Grinding process modeling represents a great challenge due to its stochastic nature. The uncertainty factor of grinding technology is mainly attributable to the undefned grain morphology, with the infuence of this aspect becoming more pronounced in a dry confguration. Even though grinding has always used lubricants, nowadays the reduction or complete elimination of this element could mean a signifcant reduction in environmental pollution. Many modeling approaches have been used in literature to investigate phenomena related to grinding but each exhibits some disadvantages. In this paper a hybrid FEM—ML approach is proposed to forecast forces generated by the action of a single grain in dry conditions, overcoming the main modeling limitations observed to date. Experiments and force measurements were performed on a CNC surface grinding machine using sintered aluminum oxide grains of size 60. FEM simulations were developed in DEFORM 3D to predict grinding forces and increase the data set. ML algorithms were proposed to increase model prediction productivity and optimize the control of process parameters
Lerra, F., Candido, A., Liverani, E., Fortunato, A. (2022). Prediction of Micro-scale Forces in Dry Grinding Process Through a FEM—ML Hybrid Approach. INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING, 23(1), 15-29 [10.1007/s12541-021-00601-2].
Prediction of Micro-scale Forces in Dry Grinding Process Through a FEM—ML Hybrid Approach
Lerra, Flavia
;Candido, Antonio;Liverani, Erica;Fortunato, Alessandro
2022
Abstract
Grinding process modeling represents a great challenge due to its stochastic nature. The uncertainty factor of grinding technology is mainly attributable to the undefned grain morphology, with the infuence of this aspect becoming more pronounced in a dry confguration. Even though grinding has always used lubricants, nowadays the reduction or complete elimination of this element could mean a signifcant reduction in environmental pollution. Many modeling approaches have been used in literature to investigate phenomena related to grinding but each exhibits some disadvantages. In this paper a hybrid FEM—ML approach is proposed to forecast forces generated by the action of a single grain in dry conditions, overcoming the main modeling limitations observed to date. Experiments and force measurements were performed on a CNC surface grinding machine using sintered aluminum oxide grains of size 60. FEM simulations were developed in DEFORM 3D to predict grinding forces and increase the data set. ML algorithms were proposed to increase model prediction productivity and optimize the control of process parametersFile | Dimensione | Formato | |
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Lerra_Prediction of micro scale.pdf
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