Last edited by Ditilar
Saturday, July 25, 2020 | History

4 edition of Shape memory alloys for biomedical applications found in the catalog.

Shape memory alloys for biomedical applications

by Takayuki Yoneyama

  • 237 Want to read
  • 7 Currently reading

Published by Woodhead Pub., CRC Press in Cambridge, England, Boca Raton .
Written in English

    Subjects:
  • Alloys,
  • Surgical Instruments,
  • Biocompatible Materials,
  • Prostheses and Implants,
  • Therapeutic use,
  • Biocompatibility,
  • Shape memory alloys

  • Edition Notes

    Includes bibliographical references and index.

    Statementedited by Takayuki Yoneyama and Shuichi Miyazaki
    SeriesWoodhead Publishing in materials
    Classifications
    LC ClassificationsTA487 .S53 2009
    The Physical Object
    Paginationxv, 337 p. :
    Number of Pages337
    ID Numbers
    Open LibraryOL25564682M
    ISBN 101845693442, 1420079662, 1845695240
    ISBN 109781845693442, 9781420079661, 9781845695248
    OCLC/WorldCa244056822

    Applications for Shape Memory alloys. Shape Memory metals that were developed by NASA for the space industry, and have been used for increasing applications down on earth. The following is a list of just some of the applications that shape memory alloys have been used for. Bioengineering: v Bones: Broken bones can be mended with shape memory. Get this from a library! Shape memory alloy engineering: for aerospace, structural and biomedical applications. [Leonardo Lecce; Antonio Concilio;] -- 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.

    In the present paper, recent developments within nearly 10 years on shape memory alloys and martensitic: transformations, on which shape memory . Shape memory alloys provide new insights for the design of biomaterials in bioengineering for the design of artificial organs and advanced surgical instruments, since they have specific characteristics and unusual properties. This article will examine (a) the four properties of shape memory alloys, (b) medical applications with high potential for improving the present and .

    the other hand, shape memory polymers (SMPs) show promise, although thus far, their biomedical applications have been limited to the exploration. This paper will first review the most common bio-medical applications of shape memory alloys and SMPs and address their critical biocompatibility concerns.   Shape memory alloys are suitable for a wide range of biomedical applications, such as dentistry, bone repair and cardiovascular stents. Shape memory alloys for biomedical applications provides a comprehensive review of the use of shape memory alloys in these and other areas of : Elsevier Science.


Share this book
You might also like
Mount Analogue

Mount Analogue

Statistics on international development.

Statistics on international development.

The Word to Set You Free

The Word to Set You Free

Proceedings of the Second Joint Meeting on Applied Science and Technology

Proceedings of the Second Joint Meeting on Applied Science and Technology

All about Texas law and kids

All about Texas law and kids

Mysteries of nature

Mysteries of nature

Federal employee life insurance, tax withholding, and personal assistants

Federal employee life insurance, tax withholding, and personal assistants

Pictures of Hollis Woods

Pictures of Hollis Woods

Cathedral of Roskilde.

Cathedral of Roskilde.

THE FINAL THROW (A HAMLYN WHODUNNIT)

THE FINAL THROW (A HAMLYN WHODUNNIT)

Health facts.

Health facts.

The Transition to Parenthood

The Transition to Parenthood

Fourteen years on, still more to be done

Fourteen years on, still more to be done

Reduction of a Large-Scale Global Mobility Optimization Model Through Aggregation

Reduction of a Large-Scale Global Mobility Optimization Model Through Aggregation

Education in Africa.

Education in Africa.

Search for the sun.

Search for the sun.

Regulation of fatigue in exercise

Regulation of fatigue in exercise

Shape memory alloys for biomedical applications by Takayuki Yoneyama Download PDF EPUB FB2

Shape memory alloys for biomedical applications provides a comprehensive review of the use of shape memory alloys in these and other areas of medicine. Part one discusses fundamental issues with chapters on such topics as mechanical properties, fabrication of materials, the shape memory effect, superelasticity, surface modification and.

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 and other applications.

With this book readers. Shape memory alloys for biomedical applications book memory alloys are suitable for a wide range of biomedical applications, such as dentistry, bone repair and cardiovascular stents.

Shape memory alloys for biomedical applications provides a. This book provides a working knowledge of the modeling and engineering applications of shape memory alloys (SMAs), beginning with a rigorous introduction to continuum mechanics and continuum thermodynamics as they relate to the development of SMA SMAs can recover from large amounts of bending and deformation, and millions of repetitions within 5/5(1).

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 and other applications.

With this book readers will gain an. Shape memory alloys, and in particular NiTi alloys, are characterized by two unique behaviors, thermally or mechanically activated: the shape memory effect and pseudo-elastic effect. These behaviors, due to the peculiar crystallographic structure of the alloys, assure the recovery of the original shape even after large deformations and the maintenance of a constant applied force.

Shape Memory Alloy Engineering: For Aerospace, Structural and Biomedical Applications, Second Edition embraces new advancements in materials, systems and applications introduced since the first edition.

Readers will gain an understanding of the intrinsic properties of SMAs and their characteristic state diagrams. This book provides a working knowledge of the modeling and applications of shape memory alloys (SMAs) to practicing engineers and graduate and advanced undergraduate students with an interest in the behavior and utility of active or multifunctional materials and "smart" structures.

This behavior is known as the shape-memory effect and is a phenomenon observed first in shape-memory alloys, where the memory effect is governed by the thermoelastic behavior of the martensite phase. In this book, a number of research findings have been introduced to show the current and potential applications of SMPs in medicine.

Besides, in terms of wound closure, shape memory alloy (NiTi) has certain advantages. However, some drawbacks of limited deformation, non-biodegradable greatly limit its development in biomedical application [39,40].Recently, biodegradable stapler has attracted more and more attention in minimally invasive surgery.

Although deformation, fracture, and fatigue studies have been performed on nearly all shape memory alloy compositions, this chapter will focus exclusively on research efforts in Ti–Ni (Nitinol) shape memory alloys, which have the only proven history of use in biomedical applications and hold significant promise for future applications.

Shape Memory Alloy Engineering: For Aerospace, Structural and Biomedical Applications by Leonardo Lecce and Antonio Concilio | Hardcover.

In biomedicine, which is a big field for the NiTi alloys, shape memory alloys have been applied for orthodontic wires [16], self-expanding stents for cardiovascular applications. Shape Memory Alloy Engineering: For Aerospace, Structural and Biomedical Applications by Leonardo Lecce, Antonio Concilio, et al.

| Paperback. Buy Shape Memory Alloys for Biomedical Applications (Woodhead Publishing Series in Biomaterials) 1 by Takau Yoneyama, S. Mayazaki (ISBN: ) from Amazon's Book Store. Everyday low prices and free delivery on eligible orders.

Ti and its alloys, i.e. Ti6Al4V are known for their excellent tensile strength and pitting corrosion resistance. Titanium alloyed with Ni, i.e. Nitinol, forms alloys having shape memory effect which makes them suitable in various applications.

Biomedical Applications of Shape Memory Alloys Article (PDF Available) in Journal of Metallurgy (1) April with 2, Reads How we measure 'reads'.

This book will provide readers with a comprehensive review of shape memory polymer technologies. Part 1 will discuss the fundamentals and mechanical aspects of SMPs.

Chapters in part 2 will look at the range of technologies and materials available for scientific manipulation whilst the final set of chapters will review applications.

Shape Memory Alloys: Modeling and Engineering Applications P.K. Kumar, D.C. Lagoudas (auth.), Dimitris C. Lagoudas (eds.) This book provides a working knowledge of the modeling and applications of shape memory alloys (SMAs) to practicing engineers and graduate and advanced undergraduate students with an interest in the behavior and utility of.

Shape memory alloys are suitable for a wide range of biomedical applications, such as dentistry, bone repair and cardiovascular stents. Shape memory alloys for biomedical applications provides a comprehensive review of the use of shape memory alloys in these and other areas of : Elsevier Science.

In short, there are a large number of biomedical applications of nitinol [98, 99] and there is a good book on the biomedical applications of shape memory alloys by Yoneyama and Miyazaki. Professor Miyazaki from the University of Tsukuba and Professor Hideki Hosoda from Tokyo Institute of Technology, Japan, are famous professors in the field of.Effect of textures on shape memory properties of Ti-based shape memory alloys.

Ti-Mo based shape memory alloys. Ti-V based shape memory alloys. Conclusions. ation of Shape Memory Alloy PartsT Habu, Furukawa Techno Material Co. Ltd, JapanGeneral processing techniques for Ti-Ni alloys. Other machining methods for Ti-Ni alloys. Shape Memory Alloys for Biomedical Applications (Woodhead Publishing Series in Biomaterials) - Kindle edition by Yoneyama, T, Miyazaki, S.

Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Shape Memory Alloys for Biomedical Applications (Woodhead 3/5(1).