Creation of an Automated System for Magnetic-Pulsed Metal Processing on the Basis of a Key Success Factor for Training Technologists

Abstract

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The article presents a description of the organization of the process of creating an automated system for magnetic pulse metal processing (MPPM) based on key success factors (KSF). Pulse methods of material processing are a new direction in technology, which uses the energy of an explosion of a pulsed magnetic field (PMF), a high-voltage discharge in a liquid, and a number of other pulsed energy sources. Magnetic pulse metal processing requires careful safety measures, a serious approach in the design of basic and auxiliary equipment, as well as qualified and competent technologists. For reasons of these features, the task of creating an automated process control system becomes relevant. An automated system has a complex algorithm that includes a large number of business processes, in order to determine their programming order, it is necessary to compare the degree of importance of a particular business process with the key success factors for the MPPM process. It is possible to achieve a significant competitive advantage in the implementation of the strategy with the correct identification of critical success factors, we have compiled a table to determine the relationship between processes and KSF, based on this table, business processes have been selected that have a high degree of importance and have the ability to make changes. If you start programming business processes in accordance with the order compiled on the basis of KSF, the most problematic parts of the workflow will appear first. Once the work on them is completed, technologists will be able to implement them at the workplace, thereby optimizing work already in the initial stages of creating a software package.

Keywords

• automated system
• software package
• magnetic-pulse processing of metals
• key success factors
• business process programming