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03806nam a22005415i 4500 |
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|a 9780306483899
|9 978-0-306-48389-9
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|a 10.1007/0-306-48389-0
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|a Cardiovascular Soft Tissue Mechanics
|h [electronic resource] /
|c edited by Stephen C. Cowin, Jay D. Humphrey.
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|a Dordrecht :
|b Springer Netherlands,
|c 2001.
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|a XII, 246 p.
|b online resource.
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|b txt
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|a A new Constitutive Framework for Arterial Wall Mechanics and a Comparative Study of Material Models -- Structure, Mechanical Properties, and Mechanics of Intracranial Saccular Aneurysms -- A Model of Arterial Adaptation to Alterations in Blood Flow -- Computational Mechanics of the Heart -- Effect of Laminar Orthotropic Myofiber Architecture on Regional Stress and Strain in the Canine Left Ventricle -- Modeling Heart Development -- Biaxial Mechanical Evaluation of Planar Biological Materials.
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|a This special volume of the Journal of Elasticity represents the first in a new p- gram dedicated to the occasional publication of collections of invited, reviewed papers of topical interest. The purpose of this program is to spotlight the dev- opments and applications in the mechanics of materials within specific areas that can enhance growth and provide insight for the advancement of the field as well as promote fundamental understanding and basic discovery. Soft Tissue Mechanics is an area of biomechanics that draws heavily upon f- damental ideas and material models from nonlinear elasticity and viscoelasticity. A major goal of this research is to understand those mechanics properties of heart, artery, collagen and skeletal muscle tissue that can be used for the diagnosis of health problems and the improvement of human life. This volume illustrates how experiment, modeling and computation is currently employed in this emerging field. May 2001 ROGER FOSDICK Editor-in-Chief Journal of Elasticity 61: ix–xii, 2000. ix Preface There are two primary areas for the application of elasticity in the biomechanics of tissues: hard tissue mechanics (e.g., bone, teeth, horns, etc.) and soft tissue - chanics (e.g., skin, tendons, arteries, etc.). The distinguishing feature between these tissue types is the amount of physiological “normal” deformation they experience. While “hard” tissues only experience small deformations, soft tissues typically experience large deformations. From a biomechanics viewpoint soft tissues fall within the realm of finite elasticity.
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|a Engineering.
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|a Cardiology.
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|a Mechanics.
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|a Applied mathematics.
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|a Engineering mathematics.
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|a Continuum mechanics.
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|a Biomedical engineering.
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|a Engineering.
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|a Biomedical Engineering.
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|a Cardiology.
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|a Mechanics.
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|a Continuum Mechanics and Mechanics of Materials.
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|a Appl.Mathematics/Computational Methods of Engineering.
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|a Cowin, Stephen C.
|e editor.
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|a Humphrey, Jay D.
|e editor.
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|a SpringerLink (Online service)
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|t Springer eBooks
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|i Printed edition:
|z 9781402002205
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|u http://dx.doi.org/10.1007/0-306-48389-0
|z Full Text via HEAL-Link
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|a ZDB-2-ENG
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|a ZDB-2-BAE
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|a Engineering (Springer-11647)
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