Thermomechanical properties of TiNi-alloy after high strain rate compression
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Григорьева Виктория Игорьевна. Термомеханические свойства сплава TiNi после высокоскоростного сжатия. Научный руководитель: д. т. н., профессор Разов Александр Игоревич. Направление математика и механика, кафедра теории упругости. В работе исследовали термомеханические свойства сплава TiNi при высокоскоростном сжатии со скоростью около 103с-1 при температурах 20-300oC. Эффекты памяти формы исследовали при термоциклировании через интервал обратимого мартенситного превращения. Приведены зависимости фазового и дислокационного пределов текучести, однократной и обратимой памяти формы от температуры испытания. Количество использованных источников – 18. Библиогр. описание: Григорьева В. И. Термомеханические свойства сплава TiNi после высокоскоростного сжатия: магистерская дис.: защищена 08.06.2017 / Григорьева Виктория Игорьевна. – СПб, 2017. – 30 с. – Библиогр.: с. 28-30.
Grigorieva Victoria Igorevna. Thermomechanical properties of TiNi alloy after high strain rate compression. Scientific adviser: Doctor of Technical Science, Professor Razov Alexander Igorevich. Direction of mathematics and mechanics, Chair of the theory of elasticity. The thermomechanical properties of the TiNi alloy were studied in high strain rate compression at a speed of about 103 s-1 at temperatures of 20-300 ° C. The shape memory effects were investigated during thermal cycling through an interval of reversible martensitic transformation. Dependences of the phase and dislocation limits of fluidity, single and reversible shape memory on the test temperature are presented. Number of sources used - 18. Bibliogr. Description: Grigorieva VI Thermomechanical properties of TiNi alloy after high strain rate compression: Master's degree: protected 08.06.2017 / Grigoryeva Viktoria. - St. Petersburg, 2017. - 30 p. - Bibliography: p. 28-30.
Grigorieva Victoria Igorevna. Thermomechanical properties of TiNi alloy after high strain rate compression. Scientific adviser: Doctor of Technical Science, Professor Razov Alexander Igorevich. Direction of mathematics and mechanics, Chair of the theory of elasticity. The thermomechanical properties of the TiNi alloy were studied in high strain rate compression at a speed of about 103 s-1 at temperatures of 20-300 ° C. The shape memory effects were investigated during thermal cycling through an interval of reversible martensitic transformation. Dependences of the phase and dislocation limits of fluidity, single and reversible shape memory on the test temperature are presented. Number of sources used - 18. Bibliogr. Description: Grigorieva VI Thermomechanical properties of TiNi alloy after high strain rate compression: Master's degree: protected 08.06.2017 / Grigoryeva Viktoria. - St. Petersburg, 2017. - 30 p. - Bibliography: p. 28-30.