RESULTANT FORCE PREDICTION FOR HONEYCOMB SANDWICH COMPOSITE IN THE MILLING PROCESS USING MIXED-ORDER SUGENO MODEL
Published in GÉP 2024/2
https://doi.org/10.xxxx/GEP.2024.2.7
Laufer Edit
egyetemi docens, Óbudai Egyetem, Bánki Donát Gépész és Biztonságtechnikai Mérnöki Kar
Horváth Richárd
egyetemi docens, Óbudai Egyetem, Bánki Donát Gépész és Biztonságtechnikai Mérnöki Kar
ABSTRACT
Nowadays, composites and fiber-reinforced composites are increasingly used due to their extremely favorable properties, These kinds of materials have excellent mechanical properties at low weight, but new problems arise during their production and cutting compared to traditional materials. Knowledge of cutting forces is vital, as they are known to affect the problems that arise during machining. A common issue with this type of task is that insufficient data are available to create a statistical model due to cost- and timeconsuming or impractical measurements. For this reason, authors propose a predictive model that takes advantage of the fuzzy approach. The main goal is to predict resultant force for honeycomb sandwich composite in the milling process. In order to achieve a more realistic result, a mixed-order Sugeno model was developed.
