Enhancement of fatigue life of Ni-Ti-Fe shape memory alloys by thermal cycling

Sushil K.Giri; Madangopal Krishnan; U.Ramamurty

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Enhancement of fatigue life of Ni-Ti-Fe shape memory alloys by thermal cycling

机译：热循环提高Ni-Ti-Fe形状记忆合金的疲劳寿命

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The effect of thermal cycling on the load-controlled tension-tension fatigue behavior of a Ni-Ti-Fe shape memory alloy (SMA) at room temperature was studied. Considerable strain accumulation was observed to occur in this alloy under both quasi-static and cyclic loading conditions. Though, in all cases, steady-state is reached within the first 50-100 cycles, the accumulated steady-state strain, ε_(p,ss,) is much smaller in thermally cycled alloy. As a result, the fatigue performance of them was found to be significantly enhanced vis-a-vis the as-solutionized alloy. Furthermore, under load-controlled conditions, the fatigue life of Ni-Ti-Fe alloys was found to be exclusively dependent on ε_(p,ss.) Observations made by profilometry and differential scanning calorimetry (DSC) indicate that the 200-500% enhancement in fatigue life of thermally cycled alloy is due to the homogeneous distribution of the accumulated fatigue strain.

机译：研究了热循环对室温下Ni-Ti-Fe形状记忆合金（SMA）的载荷控制的拉伸-拉伸疲劳行为的影响。在准静态和循环载荷条件下，该合金中都观察到相当大的应变积累。尽管在所有情况下，在前50-100个循环内都达到了稳态，但热循环合金中累积的稳态应变ε_（p，ss，）小得多。结果，发现它们相对于固溶合金显着提高了疲劳性能。此外，在负载控制的条件下，发现Ni-Ti-Fe合金的疲劳寿命完全取决于ε_（p，ss。）。轮廓光度法和差示扫描量热法（DSC）的观察表明，200-500％热循环合金疲劳寿命的提高归因于累积疲劳应变的均匀分布。

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来源
《Materials Science and Engineering》 |2010年第1期|p.363-370|共8页
作者
Sushil K.Giri; Madangopal Krishnan; U.Ramamurty;
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作者单位

Department of Materials Engineering, Indian Institute of Science, Sir CV Raman Avenue, Bangalore KA 560012, India,R&D Division, Tata Steel Co., Jamshedpur, India;

Materials Science Division, Bhabha Atomic Research Centre, Mumbai 400085, India;

Department of Materials Engineering, Indian Institute of Science, Sir CV Raman Avenue, Bangalore KA 560012, India;

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正文语种 eng
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shape memory alloy; fatigue; martensitic phase transformation; plastic deformation; thermal cycling;

机译：形状记忆合金疲劳;马氏体相变塑性变形;热循环;

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1. Role of microstructure on phase transformation behavior in Ni-Ti-Fe shape memory alloys during thermal cycling [J] . Basu Ritwik, Mohtadi-Bonab M. A., Wang Xu, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015,第Null期

机译：Ni-Ti-Fe形状记忆合金在热循环过程中微观结构对相变行为的作用
2. Microstructural Irreversibilities Under Thermal Cycling in Ni-Ti-Fe Shape Memory Alloys [J] . Ritwik Basu, Lokendra Jain, Bikas Maji, Materials science forum . 2012,第PTa2期

机译：Ni-Ti-Fe形状记忆合金在热循环下的微观结构无定形性
3. Low-Cycle Fatigue of TiNi Shape Memory Alloy and Formulation of Fatigue Life [J] . Hisaaki Tobushi, Takafumi Nakahara, Yoshirou Shimeno Journal of engineering materials and technology . 2000,第2期

机译：TiNi形状记忆合金的低周疲劳及疲劳寿命的制定
4. Microstructural Irreversibilities Under Thermal Cycling in Ni-Ti-Fe Shape Memory Alloys [C] . Ritwik Basu, Lokendra Jain, Bikas Maji, International conference on textures of materials;ICOTOM 16 . 2012

机译：Ni-Ti-Fe形状记忆合金在热循环下的微观结构无定形性
5. Embedded Shape Memory Alloy Particles for the Self-Sensing of Fatigue Crack Growth in an Aluminum Alloy. [D] . Leser, William Paul. 2014

机译：嵌入式形状记忆合金颗粒，用于铝合金中疲劳裂纹扩展的自感知。
6. Thermal Cycling Effect on Transformation Temperatures of Different Transformation Sequences in TiNi-Based Shape Memory Alloys [O] . Shyi-Kaan Wu, Yi-Ching Chang 2019

机译：热循环对TiNi基形状记忆合金中不同转变序列的转变温度的影响
7. Characteristics of thermal cycle, cyclic deformation and fatigue in shape memory alloys. [O] . Shuichi Miyazaki, Hidekazu Sakamoto 1985

机译：形状记忆合金热循环，循环变形和疲劳的特征。

Enhancement of fatigue life of Ni-Ti-Fe shape memory alloys by thermal cycling

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