钛对Cu-14Al-4Ni形状记忆合金快速凝固马氏体相变温度的影响

Nicole Araujo, Marília Bortolotto, M. Silva, M. Nava, P. C. Lima, E. Lima
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摘要

本研究旨在分析不同钛含量(x = 0.5、0.6和0.7 wt.%)对Cu-14Al-4Ni (wt.%) SMA(形状记忆合金)马氏体相变温度的影响。将Cu-14Al-4Ni-xTi样品在电弧熔炼炉中浇注并快速凝固。所有样品在1100°C的管状炉中热处理30分钟,水在25°C淬火。随后,对样品进行SEM(扫描电子显微镜)、EDS(能量色散光谱)、XRD (x射线衍射)和DSC(差示扫描量热仪)分析。SEM图像和XRD图谱显示,钛的存在改变了合金的显微组织,诱导形成了三种富钛相“X”相(CuNi2Ti、Cu3Ti和AlCu2Ti),并减少了0.6和0.7 wt.% Ti样品的脆性相γ2 (Cu9Al4)的存在。添加到铜基SMA中的钛也起到了细化剂的作用,随着钛含量的增加,GS(晶粒尺寸)降低了约80%。DSC结果显示低焓、迟滞和低马氏体转变起始温度。
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Effect of Titanium on the Martensitic Transformation Temperature of Cu-14Al-4Ni Shape Memory Alloy Rapidly Solidified
The present research aimed to analyze the influence that different contents of titanium (x = 0.5, 0.6 and 0.7 wt.%) have on the martensitic transformation temperature of a Cu-14Al-4Ni (wt.%) SMA (shape memory alloy). The Cu-14Al-4Ni-xTi samples were casted in an arc-melting furnace and rapidly solidified. All samples underwent heat treatment in a tubular furnace at a temperature of 1,100 °C for 30 min and water quenched at 25 °C. Subsequently, samples were analyzed by SEM (scanning electron microscopy) with EDS (energy dispersive spectroscopy), XRD (X-ray diffraction) and DSC (differential scanning calorimeter). SEM images and XRD patterns showed that the presence of titanium modified the alloy’s microstructure, induced the formation of three titanium rich phases called “X” phase (CuNi2Ti, Cu3Ti and AlCu2Ti) and reduced the presence of the brittle phase γ2 (Cu9Al4) for samples with 0.6 and 0.7 wt.% Ti. The titanium added to the copper based SMA also functioned as a refiner, reducing GS (grain size) up to approximately 80% with the increase of Ti content. DSC results exhibited low enthalpy levels, hysteresis, as well as low start martensitic transformation temperatures.
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