X Conferencia Internacional de Ingeniería Mecánica "COMEC 2019" -V Simposio de Diseño e Ingeniería asistida por computadora, Biomecánica y Mecatrónica

X Conferencia Internacional de Ingeniería Mecánica

COMEC 2019

Modeling of Contact Temperature During Surface Grinding

Resumen

In comparison to machining with geometrically defined cutting edges, grinding manifests clear procedural differences that effect the machinability of the materials. Grinding is achieved by means of a number of individual grit engagements. During grinding is increased amount of friction and deformation work, from which results a higher conversion of heat flow in the process. The paper presents the modeling of the contact temperature between the wheel and the workpiece during surface grinding. The measurement of the contact temperature during grinding was performed firstly by using an artificial thermocouple that was incorporated into the workpiece, using a developed acquisition system connected with the computer. Measurement of values was carried out by factorial plan of the experiment. Input experimental data were elements of the cutting regime: table speed, transverse shift and grinding depth and output data contact temperature. The processing of data using the response surface methodology determines the adequate dependence in the form of the power function and the estimated influence of individual input factors. Then modeling was done using artificial neural networks. Finally, a comparison of the calculated values with the both models was performed and the better model of surface grinding process was adopted.

Abstract

In comparison to machining with geometrically defined cutting edges, grinding manifests clear procedural differences that effect the machinability of the materials. Grinding is achieved by means of a number of individual grit engagements. During grinding is increased amount of friction and deformation work, from which results a higher conversion of heat flow in the process. The paper presents the modeling of the contact temperature between the wheel and the workpiece during surface grinding. The measurement of the contact temperature during grinding was performed firstly by using an artificial thermocouple that was incorporated into the workpiece, using a developed acquisition system connected with the computer. Measurement of values was carried out by factorial plan of the experiment. Input experimental data were elements of the cutting regime: table speed, transverse shift and grinding depth and output data contact temperature. The processing of data using the response surface methodology determines the adequate dependence in the form of the power function and the estimated influence of individual input factors. Then modeling was done using artificial neural networks. Finally, a comparison of the calculated values with the both models was performed and the better model of surface grinding process was adopted.

Sobre el ponente

Pavel Kovač

Pavel Kovač

University of Novi Sad, Faculty of Technical Sciences, Serbia Flag of Cuba
Información Práctica
Ponencia
English (US)
No definido
15 minutos
Salón San Salvador
Autores
Prof. Borislav Savković
Dr. pavel kovač
Marek Vrabel
Palabras clave
contact temperature
experimental
grinding regime
machinability