Theoretical and Applied Mechanics 1992
Theoretical and Applied Mechanics 1992

Author: S.R. Bodner

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 492

ISBN-13: 044460023X

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Contained in this volume are the full texts of the invited general and sectional lectures presented at this conference concerning mechanics and its development. The entire field of mechanics is covered, including analytical, solid and fluid mechanics and their applications. A brilliant survey of work in the fields of fluid and solid mechanics is also given. The papers are written by leading experts which is reflected in the quality and diversity of the lectures and posters presented, they will provide a valuable key to the latest and most important developments in the various sub-fields of mechanics.

Theoretical and Applied Mechanics 1996
Theoretical and Applied Mechanics 1996

Author: E. Watanabe

Publisher: North Holland

Published: 1997-04-25

Total Pages: 678

ISBN-13: 9780444824462

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These proceedings present an up-to-date and comprehensive review of the field of theoretical and applied mechanics. All the papers are written by leading experts presently active in this subject area.

Topics in Applied Mechanics
Topics in Applied Mechanics

Author: J. F. Dijksman

Publisher: Kluwer Academic Pub

Published: 1993

Total Pages: 374

ISBN-13: 9780792324423

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This volume is a compilation of contributions in applied mechanics, dealing with both solid and fluid mechanics. The contributions are based on material presented at the national mechanics congress held in the Netherlands during November 16--18, 1992. The scope of the volume covers both theoretical and applied issues, including the following themes: Experimental mechanics, how to use modern electronic equipment, optical techniques and software tools to measure strain, stress, displacements, forces, etc. in both fluids and solids. The analysis of localised effects on stiffness, strength and stability of structures, like dikes, bridges, roads, and all public works necessary to improve among other things the navigability of canals and rivers. The analysis of damage processes in concrete and fiber reinforced polymers and the quest to make such processes accessible by numerical computation. The analysis of localised effects on fluid flow, leading to more understanding of the origin of the different colours of musical tones and human speech, but also to more understanding of the pulsating flow of blood through complicated shaped arteries and drag reduction in turbulent flow through pipes or along walls, as a result of small sized surface grooves or the addition of a very small amount of polymer to liquids. The investigation of non-linearities in the behaviour of dynamic systems such as manipulators, railway vehicles, etc. Micromechanics and constitutive equations. In order to describe complex material behaviour understanding of momentum and heat transport on almost the molecular level is needed. This emphasizes the importance of micromechanics in relation to the ultimate strength of composite materials, ranging from fiber reinforced plastics up to very high temperature resistant ceramics toughened by thin hairlike crystals of exceptional mechanical strength. Fluid-structure interactions, such as occur in non-rigid pipelines and artery systems.