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Impact Engineering of Composite Structures

Kataloginformation Katalogdatensatz500159098 .

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Feldname	Details
Vorliegende Sprache	eng
ISBN	978-3-7091-0522-1
Name	Abrate, Serge
T I T E L	Impact Engineering of Composite Structures
Verlagsort	Vienna
Verlag	Springer Vienna
Erscheinungsjahr	2011
Erscheinungsjahr	2011
Umfang	Online-Ressource (VIII, 404p. 237 illus, digital)
Reihe	CISM International Centre for Mechanical Sciences ; 526
Notiz / Fußnoten	Includes bibliographical references
Weiterer Inhalt	Title Page; Copyright Page; PREFACE; Table of Contents; Introduction to the Mechanics of Composite Materials; 1- Stress; 1.1- Stress Components Acting on a Small Element; 1.2- Surface Tractions on an Arbitrary Surface; 1.3- Equations of Motion; 2- Strain; 2.1- Linear Strains; 2.2- Shear Strains; 3- Stress-Strain Behavior; 3.1- Hooke's Law; 3.2- Poisson's Ratio; 3.3- Stress-Strain Relation in Shear; 3.4- Stress-Strain Relations for an Orthotropic Solid; 3.5- Stress-Strain Relations for a Lamina under Plane Stress; 3.6- Coordinate Transformation; 4- Failure Criteria for Composite Materials. 4.1- Criteria for Fiber Failure4.2- Criteria for Matrix Failure; 4.3- Delamination Failure Criteria; 4.4- Stress Invariants; 4.5- Strain Energy Density for Isotropic Solids; 4.6- Von Mises Criterion; 4.7- Hill's anisotropic criterion and extensions; 4.8- Development of Quadratic Criteria; 4.9- Three Dimensional Tsai-Wu Failure Criterion; 4.10- Hoffman's Criterion; 4.11- Three-Dimensional Tsai-Hill Criterion; 5- Criteria for Delamination Propagation; 5.1- Fracture Mechanics Approach; 5.2- Cohesive Element Approach; 6- Summary; References; Mechanics of Plates. 1- Derivation of the Equations of Motion in terms of Force and Moment Resultants2- Kinematics Assumptions; 3- Classical Plate Theory; 3.1- Kinematics of the deformation; 3.2- Constitutive Equations; 3.3- Equations of Motion for the CPT; 4- First Order Shear Deformation Theory; 4.1- Kinematics of the Deformation; 4.2- Constitutive Equations; 5- Limitation of the CPT and the FSDT; 6- Reddy Shear Deformation Theory; 6.1- Kinematics of the Deformation; 6.2- Constitutive Equations; 7- Limitation of the CPT, FSDT and RSDT; 8- Theories Including Deformations in the Transverse Direction. 9- Dynamic Response9.1- Free Vibrations; 9.2- Modal Superposition; 9.3- SDOF Model; 10- Conclusion; 11- Acknowledgements; References; Impact Dynamics; 1- Introduction; 2- Rigid Body Impacts; 3- Quasi-Static Approximation; 3.1- Single Degree of Freedom Model; 3.2- Effect of the Weight of the Projectile; 3.3- Effect of the Mass of the Structure; 3.4- Effect of geometrical nonlinearities; 3.5- Effect of damping; 3.6- Effect of damage; 4- Two Degree of Freedom Model; 4.1- Contact Laws; 4.2- Impact on a Thick Laminate; 4.3- Two degree of freedom models; 5- Complete Models. 6- Impact on Sandwich Structures6.1- Contact Behavior; Experimental Results; Beam on elastic foundation model for the indentation of a sandwich beam; 6.2- SDOF impact models; 6.3- Two Degree of Freedom Models; 7- Conclusion; References; IMPACT RESPONSE OF LAMINATED AND SANDWICH COMPOSITES; ABSTRACT; 1.0 INTRODUCTION; 2.0 LOW VELOCITY IMPACT (LVI); 2.1 BACKGROUND; 2.2 TEST EQUIPMENT; 2.2.1 Izod and Charpy Impact Testing.; 2.2.2 Instrumented Falling Weight Impact Testing.; 2.3 IMPACT ENERGY; 2.4 MODES OF FAILURE IN LOW-VELOCITY IMPACT; 2.4.1 Matrix damage.; 2.4.2 Delamination.. 2.4.3 Delamination initiation and interaction with matrix cracking.
Titelhinweis	Buchausg. u.d.T.ISBN: 978-3-7091-0522-1
ISBN	ISBN 978-3-7091-0523-8
Klassifikation	TGMD4
	TEC009070
	SCI018000
	*74-06
	74M20
	74A40
	00B25
	620.118
	620.1/18
	TA355
	TA352-356
Kurzbeschreibung	The book provides an introduction to the mechanics of composite materials, written for graduate students and practitioners in industry. It examines ways to model the impact event, to determine the size and severity of the damage and discusses general trends observed during experiments.
2. Kurzbeschreibung	The book provides an introduction to the mechanics of composite materials, written for graduate students and practitioners in industry. It examines ways to model the impact event, to determine the size and severity of the damage and discusses general trends observed during experiments
SWB-Titel-Idn	338110984
Signatur	Springer E-Book
Bemerkungen	Elektronischer Volltext - Campuslizenz
Elektronische Adresse	$uhttp://dx.doi.org/10.1007/978-3-7091-0523-8
Internetseite / Link	Volltext
Siehe auch	Volltext
Siehe auch	Cover
Siehe auch	Inhaltstext

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