Substructure and Nanocrystalline Structure Effects in Thermomechanically Treated Ti-Ni Alloys

机译：在热机械处理的Ti-Ni合金中的亚结构和纳米晶体结构作用

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Substructure and structure formation as well as functional properties of thermomechanically treated Ti-Ni wire have been studied using differential scanning calorimetry, X-ray diffraction, transmission electron microscopy and mechanical. The low- temperature themomechanical treatment (LTMT) was carried out by rolling at room temperature in a true strain range e = 0.3 to 1.9. It was shown that severe plastic deformation (e=1.9) of Ti-50.0at.%Ni alloy results in partial amorphization and formation of nanocrystalline austenite structure during post-deformation annealings up to 400 °C. As a result, the fully recoverable strain and recovery stress become much higher than the values reachable after traditional LTMT (e=0.3 to 0.88) with post-deformation annealing which creates a poligonized dislocation substructure.

机译：使用差示扫描量热法，X射线衍射，透射电子显微镜和机械研究了沉积的Ti-Ni线的亚结构和结构形成以及功能性。通过在真正应变范围E = 0.3至1.9的真实应变范围内滚动，通过在室温下轧制进行低温术术治疗（LTMT）。结果表明，Ti-50.0AT的严重塑性变形（E = 1.9）。％Ni合金导致在变形后退火期间的纳米晶体结构的部分杂化和形成高达400℃。结果，完全可恢复的应变和恢复应力远高于传统LTMT（E = 0.3至0.88）的值，其具有后变形退火，其产生了政策偏离的位错子结构。

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《International Conference on Nanomaterials by Severe Plastic Deformation(NanoSPD3)》|2006年||共6页
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K.E. Inaekyan; S.D. Prokoshkin; V. Brailovski; I.Yu. Khmelevskaya; V. Demers; S.V. Dobatkin; E.V. Tatyanin; E. Bastarache;
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中图分类塑料;
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shape memory alloys; thermomechanical treatment; dislocation substructure; nanocrystalline structure; functional properties;

机译：形状记忆合金;热机械处理;位错子结构;纳米晶体结构;功能性质;

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1. Peculiarities of Implementation of Abnormally High Shape Memory Effects in Thermomechanically Treated Ti-Ni Alloys [J] . E. P. Ryklina, S. D. Prokoshkin, A. A. Chernavina Inorganic materials: applied research . 2013,第4期

机译：在热机械处理过的Ti-Ni合金中实现异常高的形状记忆效应的特点
2. Interrelations between the properties and structure of thermomechanically-treated equiatomic Ti-Ni alloy [J] . V. Brailovski, S.D. Prokoshkin, I. Yu. Khmelevskaya, Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2006,第Nov期

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3. Comparative study of structure and strain diagram changes in Ti-Ni alloys thermomechanically treated in martensitic or austenitic states [J] . S. D. Prokoshkin, I. Yu. Khmelevskaya, V. Brailovski, Journal de Physique, IV: Proceedings of International Conference . 2003,第0期

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4. Substructure and Nanocrystalline Structure Effects in Thermomechanically Treated Ti-Ni Alloys [C] . K.E. Inaekyan, S.D. Prokoshkin, V. Brailovski, International Conference on Nanomaterials by Severe Plastic Deformation(NanoSPD3) . 2006

机译：在热机械处理的Ti-Ni合金中的亚结构和纳米晶体结构作用
5. Improvement of the functional properties of nanostructured Ti-Ni shape memory alloys by means of thermomechanical processing. [D] . Kreitcberg, Alena. 2014

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Substructure and Nanocrystalline Structure Effects in Thermomechanically Treated Ti-Ni Alloys

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