The Effect of Solution Treatment Temperature and Quenching Media Variation in Heat Treatment Process Cu-Zn-Al Shape Memory Alloys on Shape Memory Effect and Microstructures

Journal of Mechanical Engineering Science and Technology Pub Date : 2020-07-30 DOI:10.17977/um016v4i12020p061

W. Jatimurti, M. Gayatri, M. Ramadhani

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引用次数: 1

Abstract

Shape memory alloys (SMAs) are metal alloys with a reversible ability to recover their shape at a certain temperature after being deformed. This ability referred to as Shape Memory Effect (SME). The application of SMAs such as Ni-Ti and Cu-Zn-Al alloys usually used on automotive, biomedical, etc. The commonly used SMA is Ni-Ti because of its superior SME properties than Cu-Zn-Al, even though the price is quite higher. The SME of Cu-Zn-Al might be improved by increasing the presence of the martensite phase in its microstructure by heat treatment. The heat treatment process given to Cu-21Zn-5Al alloy is a homogenizing, annealing, solution treatment process and quenched with brine solution and dry ice. The heat-treated alloys then undergo several examination trough hardness tests, X-Ray Diffraction, metallography, SME test, and Differential Scanning Calorimetry to determine the SME and microstructure of Cu-21Zn-5Al. From the test results, the specimen with temperature treatment solution of 850oC and quenched by brine solution had the highest SME value by 36.67%. All of the microstructure contained α, β, (martensite) and γ phases.

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热处理过程中固溶处理温度和淬火介质变化对Cu-Zn-Al形状记忆合金形状记忆效应和组织的影响

形状记忆合金(sma)是一种变形后在一定温度下具有可逆恢复形状能力的金属合金。这种能力被称为形状记忆效应。Ni-Ti、Cu-Zn-Al合金等sma材料在汽车、生物医药等领域的应用。常用的SMA是Ni-Ti，因为它的SME性能优于Cu-Zn-Al，尽管价格相当高。通过热处理增加Cu-Zn-Al显微组织中马氏体相的存在，可以改善Cu-Zn-Al的SME。Cu-21Zn-5Al合金的热处理工艺为均匀化、退火、固溶处理、盐水和干冰淬火。然后对热处理合金进行硬度测试、x射线衍射、金相、SME测试和差示扫描量热法等检测，以确定Cu-21Zn-5Al的SME和显微组织。从试验结果来看，温度处理溶液为850oC并经盐水淬火的试样的SME值最高，达到36.67%。显微组织均含有α、β、(马氏体)和γ相。

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来源期刊

Journal of Mechanical Engineering Science and Technology

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审稿时长

24 weeks