Process Optimization of Spark Plasma Sintered Parameters for Ti-Al-Cr-Nb-Ni-Cu-Co High Entropy Alloy by Response Surface Methodology

U. Anamu, E. Olorundaisi, O. Ayodele, B. Babalola, P.I. Odetola, A. Ogunmefun, K. Ukoba, T.-C. Jen, P. Olubambi
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Abstract

In this study, the influence of operating parameters on the relative density and microhardness property of a septenary equiatomic Ti-Al-Cr-Nb-Ni-Cu-Co high entropy alloy developed via spark plasma sintering (SPS) process was investigated at constant heating rate (100 °C/min), dwell time (5 min), pressure (50 MPa). Using response surface methodology (RSM) on the sintering temperature (ST) and milling time (MT) as the process variable parameters, a predictive model was established. The design of experiment approach was employed to minimize numbers of runs of experiment, which invariably eliminates trial by error associated with traditional experimental methods. MT and ST were taken as the variables towards the development of the design model. The optimum operating parameters were predicted using the user-defined design (UDD) under RSM and the result was validated through experiments. Observation from the results shows that MT and ST play a significant role in achieving high densification, which translates to high hardness. At 900 °C ST and MT of 10 hours, the highest hardness value of 580.1 HV, densification of 99.98%, and percentage porosity of 0.02% were recorded.
响应面法优化 Ti-Al-Cr-Nb-Ni-Cu-Co 高熵合金的火花等离子烧结参数工艺
本研究在恒定的加热速率(100 °C/min)、停留时间(5 分钟)和压力(50 兆帕)条件下,研究了操作参数对通过火花等离子烧结(SPS)工艺开发的隔元等原子钛-铝-铬-铌-镍-铜-钴高熵合金的相对密度和显微硬度特性的影响。采用响应面方法(RSM)对烧结温度(ST)和铣削时间(MT)作为工艺变量参数建立了预测模型。采用了实验设计方法,以尽量减少实验次数,从而避免了传统实验方法中的误差试验。在设计模型的开发过程中,将 MT 和 ST 作为变量。使用 RSM 下的用户自定义设计(UDD)预测了最佳运行参数,并通过实验对结果进行了验证。观察结果表明,MT 和 ST 在实现高致密化方面起着重要作用,而高致密化则意味着高硬度。在 ST 值为 900 °C 和 MT 值为 10 小时的条件下,记录到的最高硬度值为 580.1 HV,致密化率为 99.98%,孔隙率为 0.02%。
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