试验设计在铝铜铸造合金研制中的应用

Franziska Kröger, B. Tonn
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引用次数: 1

摘要

采用基于线性回归模型的试验设计(DoE)方法研制了一种铝铜基铸造合金。开发的主要目标是实现(1)高温下的高强度和(2)低热撕裂倾向。在DoE内,新开发的合金AlCuMnCo(Ni)铸造了17种不同的化学成分,测试了热撕裂倾向,并在高达300°C的拉伸测试中进行了表征。测试结果表明,DoE的AlCuMnCo(Ni)-合金在环境温度高达300°C时具有较高的机械性能,因此具有较高的热稳定性。合金元素Cu和Co提高了合金的屈服强度,而Mn和Ni则提高了合金的可获得伸长率。此外,一些合金没有或极低的热撕裂倾向,这是铝铜合金的一个显著特征,否则极易热撕裂。根据测试结果开发的回归模型满足一组质量标准,因此期望提供可靠的预测。通过对一种甜点合金的铸造试验,验证了该模型的预测能力。结果表明,该模型能够较好地预测材料在室温至250℃范围内的力学性能。此外,甜点合金在高达250°C的机械性能优于参考合金AlCuNiCoSbZr (RR30)。结果表明,通过实验设计,可以有效地减少合金开发的时间和精力,同时产生有关所考虑的合金系统的高度信息密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Design of Experiments for Alloy Development of an Aluminum Copper Casting Alloy
Design of experiments (DoE) based on a linear regression model was used to develop an Aluminum Copper-based casting alloy. The main objectives of the development were the achievement of (1) a high strength at elevated temperatures with (2) a low hot tearing tendency. Within the DoE, 17 different chemical compositions of the newly developed alloy AlCuMnCo(Ni) were cast, tested regarding hot tearing tendency and characterized in tensile tests up to 300 °C. Test results showed that the AlCuMnCo(Ni)-alloys from the DoE have high mechanical properties from ambient temperature up to 300 °C and thus feature a high thermal stability. It was found that the alloying elements Cu and Co increase the yield strength whereas Mn and Ni tend to increase the attainable elongation. Furthermore, some of the alloys showed no or a very low tendency to hot tearing—a remarkable feature for Al-Cu alloys which are otherwise highly susceptible to hot tearing. The regression model that was developed from the test results fulfils a set of quality criteria and is therefore expected to provide reliable predictions. The predictive ability of the model was validated by casting and testing a sweet spot alloy. Results show that the model is sufficient for predicting the mechanical properties from ambient temperature to 250 °C. Furthermore, the sweet spot alloy surpasses the reference alloy AlCuNiCoSbZr (RR30) in its mechanical properties up to 250 °C. It was shown that by applying design of experiments, time and effort for an alloy development can effectively be reduced and simultaneously a high degree of information density about the alloying system considered is generated.
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