Particles in Contact (eBook, PDF)

Micro Mechanics, Micro Process Dynamics and Particle Collective

• Format: PDF

Produktbeschreibung

This book contains the latest scientific findings in the area of granular materials, their physical fundamentals and applications in particle technology focused on the description of interactions of fine adhesive particles. In collaboration between physicists, chemists, mathematicians and mechanics and process engineers from 24 universities, new theories and methods for multiscale modeling and reliable measurement of particles are developed, with a focus on: • Basic physical-chemical processes in the contact zone: particle-particle and particle-wall contacts, • Particle collisions and their dynamics • Constitutive material laws for particle systems on the macro level.

Produktdetails

• Verlag: Springer International Publishing
• Erscheinungstermin: 31. Juli 2019
• Englisch
• ISBN-13: 9783030158996
• Artikelnr.: 57552344

Autorenporträt

Sergiy Antonyuk is a Professor and Head of the Institute of Particle Process Engineering at the Technische Universität Kaiserslautern, Germany.

Inhaltsangabe

From the content: Analysis of adsorbates and interfacial forces at metal oxide interfaces at defined environmental conditions.- Microwave emission during the impact compaction of particle bed.- Formation, deformation, rolling and sliding of particles and particle aggregates: Mechanisms and applications.- Formation, deformation, rolling and sliding of particles and particle aggregates: Mechanisms and applications.- Contact models and DEM simulation of micrometer-sized particles and agglomerates at static loading based on experimental characterization.- Contact mechanisms in ultrasound-agitated particulate systems.- Capillary interaction in wet granular assemblies.

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From the content:Analysis of adsorbates and interfacial forces at metal oxide interfaces at defined environmental conditions.- Microwave emission during the impact compaction of particle bed.- Formation, deformation, rolling and sliding of particles and particle aggregates: Mechanisms and applications.- Formation, deformation, rolling and sliding of particles and particle aggregates: Mechanisms and applications.- Contact models and DEM simulation of micrometer-sized particles and agglomerates at static loading based on experimental characterization.- Contact mechanisms in ultrasound-agitated particulate systems.- Capillary interaction in wet granular assemblies.