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Shape Memory Alloys de H.R. Chen

Shape Memory Alloys

Editat de H.R. Chen
en Limba Engleză Hardback – 17 mai 2010
A shape memory alloy (SMA, also known as a smart metal, memory alloy, or muscle wire) is an alloy that "remembers" its shape, and can be returned to that shape after being deformed, by applying heat to the alloy. When the shape memory effect is correctly harnessed, this material becomes a lightweight, solid-state alternative to conventional actuators such as hydraulic, pneumatic, and motor-based systems. Shape memory alloys have numerous applications in the medical and aerospace industries. This book presents the latest research in the field from around the globe.
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Specificații

ISBN-13: 9781607417897
ISBN-10: 1607417898
Pagini: 546
Ilustrații: photos, tables & charts
Dimensiuni: 190 x 263 x 34 mm
Greutate: 1.2 kg
Ediția:New.
Editura: Nova Science Publishers Inc
Locul publicării:United States

Cuprins

Preface; Constitutive models for shape memory alloys: A two-phase mixture model and a microstructure-based model; Review of the state of the art of control of SMA systems; Fabrication and Surface Modification of Porous Nickel-Titanium Shape Memory Alloy for Bone Grafts; Structure and properties of a monocrystalline Cu-Al-Ni alloy submitted to thermal cycling under load; Interaction between martensitic transformations and defects during thermal and pseudoelastic cycling in CuAlNi single crystals; Importance of the study of thermal properties in the research of Ni-Mn-Ga shape memory alloys; Micromechanical Modeling of Shape Memory Alloy Composites; Characteristic deformation and structural changes of ni-ti alloys by molecular dynamics; phase transformation and amorphization; Evolution of the stress-induced martensitic transformation in a CuAlBe shape memory alloy under uniaxial tension; Analysis of a thermomechanical model of shape memory alloys; The shape memory effect in antiferromagnetic alloys; The Numerical Analysis Of Two - Shape Memory Model; Phase transformation in NiTi shape memory alloy Under Thermomechanical conditions; Shape Memory Alloys In Micropositioning Applications; Dependence of Transformation Temperatures of Shape Memory Alloys on the Number and Concentration of Valence Electrons; Some Factors Affecting the Transformation Hysteresis in Shape Memory Alloys; Index.