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Shape Memory and Superelasticity
Published in: Shape Memory and Superelasticity 1/2016

01-03-2016 | Editorial

A Focus on Biomedical Shape Memory and Superelastic Alloys

Author: Shuichi Miyazaki

Published in: Shape Memory and Superelasticity | Issue 1/2016

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Excerpt

In order for shape-memory alloys to expand their use in biomedical applications, continual research is critical. In this issue of Shape Memory and Superelasticity, several of the articles will be focused on the latest research of well-developed NiTi-based and rapidly evolving Ti-based alloys being conducted in both the academic and industrial sectors.
previous article Shape Memory and Superelasticity Best Paper Award
next article Ti–Ni Rods with Variable Stiffness for Spine Stabilization: Manufacture and Biomechanical Evaluation

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Metadata
Title
A Focus on Biomedical Shape Memory and Superelastic Alloys
Author
Shuichi Miyazaki
Publication date
01-03-2016
Publisher
Springer International Publishing
Published in
Shape Memory and Superelasticity / Issue 1/2016
Print ISSN: 2199-384X
Electronic ISSN: 2199-3858
DOI
https://doi.org/10.1007/s40830-016-0062-3

Other articles of this Issue 1/2016

Shape Memory and Superelasticity 1/2016 Go to the issue

OriginalPaper

On the Mechanisms for Martensite Formation in YAG Laser Welded Austenitic NiTi

OriginalPaper

Composition–Structure–Property Relations in Au35–68Cu49–15Al16–17 Shape Memory Thin Films

Special Issue: Research on Biomedical Shape Memory Alloys, Invited Paper

Deformation Mechanisms and Biocompatibility of the Superelastic Ti–23Nb–0.7Ta–2Zr–0.5N Alloy

Announcement

Shape Memory and Superelasticity Best Paper Award

OriginalPaper

Cyclic Degradation of Co49Ni21Ga30 High-Temperature Shape Memory Alloy: On the Roles of Dislocation Activity and Chemical Order

Special issue: High-Temperature Shape Memory Alloys, Invited Paper

Slip Resistance of Ti-Based High-Temperature Shape Memory Alloys

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