Language
English
German
^M
Dutch
Spanish
Title:
Shape-Memory Alloys
Source:
Scientific American [0036-8733] Schetky, L M yr:1979
Basic
Sorry, no full text available...
Please use the document delivery service (see below)
Holding information
Holdings in library search engine
ALBERT
Document delivery
Request document via
Library/Bibliothek
Users interested in this article also expressed an interest in the following:
description
1.
Ma, J.
"Expanding the Repertoire of Shape Memory Alloys."
Science
327.5972 (2010): 1468-1469.
description
2.
"Shape-memory alloy."
Industrial robot
28.2 (2001): 157-158.
description
3.
FALCIONI, J.
"SHAPE MEMORY ALLOYS."
Mechanical Engineering
114.4 (1992): 114-114.
description
4.
Kamita, T.
"One-dimensional pseudoelastic theory of shape memory alloys."
Smart materials & structures
7.4 (1998): 489-495.
description
5.
Christian, J.
"Shape Memory Alloys."
The theory of transformations in metals and alloys.
2002. 1102-1113.
description
6.
Bhadeshia, R.
Steels : Microstructure and Properties.
2006.
description
7.
Huang, W.
"Shape memory materials."
Materials today
13.7-8 (2010): 44-51.
description
8.
Haasen, P.
"Metallic Composite Materials."
Physical Metallurgy.
1996. 2567-2625.
description
9.
Smallman, R. E. E.
"Mechanical properties I."
Physical Metallurgy and Advanced Materials Engineering.
2007.
description
10.
"Research Basis of NiTi-Based Shape Memory Alloy Pipe Coupling."
Applied mechanics and materials : AMM.
687-691.Manufacturing Technology, Electronics, Computer and Information Technology Applications: 4351-4354.
description
11.
Shirani, M.
"One dimensional constitutive model with transformation surfaces for phase transition in shape memory alloys considering the effect of loading history."
International journal of solids and structures
81 (2016): 117-129.
description
12.
Chang, W.
"Use of shape memory alloy in construction:a critical review."
Proceedings of the Institution of Civil Engineers
169.2 (2016): 87-95.
description
13.
Omori, T.
"Superelastic effect in polycrystalline ferrous alloys.(Author abstract)."
Science
333.6038 (2011): 68-.
description
14.
Tanaka, Y.
"Ferrous polycrystalline shape-memory alloy showing huge superelasticity.(Author abstract)(Report)."
Science
327.5972 (2010): 1488-.
description
15.
Paul, D.
"Ferromagnetic shape memory alloys: Theory of interactions."
Journal of applied physics
2005. 10-.
description
16.
Bubner, N.
"Rate dependence of hysteresis in one-dimensional phase transitions."
Computational materials science
18.3-4 (2000): 245-254.
description
17.
Tanaka, Y.
"Ferrous Polycrystalline Shape-Memory Alloy Showing Huge Superelasticity."
Science
327.5972 (2010): 1488-1490.
description
18.
P.K., C.
"Introduction to Shape Memory Alloys."
Shape Memory Alloys.
description
19.
Kundu, Pijush K.
Fluid Mechanics.
description
20.
Matsuzaki, Y.
"Macroscopic and microscopic constitutive models of shape memory alloys based on phase interaction energy function: A review."
Journal of intelligent material systems and structures
15.2 (2004): 141-155.
View More...
View Less...
Select All
Clear All
Save Citations
Select Format
Reference Manager
RefWorks
EndNote
ProCite
Submit citation export
Advanced
Author
Other articles by this author? -- in
GeoRef
author:
Schetky, L M
last name
initials
Other articles by this author? -- in
Online Contents Geosciences
author:
Schetky, L M
last name
initials
Web Search
Find related information in
a Web Search Engine
Excite
Google
HotBot
Ixquick
ZOO
Ask
Yahoo!
Bing
Naver
Search Terms:
Search for related information in
Google Scholar
Article Title
Author Name
Journal Title
Other Search
Search Terms:
A service provided by the
Library of the Wissenschaftspark Albert Einstein
, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.