of the foundations, as well as the open questions, of the physics of granular materials. The contributors have been chosen particularly for their ability to explain new concepts, making the book attractive to students or researchers contemplating a foray into the field. The breadth of the treatment, on the other hand, makes the book a useful reference for scientists who are already experienced in the subject.

Details & Specs

Title:Physics of Dry Granular MediaFormat:PaperbackDimensions:742 pages, 9.25 × 6.1 × 0.04 inPublished:December 8, 2010Publisher:Springer NetherlandsLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9048150396

ISBN - 13:9789048150397

Look for similar items by category:

Customer Reviews of Physics of Dry Granular Media

Reviews

Extra Content

Table of Contents

Preface. 1. Static Packings. 2. Deformation of the Packing. 3. Particle-Particle Interactions. 4. Shape of the Granular Heap. 5. Theory of Rapid Flows. 6. Avalanches and Inclined Chutes. 7. Flow in Pipes and Hoppers. 8. Vibrations. 9. Segregation. Author Index.