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200 10$aMicromechanics of composite materials $ea generalized multiscale analysis approach /$fJacob Aboudi, Steven M. Arnold, Brett A. Bednarcyk
205   $a1st ed.
210   $aAmsterdam $cElsevier$d2013
215   $a1 online resource (1031 p.)
300   $aDescription based upon print version of record.
311 08$a9780123970350 
311 08$a0123970350 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Micromechanics of Composite Materials: A Generalized Multiscale Analysis Approach; Copyright; Dedication; Contents; Preface; Acknowledgments; Acronyms; Chapter 1 Introduction; 1.1 Fundamentals of Composite Materials and Structures; 1.2 Modeling of Composites; 1.3 Description of the Book Layout; 1.4 Suggestions on How to Use the Book; Chapter 2 Constituent Material Modeling; 2.1 Reversible Models; 2.2 Irreversible Deformation Models; 2.3 Damage/Life Models; 2.4 Concluding Remarks; Chapter 3 Fundamentals of the Mechanics of Multiphase Materials
327   $a3.1 Introduction of Scales and Homogenization/Localization3.2 Macromechanics versus Micromechanics; 3.3 Representative Volume Elements (RVEs) and Repeating Unit Cells (RUCs); 3.4 Volume Averaging; 3.5 Homogeneous Boundary Conditions; 3.6 Average Strain Theorem; 3.7 Average Stress Theorem; 3.8 Determination of Effective Properties; 3.9 Mechanics of Composite Materials; 3.10 Comparison of Various Micromechanics Methods for Continuous Reinforcement; 3.11 Levin's Theorem: Extraction of Effective CTE from Mechanical Effective Properties
327   $a3.12 The Self-Consistent Scheme (SCS) and Mori-Tanaka (MT) Method for Inelastic Composites3.13 Concluding Remarks; Chapter 4 The Method of Cells Micromechanics; 4.1 The MOC for Continuously Fiber-Reinforced Materials (Doubly Periodic); 4.2 The Method of Cells for Discontinuously Fiber-Reinforced Composites (Triply Periodic); 4.3 Applications: Unidirectional Continuously Reinforced Composites; 4.4 Applications: Discontinuously Reinforced (Short-Fiber) Composites; 4.5 Applications: Randomly Reinforced Materials; 4.6 Concluding Remarks; Chapter 5 The Generalized Method of Cells Micromechanics
327   $a5.1 GMC for Discontinuous Reinforced Composites (Triple Periodicity)5.2 Specialization of GMC to Continuously Reinforced Composites (Double Periodicity); 5.3 Applications; 5.4 Concluding Remarks; Chapter 6 The High-Fidelity Generalized Method of Cells Micromechanics; 6.1 Three-Dimensional (Triply Periodic) High-Fidelity Generalized Method of Cells with Imperfect Bonding Between the Phases; 6.2 Specialization to Double Periodicity (for Continuous Fibers, Anisotropic Constituents, and Imperfect Bonding)
327   $a6.3 Reformulation of the Two-Dimensional (Doubly Periodic) HFGMC with Debonding and Inelasticity Effects6.4 Contrast Between HFGMC and Finite Element Analysis (FEA); 6.5 Isoparametric Subcell Generalization; 6.6 Doubly Periodic HFGMC Applications; 6.7 Triply Periodic Applications; 6.8 Concluding Remarks; Chapter 7 Multiscale Modeling of Composites; 7.1 Introduction; 7.2 Multiscale Analysis Using Lamination Theory; 7.3 HyperMAC; 7.4 Multiscale Generalized Method of Cells (MSGMC); 7.5 FEAMAC; 7.6 Concluding Remarks; Chapter 8 Fully Coupled Thermomicromechanical Analysis of Multiphase Composites
327   $a8.1 Introduction
330   $a With composites under increasing use in industry to replace traditional materials in components and structures, the modeling of composite performance, damage and failure has never been more important.   Micromechanics of Composite Materials: A Generalized Multiscale Analysis Approach brings together comprehensive background information on the multiscale nature of the composite, constituent material behaviour, damage models and key techniques for multiscale modelling, as well as presenting the findings and methods, developed over a lifetime's research, of three leading experts in
606   $aComposite materials
615  0$aComposite materials.
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200 14$aThe Chemistry of Double-Bonded Functional Groups: Supplement A. Vol. 2
210 31$a[Place of publication not identified]$cJohn Wiley & Sons Incorporated$d1989
215   $a1 online resource $cillustrations
225 1 $aChemistry of functional groups. Supplement
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a0-471-92493-8 
327   $aVol. 2. 1989. [v. 2., pt. 1.] Complementary views on the homopolar double-bond structure -- Georges Trinquier and Jean-Paul Malrieu -- Mass spectrometry of the double bond -- Margaret N. Mruzek -- Nuclear magnetic resonance spectroscopy of C=C, C=O, C=N and N=N double bonds -- Poul Erik Hansen -- The photoelectron spectroscopy of double-bonded CC, CN, NN and CO groups -- L. Klasinc and S.P. McGlynn -- Directing and activating effects of doubly bonded groups -- Marvin Charton -- Double bonds from a biochemical perspective -- Alan H. Mehler -- Intramolecular 1,3-dipolar cycloadditions to double bonds -- O. Tsuge, T. Hatta and T. Hisano -- The ene reaction -- G.V. Boyd -- Radiation chemistry of double-bonded compounds -- Zeev B. Alfassi -- Asymmetric induction in additions to C=O and C=N bonds -- Joseph Klein -- Electrophilic additions to carbon-carbon double bonds --- George H. Schmid -- Mechanisms of base-catalyzed alkene-forming 1,2-eliminations -- Joseph R. Gandler -- [v. 2., pt. 2.] Carbonylation of main-group organometallic compounds -- Norma Nudelman -- Rearrangements involving allenes -- Samuel Braverman -- 1,1-Diarylalkenes -- William S. Murphy -- Fulvenes -- M. Neuenschwander -- The thiocarbonyl group -- Ernst Schaumann -- Cycloadditions of enones -- Janine Cossy, Pierre-Alain Carrupt and Pierre Vogel.
330   $aThis two-volume set forms the second supplement to the series "The Chemistry of Functional Groups". Integrated chapters giving a unified and comparative treatment of several double-bonded functional groups are featured.
410  0$aChemistry of functional groups.
606   $aPhysical organic chemistry
606   $aFunctional groups
606   $aChemistry, Organic
615  0$aPhysical organic chemistry.
615  0$aFunctional groups.
615  0$aChemistry, Organic.
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