Shape memory alloy engineering : for aerospace, structural and biomedical applications /

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Shape Memory Alloy Engineering introduces materials, mechanical, and aerospace engineers to shape memory alloys (SMAs), providing a unique perspective that combines fundamental theory with new approaches to design and modeling of actual SMAs as compact and inexpensive actuators for use in aerospace...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Lecce, Leonardo (Editor ), Concilio, Antonio, 1964- (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Butterworth-Heinemann, an imprint of Elsevier, 2014.
Temas:
Shape memory alloys.
Alliages �a m�emoire de forme.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Shape memory alloys
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Shape Memory Alloy Engineering; Copyright; Dedication; CONTENTS; LIST OF CONTRIBUTORS; ABOUT THE EDITORS-IN-CHIEF; ABOUT THE CONTRIBUTORS; PREFACE; Section 1 Introduction; Chapter 1
  • Historical Background and Future Perspectives; 1.1 INTRODUCTION; 1.2 LIST OF SYMBOLS; 1.3 SHAPE MEMORY ALLOYS; 1.4 GOLD-BASED ALLOYS; 1.5 NITINOL; 1.6 COPPER-BASED ALLOYS; 1.7 IRON-BASED ALLOYS; 1.8 SMA COMMUNITY; 1.9 FUTURE PERSPECTIVES; 1.10 SUMMARY TABLES; BIBLIOGRAPHY; Section 2 Material; Chapter 2
  • Phenomenology of Shape Memory Alloys; 2.1 INTRODUCTION; 2.2 LIST OF SYMBOLS.
  • 2.3 GENERAL CHARACTERISTICS AND THE MARTENSITIC TRANSFORMATIONS2.4 FUNCTIONAL PROPERTIES OF SMAS; 2.5 POROUS NITI; 2.6 MAGNETIC SHAPE MEMORY ALLOYS; 2.7 CONCLUSIONS; BIBLIOGRAPHY; Chapter 3
  • Experimental Characterization of Shape Memory Alloys; 3.1 INTRODUCTION; 3.2 LIST OF SYMBOLS; 3.3 CALORIMETRIC INVESTIGATIONS; 3.4 THERMOMECHANICAL CHARACTERIZATION: TESTS AND PARAMETERS; 3.5 COMPLETE EXPERIMENTAL CHARACTERIZATION OF THERMAL AND MECHANICAL PROPERTIES; 3.6 ELECTRICAL RESISTANCE MEASUREMENTS; 3.7 NEUTRON DIFFRACTION ANALYSIS; 3.8 CONCLUSION; BIBLIOGRAPHY.
  • Chapter 4
  • Manufacturing of Shape Memory Alloys4.1 INTRODUCTION; 4.2 LIST OF SYMBOLS; 4.3 MELTING PROCESS OF SMA; 4.4 TRADITIONAL WORKING PROCESS OF SMA MATERIALS; 4.5 NEW TECHNOLOGIES OF PREPARATION OF SMA PRODUCTS; 4.6 THERMOMECHANICAL PROCESS TO OPTIMIZE THE FUNCTIONAL PROPERTIES OF SMA; 4.7 NEAR NET SHAPE PROCESS; 4.8 ECOCOMPATIBILITY OF SMA; BIBLIOGRAPHY; Section 3 Modelling; Chapter 5
  • 1D SMA Models; 5.1 INTRODUCTION; 5.2 LIST OF SYMBOLS; 5.3 NONKINETIC MODELS; 5.4 ADVANCED MODELS WITH TRAINING EFFECT; 5.5 CONCLUSIONS; BIBLIOGRAPHY.
  • Chapter 6
  • SMA Constitutive Modeling and Analysis of Plates and Composite Laminates6.1 INTRODUCTION; 6.2 LIST OF SYMBOLS; 6.3 THREE-DIMENSIONAL PHENOMENOLOGICAL CONSTITUTIVE MODEL FOR SMA; 6.4 PLATE AND LAMINATE MODELS FOR SMA APPLICATIONS; 6.5 NUMERICAL RESULTS; 6.6 CONCLUSIONS; BIBLIOGRAPHY; Chapter 7
  • SMAs in Commercial Codes; 7.1 INTRODUCTION; 7.2 SUPERELASTIC SMAS WITHIN SIMULIA ABAQUS SOLVER; 7.3 INTEGRATION OF SMAS WITHIN COMSOL MULTIPHYSICS SOLVER; 7.4 INTEGRATION OF SMAS WITHIN ANSYS SOLVER; 7.5 INTEGRATION OF SMAS WITHIN MSC. NASTRAN SOLVER; 7.6 APPLICATIONS; 7.7 CONCLUSIONS.

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