K.Y. Muluykov scite author profile

K.Y. Muluykov

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Dilatation stability of Ti-49.8at.%Ni alloy during thermal cycling after rolling at different temperatures

Muluykov¹,

Babicheva²

2012

LoM

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В работе изучен вопрос стабильности дилатации спла-ва Ti-49,8ат.%Ni при мартенситном превращении в про-цессе термоциклирования предварительно прокатанных при различных температурах (470,570,670,770,870 K) образцов. Обнаружена стабильность величины дилата-ции в сплаве с фрагментированной структурой, полу-ченной прокаткой при невысоких температурах (470,570 K). В случае высокотемпературной прокатки (670,770,870 K), когда идет релаксация структуры за счет рекристал-лизации, скачок дилатации с циклированием растет, стабилизируясь лишь к 25 циклу. Такая нестабильность величины дилатации объясняется фазовым упрочнени-ем материала с крупнозернистой структурой и увеличе-нием уровня текстурированных полей внутренних на-пряжений, что, свою очередь, приводит к наследованию кристаллографической текстуры сплава.Ключевые слова: TiNi, дилатация, мартенситное превраще-ние, термоциклирование, удельное электросопротивление.Stability of the martensite transformation dilatation during thermal cycling of Ti-49.8at.%Ni samples rolled at different temperatures was investigated. It was revealed that the dilatation jump was stable in the fragmented structure alloy subjected to rolling at low temperatures (470,570 K). In the case of high temperature rolling (670,770,870 K), when structure relaxation takes place as a result of recrystallization, the dilatation jump grows and saturates after about 25 thermal cycles. Such unstable dilatation is due to phase hardening of the relatively coarse grain material and increasing intensity of textured internal stress field. The latter is the reason of crystallographic texture inheritance.

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K.Y. Muluykov

Dilatation stability of Ti-49.8at.%Ni alloy during thermal cycling after rolling at different temperatures

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