Journal
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART B-JOURNAL OF ENGINEERING MANUFACTURE
Volume 236, Issue 1-2, Pages 111-122Publisher
SAGE PUBLICATIONS LTD
DOI: 10.1177/0954405420935262
Keywords
Tool wear width size; adaptive network-based fuzzy inference system model; random vibration and cross particle swarm optimization algorithm; cutting parameter optimization
Funding
- National Natural Science Foundation of China [51675312, 51675313]
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In the process of intelligent manufacturing, the use of suitable learning algorithms and intelligent models is essential. This study proposes a novel learning algorithm called random vibration and cross particle swarm optimization algorithm for prediction and optimization of machining process. The algorithm is able to find the global optimum and provide accurate predictions for tool wear width size. The optimized cutting parameters can prolong tool life and improve machining efficiency.
In the process of intelligent manufacturing, appropriate learning algorithm and intelligent model are necessary. In this work, a novel learning algorithm named random vibration and cross particle swarm optimization algorithm was proposed. The proposed algorithm is used for the prediction and optimization of machining process. Tool wear is an important factor that affects the machined surface quality during machining process, so it is necessary to find qualified tool wear prediction model and obtain the best combination of machining parameters to prolong tool life. In this study, the adaptive network-based fuzzy inference system was established to predict the tool wear width size. The random vibration and cross particle swarm optimization algorithm was tested using benchmark functions, and the results showed that random vibration and cross particle swarm optimization algorithm is able to find global optimum. Compared with the adaptive network-based fuzzy inference system trained by particle swarm optimization algorithm and adaptive network-based fuzzy inference system trained by differential evolution models, the results showed that the adaptive network-based fuzzy inference system trained by random vibration and cross particle swarm optimization algorithm can give a more accurate predicted value for offline prediction of the tool wear width size. In order to obtain the best combinations of cutting parameters under different removal area, the multi-objective optimization based on random vibration and cross particle swarm optimization algorithm was established. The optimized cutting parameters were verified and could be accepted to prolong tool life and improve machining efficiency.
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