Optimization of parameters that affect wear of A356/Al2O3 nanocomposites using RSM, ANN, GA and PSO methods

响应面法 材料科学 粒子群优化 摩擦学 实验设计 陶瓷 基质(化学分析) 纳米复合材料 粒子(生态学) 粒径 复合材料 计算机科学 化学工程 数学 机器学习 工程类 统计 海洋学 地质学
作者
Blaža Stojаnović,Sandra Gajević,Nenad Kostić,Slavica Miladinović,Aleksandar Vencl
出处
期刊:Industrial Lubrication and Tribology [Emerald Publishing Limited]
卷期号:74 (3): 350-359 被引量:66
标识
DOI:10.1108/ilt-07-2021-0262
摘要

Purpose This study aims to present a novel methodology for the evaluation of tribological properties of new nanocomposites with the A356 alloy matrix reinforced with aluminium oxide (Al 2 O 3 ) nanoparticles. Design/methodology/approach Metal matrix nanocomposites (MMnCs) with varying amounts and sizes of Al 2 O 3 particles were produced using a compocasting process. The influence of four factors, with different levels, on the wear rate, was analysed with the help of the design of experiments (DoE). A regression model was developed by using the response surface methodology (RSM) to establish a relationship between the observed factors and the wear rate. An artificial neural network was also applied to predict the value of wear rate. Adequacy of models was compared with experimental values. The extreme values of wear rate were determined with a genetic algorithm and particle swarm optimization using the RSM model. Findings The combination of optimization methods determined the values of the factors which provide the highest wear resistance, namely, reinforcement content of 0.44 wt.% Al 2 O 3 , sliding speed of 1 m/s, normal load of 100 N and particle size of 100 nm. Used methods proved as effective tools for modelling and predicting of the behaviour of aluminium matrix nanocomposites. Originality/value The specific combinations of the optimization methods has not been applied up to now in the investigation of MMnCs. In addition, using of small content of ceramic nanoparticles as reinforcement has been poorly investigated. It can be stated that the presented approach for testing and prediction of the wear rate of nanocomposites is a very good base for their future research.
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