Pseudoelasticity of Shape Memory Alloys (e-bog) af Ziolkowski, Andrzej
Ziolkowski, Andrzej (forfatter)

Pseudoelasticity of Shape Memory Alloys e-bog

1313,81 DKK (inkl. moms 1642,26 DKK)
Pseudoelasticity of Shape Memory Alloys: Theory and Experimental Studies is devoted to the phenomenon of pseudoelasticity (superelasticity) exhibited by shape memory alloy materials. It provides extensive introductory content on the state-of-the-art in the field, including SMA materials development, definition of shape memory effects, and discussions on where shape memory behavior is found in ...
E-bog 1313,81 DKK
Forfattere Ziolkowski, Andrzej (forfatter)
Udgivet 23 marts 2015
Længde 270 sider
Genrer Metals technology / metallurgy
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780128018019
Pseudoelasticity of Shape Memory Alloys: Theory and Experimental Studies is devoted to the phenomenon of pseudoelasticity (superelasticity) exhibited by shape memory alloy materials. It provides extensive introductory content on the state-of-the-art in the field, including SMA materials development, definition of shape memory effects, and discussions on where shape memory behavior is found in various engineering application areas. The book features a survey of modeling approaches targeted at reliable prediction of SMA materials' behavior on different scales of observation, including atomistic, microscopic, mezoscopic, and macroscopic. Researchers and graduate students will find detailed information on the modern methodologies used in the process of building constitutive models of advanced materials exhibiting complex behavior. Introduces the phenomenon of pseudoelasticity exhibited by shape memory alloy materials Features a survey of modeling approaches targeted at reliable prediction of SMN materials' behavior on different scales of observation Provides extensive coverage of the state-of-the-art in the field Ideal reference for researchers and graduate students interested in the modern methodologies used in the process of building constitutive models of advanced materials