Effect of thermal cycling in the range of phase transformation B2-B19’ on the microstructure and mechanical properties of UFG alloy Ti49.8Ni50.2

А.А. Чуракова; Д.В. Гундеров; А.В. Лукьянов; Ю.А. Лебедев

doi:10.22226/2410-3535-2013-2-166-168

Effect of thermal cycling in the range of phase transformation B2-B19’ on the microstructure and mechanical properties of UFG alloy Ti49.8Ni50.2

А.А. Чуракова, Д.В. Гундеров, А.В. Лукьянов, Ю.А. Лебедев show affiliations and emails

Accepted 24 April 2013
This paper is written in Russian

Citation: А.А. Чуракова, Д.В. Гундеров, А.В. Лукьянов, Ю.А. Лебедев. Effect of thermal cycling in the range of phase transformation B2-B19’ on the microstructure and mechanical properties of UFG alloy Ti49.8Ni50.2. Lett. Mater., 2013, 3(2) 166-168

BibTex https://doi.org/10.22226/2410-3535-2013-2-166-168

Abstract

The thermocycling of samples of nickel-titanium in the initial coarse-grained (CG) state and in the ultrafine (UFG) state, obtained by equal channel angular pressing, through intervals of martensitic transformations was conducted. The effect of a more intense relative increase of microhardness and strength UFG TiNi after thermocycling treatment was found out, and showed an increased dislocation density in UFG TiNi after TCT.

References (6)

1. Журавлев В.Н., Пушин В.Г. Сплавы с термомеха-нической памятью и их применение в медицине.Екатеринбург: УрО РАН, 2000, 151 С.

2. Столяров В.В., Прокофьев Е.А., Прокошкин С.Д., Добаткин С.В., Трубицына И.Б., Хмелевская И.Ю., Пушин В.Г., Валиев Р.З. Структурные особенности, механические свойства и эффект памяти формы всплавах TiNi, полученных равноканальным угловымпрессованием. ФММ, 2005, Т.100, № 6, С. 91-102.

3. Гундеров Д.В., Куранова Н.Н., Лукьянов А.В., Уксусников А.Н., Прокофьев Е.А., Юрченко Л.И., Валиев Р.З., Пушин В.Г. Применение интенсивнойпластической деформации кручением для формиро-вания аморфного и нанокристаллического состоя-ния в большеразмерных образцах сплава TiNi. ФММ, 2009, Т.108, С. 139-146.

4. Babicheva R.I. Sharipov I.Z., Mulyukov Kh.Ja. Influence ofThermal Cycling on Dilatation and Electrical Resistanceof Ti - 49.8 at. %Ni Alloy After Hot Rolling. NanoSPDMaterials Science Forum Vols., 2011, V. 667 - 669, P. 985-990.

5. Kockar B., Karaman I., Kim J.I., Chumlyakov Y.I., SharpJ., Yu C.-J. (Mike) Thermomechanical cyclic responseof an ultrafine-grained NiTi shape memory alloy. ActaMaterialia, 2008, A.56, P. 3630 - 3646.

6. Бабичева Р.И., Мулюков Х.Я. Влияние термоциклиро-вания на фазовые превращения в сплаве Ti-49, 8%Ni, деформированном при 200 и 600oС. Письма о мате-риалах, 2011, Т. 1, С. 156-161.

Cited by (3)

1.

A. Churakova, D. Gunderov, A. Lukyanov, N. Nollmann. Acta Metall. Sin. (Engl. Lett.). 28(10), 1230 (2015). Crossref

2.

A. Churakova, A. Yudahina, E. Kayumova, N. Tolstov. MATEC Web Conf. 298, 00019 (2019). Crossref

3.

O. Kashin, K. Krukovskii, A. Lotkov, V. Grishkov. Metals. 10(10), 1313 (2020). Crossref

Similar papers

Kinetics and the fracture mechanism in low-cycle fatigue range and static crack resistance of the Mg6Al magnesium alloy after annealing and equal channel angular pressing

G.V. Klevtsov, R.Z. Valiev, N.A. Klevtsova, O.B. Kulyasova, E.D. Merson, M.L. Linderov, A.V. Ganeev

The increase of impact strength of ultrafine grained nickel after ultrasonic treatment

A.A. Samigullina, R.R. Mulyukov, A.A. Nazarov, A.A. Mukhametgalina, Y.V. Tsarenko, V.V. Rubanik

Effect of Chemical Composition and Grain Size on RT Superplasticity of Zn-Al alloys processed by ECAP

M. Demirtas, G. Purcek, H. Yanar, Z. J. Zhang, Z. F. Zhang

Effect of thermal cycling in the range of phase transformation B2-B19’ on the microstructure and mechanical properties of UFG alloy Ti49.8Ni50.2

Abstract

References (6)

Cited by (3)

Similar papers

Kinetics and the fracture mechanism in low-cycle fatigue range and static crack resistance of the Mg6Al magnesium alloy after annealing and equal channel angular pressing

The increase of impact strength of ultrafine grained nickel after ultrasonic treatment

Effect of Chemical Composition and Grain Size on RT Superplasticity of Zn-Al alloys processed by ECAP

General information

Information for readers

Information for authors

Information for reviewers