Grain boundary engineering of Co-Ni-Al, Cu-Zn-Al, and Cu-Al-Ni shape memory alloys by intergranular precipitation of a ductile solid solution phase

Dar Rebecca D.; Yan Haoxue; Chen Ying

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Grain boundary engineering of Co-Ni-Al, Cu-Zn-Al, and Cu-Al-Ni shape memory alloys by intergranular precipitation of a ductile solid solution phase

机译：Co-Ni-Al，Cu-Zn-Al和Cu-Al-Ni形状记忆合金通过延性固溶相的晶间沉淀进行晶界工程

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Many polycrystalline shape memory alloys, e.g., Co-Ni-Al, Cu-Zn-Al, and Cu-Al-Ni, undergo intergranular fracture. To improve their transformation ductility, we perform Grain Boundary Engineering and stimulate the precipitation of a ductile second phase, which is a face-centered-cubic solid solution, along grain boundaries, by tailoring composition and thermal processing. Orientation imaging confirms precipitation along grain boundaries and unimpeded martensite growth toward grain boundary precipitates. Differential Scanning Calorimetry confirms reversible martensitic transformations in these dual-phase samples. These precipitates can accommodate transformation strain, relieve constraint in adjacent austenite grains, and arrest cracks by extensive plastic deformation, thereby improving transformation ductility and shape memory effects. (C) 2016 Elsevier Ltd. All rights reserved.

机译：许多多晶形状记忆合金，例如Co-Ni-Al，Cu-Zn-Al和Cu-Al-Ni，经历晶间断裂。为了提高其转变延展性，我们进行了晶粒边界工程，并通过调整成分和热处理，沿着晶粒边界刺激了延展性第二相的沉淀，该第二相是面心立方固溶体。取向成像证实了沿晶界的析出和马氏体向晶界析出物的无阻碍生长。差示扫描量热法证实了这些双相样品中可逆的马氏体转变。这些沉淀物可以适应相变应变，减轻相邻奥氏体晶粒的约束，并通过广泛的塑性变形阻止裂纹，从而提高相变延展性和形状记忆效果。（C）2016 Elsevier Ltd.保留所有权利。

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《Scripta materialia》 |2016年第null期|共5页
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Dar Rebecca D.; Yan Haoxue; Chen Ying;
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Shape Memory Alloys (SMA); Grain Boundary Engineering; Precipitation; Ductility; Martensitic phase transformation;

机译：形状记忆合金;晶界工程;沉淀;延展性;马氏体相变;

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1. Grain boundary engineering of Co-Ni-Al, Cu-Zn-Al, and Cu-Al-Ni shape memory alloys by intergranular precipitation of a ductile solid solution phase [J] . Dar Rebecca D., Yan Haoxue, Chen Ying Scripta materialia . 2016,第Null期

机译：Co-Ni-Al，Cu-Zn-Al和Cu-Al-Ni形状记忆合金通过延性固溶相的晶间沉淀进行晶界工程
2. PRECIPITATION OF THE STABLE PHASES IN Cu-Al-Ni SHAPE MEMORY ALLOYS [J] . V. Recarte, I. Hurtado, J. Herreros, Scripta materialia . 1996,第2期

机译：Cu-Al-Ni形状记忆合金中稳定相的析出
3. Precipitation sequence during ageing in β1 phase of Cu-Al-Ni shape memory alloy (Conference Paper) [J] . Bouabdallah M., Baguenane-Benalia G., Saadi A., Journal of thermal analysis and calorimetry . 2013,第1期

机译：Cu-Al-Ni形状记忆合金的β1相时效时的析出顺序（会议论文）
4. Metallurgical and Shape Memory Characteristics of Grain-Refined Cu-Zn-Al Shape Memory Alloys [C] . V.Sampath, A.Murugaiyan, M.S.Sivakumar Smart Materials, Structures, and Systems . 2003

机译：晶粒细化的Cu-Zn-Al形状记忆合金的冶金和形状记忆特性
5. Intergranular corrosion in AA5XXX aluminum alloys with discontinuous precipitation at the grain boundaries [D] . Bumiller, Elissa 2011

机译：AA5XXX铝合金的晶间腐蚀并在晶界处出现不连续沉淀
6. Evaluation of Grain Boundary Network and Improvement of Intergranular Cracking Resistance in 316L Stainless Steel after Grain Boundary Engineering [O] . Tingguang Liu, Shuang Xia, Qin Bai, 2019

机译：316L不锈钢晶界工程后晶界网络的评价及抗晶间开裂性的提高。
7. Pengaruh Holding Time Proses Solution Treatment dan Variasi Media Pendingin pada Cu-Zn-Al Shape Memory Alloys terhadap Efek Shape Memory dan Struktur Mikro [O] . Mavindra Ramadhani, Rochman Rochiem, Luckyta Rizkivany 2020

机译：保持时间溶液处理过程和冷却介质变化对Cu-Zn-Al形状记忆合金对形状记忆效应和微结构的影响
8. Effect of Prior Parent Phase Cold Work on Martensite Transformation in Cu-Zn-Al Shape Memory Alloys. [R] . Moore, G. E. 1984

机译：先前母相冷加工对Cu-Zn-al形状记忆合金马氏体相变的影响。

Grain boundary engineering of Co-Ni-Al, Cu-Zn-Al, and Cu-Al-Ni shape memory alloys by intergranular precipitation of a ductile solid solution phase

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