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Nickel titanium (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Nickel titanium" in English language version.

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23doi.org
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10semanticscholar.org
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8harvard.edu
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8web.archive.org
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7nih.gov
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5worldcat.org
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4nitinol.com
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4books.google.com
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3youtube.com
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2loc.gov
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1nasa.gov
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1refractorymetal.org
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angle.org

archive.today

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boeing.com

books.google.com

chemistryworld.com

  • Withers, Neil. "Nitinol". Chemistry World. Royal Society of Chemistry. Retrieved 29 January 2018.

cyclingweekly.com

doi.org

  • Buehler, W. J.; Gilfrich, J. W.; Wiley, R. C. (1963). "Effects of Low-Temperature Phase Changes on the Mechanical Properties of Alloys Near Composition TiNi". Journal of Applied Physics. 34 (5): 1475–1477. Bibcode:1963JAP....34.1475B. doi:10.1063/1.1729603.
  • Wang, F. E.; Buehler, W. J.; Pickart, S. J. (1965). "Crystal Structure and a Unique Martensitic Transition of TiNi". Journal of Applied Physics. 36 (10): 3232–3239. Bibcode:1965JAP....36.3232W. doi:10.1063/1.1702955.
  • Kauffman, G. B.; Mayo, I. (1997). "The Story of Nitinol: The Serendipitous Discovery of the Memory Metal and Its Applications". The Chemical Educator. 2 (2): 1–21. doi:10.1007/s00897970111a. S2CID 98306580.
  • Ölander, A. (1932). "An Electrochemical Investigation of Solid Cadmium-Gold Alloys". Journal of the American Chemical Society. 54 (10): 3819–3833. doi:10.1021/ja01349a004.
  • Otsuka, K.; Ren, X. (2005). "Physical Metallurgy of Ti-Ni-based Shape Memory Alloys". Progress in Materials Science. 50 (5): 511–678. CiteSeerX 10.1.1.455.1300. doi:10.1016/j.pmatsci.2004.10.001.
  • Chluba, Christoph; Ge, Wenwei; Miranda, Rodrigo Lima de; Strobel, Julian; Kienle, Lorenz; Quandt, Eckhard; Wuttig, Manfred (2015-05-29). "Ultralow-fatigue shape memory alloy films". Science. 348 (6238): 1004–1007. Bibcode:2015Sci...348.1004C. doi:10.1126/science.1261164. ISSN 0036-8075. PMID 26023135. S2CID 2563331.
  • Spini, Tatiana Sobottka; Valarelli, Fabrício Pinelli; Cançado, Rodrigo Hermont; Freitas, Karina Maria Salvatore de; Villarinho, Denis Jardim; Spini, Tatiana Sobottka; Valarelli, Fabrício Pinelli; Cançado, Rodrigo Hermont; Freitas, Karina Maria Salvatore de (2014-04-01). "Transition temperature range of thermally activated nickel-titanium archwires". Journal of Applied Oral Science. 22 (2): 109–117. doi:10.1590/1678-775720130133. ISSN 1678-7757. PMC 3956402. PMID 24676581.
  • Urbano, Marco; Coda, Alberto; Beretta, Stefano; Cadelli, Andrea; Sczerzenie, Frank (2013-09-01). The Effect of Inclusions on Fatigue Properties for Nitinol. pp. 18–34. doi:10.1520/STP155920120189. ISBN 978-0-8031-7545-7. {{cite book}}: |journal= ignored (help)
  • Robertson, Scott W.; Launey, Maximilien; Shelley, Oren; Ong, Ich; Vien, Lot; Senthilnathan, Karthike; Saffari, Payman; Schlegel, Scott; Pelton, Alan R. (2015-11-01). "A statistical approach to understand the role of inclusions on the fatigue resistance of superelastic Nitinol wire and tubing". Journal of the Mechanical Behavior of Biomedical Materials. 51: 119–131. doi:10.1016/j.jmbbm.2015.07.003. ISSN 1878-0180. PMID 26241890.
  • Pelton, A.; Russell, S.; DiCello, J. (2003). "The Physical Metallurgy of Nitinol for Medical Applications". JOM. 55 (5): 33–37. Bibcode:2003JOM....55e..33P. doi:10.1007/s11837-003-0243-3. S2CID 135621269.
  • Morgan, N.; Wick, A.; DiCello, J.; Graham, R. (2006). "Carbon and Oxygen Levels in Nitinol Alloys and the Implications for Medical Device Manufacture and Durability" (PDF). SMST-2006 Proceedings of the International Conference on Shape Memory and Superelastic Technologies. ASM International. pp. 821–828. doi:10.1361/cp2006smst821 (inactive 1 November 2024). ISBN 978-0-87170-862-5. LCCN 2009499204. Archived from the original (PDF) on 14 July 2011. Retrieved 26 August 2010.{{cite book}}: CS1 maint: DOI inactive as of November 2024 (link)
  • Fumagalli, L.; Butera, F.; Coda, A. (2009). "Academic paper (PDF): Smartflex NiTi Wires for Shape Memory Actuators". Journal of Materials Engineering and Performance. 18 (5–6): 691–695. doi:10.1007/s11665-009-9407-9. S2CID 137357771. Retrieved 2017-04-05.
  • Rahim, M.; Frenzel, J.; Frotscher, M.; Pfetzing-Micklich, J.; Steegmüller, R.; Wohlschlögel, M.; Mughrabi, H.; Eggeler, G. (2013-06-01). "Impurity levels and fatigue lives of pseudoelastic NiTi shape memory alloys". Acta Materialia. 61 (10): 3667–3686. Bibcode:2013AcMat..61.3667R. doi:10.1016/j.actamat.2013.02.054.
  • Tadesse Y, Thayer N, Priya S (2010). "Tailoring the response time of shape memory alloy wires through active cooling and pre-stress". Journal of Intelligent Material Systems and Structures. 21 (1): 19–40. doi:10.1177/1045389x09352814. S2CID 31183365.
  • Romano R, Tannuri EA (2009). "Modeling, control and experimental validation of a novel actuator based on shape memory alloys". Mechatronics. 19 (7): 1169–1177. doi:10.1016/j.mechatronics.2009.03.007. S2CID 109783521.
  • An L, Huang WM, Fu YQ, Guo NQ (2008). "A note on size effect in actuating NiTi shape memory alloys by electrical current". Materials & Design. 29 (7): 1432–1437. doi:10.1016/j.matdes.2007.09.001.
  • Winzek B; Schmitz S; Rumpf H; Sterzl T; Ralf Hassdorf; Thienhaus S (2004). "Recent developments in shape memory thin film technology". Materials Science and Engineering: A. 378 (1–2): 40–46. doi:10.1016/j.msea.2003.09.105.
  • Daly, M.; Pequegnat, A.; Zhou, Y.; Khan, M. I. (2012), "Enhanced thermomechanical functionality of a laser processed hybrid NiTi–NiTiCu shape memory alloy", Smart Materials and Structures, 21 (4): 045018, Bibcode:2012SMaS...21d5018D, doi:10.1088/0964-1726/21/4/045018, S2CID 55660651
  • Daly, M.; Pequegnat, A.; Zhou, Y. N.; Khan, M. I. (2012), "Fabrication of a novel laser-processed NiTi shape memory microgripper with enhanced thermomechanical functionality", Journal of Intelligent Material Systems and Structures, 24 (8): 984–990, doi:10.1177/1045389X12444492, S2CID 55054532
  • Pequegnat, A.; Daly, M.; Wang, J.; Zhou, Y.; Khan, M. I. (2012), "Dynamic actuation of a novel laser-processed NiTi linear actuator", Smart Materials and Structures, 21 (9): 094004, Bibcode:2012SMaS...21i4004P, doi:10.1088/0964-1726/21/9/094004, S2CID 54204995
  • Turok, David K.; Nelson, Anita L.; Dart, Clint; Schreiber, Courtney A.; Peters, Kevin; Schreifels, Mary Jo; Katz, Bob (April 2020). "Efficacy, Safety, and Tolerability of a New Low-Dose Copper and Nitinol Intrauterine Device". Obstetrics and Gynecology. 135 (4): 840–847. doi:10.1097/AOG.0000000000003756. ISSN 0029-7844. PMC 7098438. PMID 32168217.
  • Banks, R. (1975). "The Banks Engine". Die Naturwissenschaften. 62 (7): 305–308. Bibcode:1975NW.....62..305B. doi:10.1007/BF00608890. S2CID 28849141.
  • Brook, G.B. (1983). "Applications of titanium-nickel shape memory alloys". Materials & Design. 4 (4): 835–840. doi:10.1016/0261-3069(83)90185-1.

espacenet.com

worldwide.espacenet.com

  • US patent 6875949, Hall, P. C., "Method of Welding Titanium and Titanium Based Alloys to Ferrous Metals" 

ghostarchive.org

harvard.edu

ui.adsabs.harvard.edu

  • Buehler, W. J.; Gilfrich, J. W.; Wiley, R. C. (1963). "Effects of Low-Temperature Phase Changes on the Mechanical Properties of Alloys Near Composition TiNi". Journal of Applied Physics. 34 (5): 1475–1477. Bibcode:1963JAP....34.1475B. doi:10.1063/1.1729603.
  • Wang, F. E.; Buehler, W. J.; Pickart, S. J. (1965). "Crystal Structure and a Unique Martensitic Transition of TiNi". Journal of Applied Physics. 36 (10): 3232–3239. Bibcode:1965JAP....36.3232W. doi:10.1063/1.1702955.
  • Chluba, Christoph; Ge, Wenwei; Miranda, Rodrigo Lima de; Strobel, Julian; Kienle, Lorenz; Quandt, Eckhard; Wuttig, Manfred (2015-05-29). "Ultralow-fatigue shape memory alloy films". Science. 348 (6238): 1004–1007. Bibcode:2015Sci...348.1004C. doi:10.1126/science.1261164. ISSN 0036-8075. PMID 26023135. S2CID 2563331.
  • Pelton, A.; Russell, S.; DiCello, J. (2003). "The Physical Metallurgy of Nitinol for Medical Applications". JOM. 55 (5): 33–37. Bibcode:2003JOM....55e..33P. doi:10.1007/s11837-003-0243-3. S2CID 135621269.
  • Rahim, M.; Frenzel, J.; Frotscher, M.; Pfetzing-Micklich, J.; Steegmüller, R.; Wohlschlögel, M.; Mughrabi, H.; Eggeler, G. (2013-06-01). "Impurity levels and fatigue lives of pseudoelastic NiTi shape memory alloys". Acta Materialia. 61 (10): 3667–3686. Bibcode:2013AcMat..61.3667R. doi:10.1016/j.actamat.2013.02.054.
  • Daly, M.; Pequegnat, A.; Zhou, Y.; Khan, M. I. (2012), "Enhanced thermomechanical functionality of a laser processed hybrid NiTi–NiTiCu shape memory alloy", Smart Materials and Structures, 21 (4): 045018, Bibcode:2012SMaS...21d5018D, doi:10.1088/0964-1726/21/4/045018, S2CID 55660651
  • Pequegnat, A.; Daly, M.; Wang, J.; Zhou, Y.; Khan, M. I. (2012), "Dynamic actuation of a novel laser-processed NiTi linear actuator", Smart Materials and Structures, 21 (9): 094004, Bibcode:2012SMaS...21i4004P, doi:10.1088/0964-1726/21/9/094004, S2CID 54204995
  • Banks, R. (1975). "The Banks Engine". Die Naturwissenschaften. 62 (7): 305–308. Bibcode:1975NW.....62..305B. doi:10.1007/BF00608890. S2CID 28849141.

imagesco.com

loc.gov

lccn.loc.gov

memry.com

nasa.gov

spinoff.nasa.gov

nih.gov

pubmed.ncbi.nlm.nih.gov

ncbi.nlm.nih.gov

nitinol.com

nitisurgical.com

patents.google.com

psu.edu

citeseerx.ist.psu.edu

refractorymetal.org

researchgate.net

saesgetters.com

sagepub.com

jim.sagepub.com

samaterials.com

semanticscholar.org

api.semanticscholar.org

time.com

unipv.it

www-2.unipv.it

usbiodesign.com

vimeo.com

web.archive.org

wipo.int

worldcat.org

search.worldcat.org

youtube.com