Datum
2019-11-19Autor
Chumlyakov, Yuriy I.Kireeva, Irina V.Kuksgauzen, IrinaPoklonov, VyacheslavPobedennaya, ZinaidaBessonova, IrinaKuksgauzen, DmitriyKirillov, VladimirLauhoff, ChristianNiendorf, ThomasKrooß, PhilippSchlagwort
620 Ingenieurwissenschaften 660 Chemische Verfahrenstechnik, Technische Chemie Memory-EffektPseudoelastizitätNanopartikelMetadata
Zur Langanzeige
Aufsatz
Shape memory effect and superelasticity in high-strength FeNiCoAlTi single crystals hardened by nanoparticles
Zusammenfassung
For [001]-oriented single crystals of Fe-28Ni-17Co-11.5Al-2.5Ti (at %) alloy in tension, it was shown that particles of the γ’-phase with a size of 4–6 nm lead to the appearance of superelasticity, with a strain of εSE=4.5% and a shape memory effect of εSME=5.9%. Increasing the particle size to 10–12 nm reduces εSE to 3.6% and εSME to 3.5%. The paper discusses the causes of the influence of particle size on the reversible strain.
Zitierform
In: AIP Conference Proceedings Volume 2167 / Issue 1 (2019-11-19) , S. 020064-1 - 020064-4 ; eissn:1551-7616Zitieren
@article{doi:10.17170/kobra-202305097982,
author={Chumlyakov, Yuriy I. and Kireeva, Irina V. and Kuksgauzen, Irina and Poklonov, Vyacheslav and Pobedennaya, Zinaida and Bessonova, Irina and Kuksgauzen, Dmitriy and Kirillov, Vladimir and Lauhoff, Christian and Niendorf, Thomas and Krooß, Philipp},
title={Shape memory effect and superelasticity in high-strength FeNiCoAlTi single crystals hardened by nanoparticles},
journal={AIP Conference Proceedings},
year={2019}
}
0500 Oax 0501 Text $btxt$2rdacontent 0502 Computermedien $bc$2rdacarrier 1100 2019$n2019 1500 1/eng 2050 ##0##http://hdl.handle.net/123456789/14721 3000 Chumlyakov, Yuriy I. 3010 Kireeva, Irina V. 3010 Kuksgauzen, Irina 3010 Poklonov, Vyacheslav 3010 Pobedennaya, Zinaida 3010 Bessonova, Irina 3010 Kuksgauzen, Dmitriy 3010 Kirillov, Vladimir 3010 Lauhoff, Christian 3010 Niendorf, Thomas 3010 Krooß, Philipp 4000 Shape memory effect and superelasticity in high-strength FeNiCoAlTi single crystals hardened by nanoparticles / Chumlyakov, Yuriy I. 4030 4060 Online-Ressource 4085 ##0##=u http://nbn-resolving.de/http://hdl.handle.net/123456789/14721=x R 4204 \$dAufsatz 4170 5550 {{Memory-Effekt}} 5550 {{Pseudoelastizität}} 5550 {{Nanopartikel}} 7136 ##0##http://hdl.handle.net/123456789/14721
2023-05-19T05:58:16Z 2023-05-19T05:58:16Z 2019-11-19 doi:10.17170/kobra-202305097982 http://hdl.handle.net/123456789/14721 eng Urheberrechtlich geschützt https://rightsstatements.org/page/InC/1.0/ shape memory effect superelasticity nanoparticle 620 660 Shape memory effect and superelasticity in high-strength FeNiCoAlTi single crystals hardened by nanoparticles Aufsatz For [001]-oriented single crystals of Fe-28Ni-17Co-11.5Al-2.5Ti (at %) alloy in tension, it was shown that particles of the γ’-phase with a size of 4–6 nm lead to the appearance of superelasticity, with a strain of εSE=4.5% and a shape memory effect of εSME=5.9%. Increasing the particle size to 10–12 nm reduces εSE to 3.6% and εSME to 3.5%. The paper discusses the causes of the influence of particle size on the reversible strain. open access Chumlyakov, Yuriy I. Kireeva, Irina V. Kuksgauzen, Irina Poklonov, Vyacheslav Pobedennaya, Zinaida Bessonova, Irina Kuksgauzen, Dmitriy Kirillov, Vladimir Lauhoff, Christian Niendorf, Thomas Krooß, Philipp doi:10.1063/1.5131931 Project No. 19-49-04101; Project No. 405372848 (KR 5134/1-1) Memory-Effekt Pseudoelastizität Nanopartikel publishedVersion eissn:1551-7616 Issue 1 AIP Conference Proceedings 020064-1 - 020064-4 Volume 2167 false
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