Upon the Modeling and the Optimization of the Debiting Process through Computer Aided Non-Conventional Technologies

TL;DR

This paper develops a computer-aided system for modeling, optimizing, and managing the debiting process of special materials using unconventional electrical erosion technologies, based on experimental data and adaptable to various processes.

Contribution

It introduces a novel computer-aided solution that models experimental data, optimizes processing conditions, and manages equipment for non-conventional debiting processes.

Findings

Mathematical models of debiting parameters were successfully developed.

The system reduces electrical consumption during processing.

The approach is adaptable to various technological processes.

Abstract

The debiting process of the remarkable properties materials can be managed through unconventional technologies as the complex electrical erosion. We present the modeling of the previous experimental results to obtain a mathematical dependence of the output parameters (processing time, surface quality) on the input parameters (voltage or current). All the experimental data are memorized on a database and for each particular debiting process a new dependence is built. Because all the experiments applied in the Romanian laboratories or practical applications of the nonconventional technological processes in the factories were based on the particular conditions of one activity, this papers presents the technical implementation of a computer-aided solution that keeps all previous experimental data, optimizes the processing conditions and eventual manage the driving gear. The flow-chart we present in this paper offers a solution for practitioners to reduce the electrical consumption while a technological processing of special materials is necessary. The computer program and the database can be easily adapted to any technological processes (conventional or not).