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Philosophical Magazine Letters Volume 86, 2006 - Issue 1
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Original Articles

Microstructure and shape-memory behavior of annealed Ti51.5Ni33.1Cu15.4 thin films

A. Ishida National Institute for Materials Science, 1-2-1, Sengen, Tsukuba, Ibaraki 305-0047, JapanCorrespondence[email protected]
,
M. Sato National Institute for Materials Science, 1-2-1, Sengen, Tsukuba, Ibaraki 305-0047, Japan
&
K. Ogawa National Institute for Materials Science, 1-2-1, Sengen, Tsukuba, Ibaraki 305-0047, Japan
Pages 13-20 | Received 22 Aug 2005, Accepted 16 Nov 2005, Published online: 21 Aug 2006

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Dhiraj Narayane, Ravindra V. Taiwade & Khemraj Sahu. (2023) Review on development and performance of shape memory alloy/polyimide thin-film composites. Materials and Manufacturing Processes 38:3, pages 245-259.
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Jun Li, Xinxin Feng, Haizhen Wang, Xianglong Meng, Zhiyong Gao & Xiaoyang Yi. (2022) The microstructure of Ti-Ni-Cu shape memory thin films: a review. Materials Science and Technology 38:3, pages 143-158.
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Xianglong Meng, Morio Sato & Akira Ishida. (2011) A novel lattice correspondence of B19 → B19′ transformation in Ti–Ni–Cu shape memory alloy thin film. Philosophical Magazine Letters 91:5, pages 344-353.
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X.L. Meng, M. Sato & A. Ishida. (2008) Influence of Ti2Cu precipitates on B19 martensite structure in a Ti-rich Ti–Ni–Cu thin film. Philosophical Magazine Letters 88:8, pages 575-582.
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A. Ishida, M. Sato & K. Ogawa. (2008) Microstructure of annealed Ti48.5Ni(51.5– )Cu (x = 6.2–33.5) thin films. Philosophical Magazine 88:16, pages 2427-2438.
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A. Ishida & M. Sato. (2007) Microstructure and shape memory behaviour of annealed Ti51.5Ni(48.5- )Cu (  = 6.5–20.9) thin films. Philosophical Magazine 87:35, pages 5523-5538.
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Articles from other publishers (20)

L. Bumke, N. Wolff, C. Chluba, T. Dankwort, L. Kienle & E. Quandt. (2021) Coherent Precipitates as a Condition for Ultra-Low Fatigue in Cu-Rich Ti53.7Ni24.7Cu21.6 Shape Memory Alloys. Shape Memory and Superelasticity 7:4, pages 526-540.
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Aslan Ahadi, Amir Sabet Ghorabaei, Hassan Shirazi & Mahmoud Nili-Ahmadabadi. (2021) Bulk NiTiCuCo shape memory alloys with ultra-high thermal and superelastic cyclic stability. Scripta Materialia 200, pages 113899.
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Lars Bumke, Christiane Zamponi, Justin Jetter & Eckhard Quandt. (2020) Cu-rich Ti52.8Ni22.2Cu22.5Co2.5 shape memory alloy films with ultra-low fatigue for elastocaloric applications. Journal of Applied Physics 127:22.
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Hang Li, Xianglong Meng & Wei Cai. (2019) Microstructures, martensitic transformation and shape memory behaviors of aged Ti50.5Ni33.5Cu11.5Pd4.5 alloys. Journal of Alloys and Compounds 780, pages 800-804.
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Chih-Hsuan Chen, Hsin-Kai Wang & Shyi-Kaan Wu. (2018) A study on the crystallization behavior of amorphous Ti50Ni25Cu25 shape memory ribbon by X-ray diffraction measurement. Intermetallics 93, pages 347-354.
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Christoph Bechtold, Rodrigo Lima de Miranda & Eckhard Quandt. (2015) Capability of Sputtered Micro-patterned NiTi Thick Films. Shape Memory and Superelasticity 1:3, pages 286-293.
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Chih-Hsuan Chen, Shyi-Kaan Wu & Chun-Yu Lai. (2014) The characteristics of precipitation hardening and the shape memory effect in aged Ti 50.6 Ni 39.4 Cu 9.8 Si 0.2 shape memory ribbons. Materials Science and Engineering: A 613, pages 317-325.
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Akira Ishida, Morio Sato & Zhiyong Gao. (2014) Effects of Ti content on microstructure and shape memory behavior of TixNi(84.5−x)Cu15.5 (x=44.6–55.4) thin films. Acta Materialia 69, pages 292-300.
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M. Callisti, F.D. Tichelaar, B.G. Mellor & T. Polcar. (2013) Effects of Cu on the microstructural and mechanical properties of sputter deposited Ni-Ti thin films. Surface and Coatings Technology 237, pages 261-268.
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A. Ishida, M. Sato & Z.Y. Gao. (2013) Properties and applications of TiNiCu shape-memory-alloy thin films. Journal of Alloys and Compounds 577, pages S184-S189.
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A. Ishida. (2013) Progress in thin-film shape-memory-alloy actuators. Progress in thin-film shape-memory-alloy actuators.
Robert Zarnetta, Pio John S. Buenconsejo, Alan Savan, Sigurd Thienhaus & Alfred Ludwig. (2012) High-throughput study of martensitic transformations in the complete Ti–Ni–Cu system. Intermetallics 26, pages 98-109.
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A. Ishida & M. Sato. (2011) Shape memory behaviour of Ti51.5Ni(48.5−x)Cux (x=23.4–37.3) thin films with submicron grain sizes. Intermetallics 19:12, pages 1878-1886.
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A. Ishida & M. Sato. (2011) Microstructures of crystallized Ti51.5Ni48.5−xCux (x=23.4–37.3) thin films. Intermetallics 19:7, pages 900-907.
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Changqiang Chen, Yutao Pei & Jeff Th M De Hosson. (2010) A statistical physics consideration about the strength of small size metallic glass pillars. Journal of Physics: Conference Series 240, pages 012156.
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X.L. Meng, M. Sato & A. Ishida. (2009) Structure of martensite in sputter-deposited (Ni,Cu)-rich Ti–Ni–Cu thin films containing Ti(Ni,Cu)2 precipitates. Acta Materialia 57:5, pages 1525-1535.
Crossref
M. Tomozawa, H.Y. Kim & S. Miyazaki. (2009) Shape memory behavior and internal structure of Ti–Ni–Cu shape memory alloy thin films and their application for microactuators. Acta Materialia 57:2, pages 441-452.
Crossref
X.L. Meng, M. Sato & A. Ishida. (2008) Structure of martensite in Ti-rich Ti–Ni–Cu thin films annealed at different temperatures. Acta Materialia 56:14, pages 3394-3402.
Crossref
A. Ishida, M. Sato & K. Ogawa. (2008) Microstructure and shape memory behavior of annealed Ti–36.8at.% Ni–11.6at.% Cu thin film. Materials Science and Engineering: A 481-482, pages 91-94.
Crossref
Zhiwei Yang, Heng Li, QingFei Gu, YuLi Liu, Yanhong Zhang & Xin Liu. (2022) Divorced Eutectic Microstructural Nitinb Shape Memory Alloy with High Recovery Rate and Recovery Stress Prepared by Powder Bed Fusion. SSRN Electronic Journal.
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