Improving the Performance Properties of Abrasive Tools at the Stage of Their Operation

Tonkonogyi, Volodymyr; Sidelnykova, Tetiana; Dašić, Predrag; Yakimov, Alexey; Bovnegra, Liubov

doi:10.1007/978-3-030-18072-0_15

Cited by 10 publications

(1 citation statement)

References 4 publications

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“…The quality of TP processes has a significant impact not only on the efficiency of the leading products but also on the competitiveness of the enterprise as a whole [4]. Many components ensure pro-duction efficiency, in particular the level of perfection of tooling and technological equipment [5][6][7][8], advanced materials and coatings [9,10], the energy efficiency of implemented processes and their logistical connections [11,12], the system of quality indicators [13], the level of automation of processes and systems to support the life cycle of products [14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Management and Production Engineering Review

Denysenko¹,

Іванов²,

Luściński³

et al. 2020

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The specificity of tool provisioning is conditioned using tooling, the quantity of which exceeds the nomenclature of the manufactured goods considerably. Therefore, for modern enterprises, first-priority issues are harmonizing the processes of tool provisioning systems, increasing the level of the reaction of this system to changes, obtaining operational control over the production system, and, thus, improving the efficiency of the production process. In this paper, a mathematical model of decision-making based on determining the optimal strategy for the process flow was proposed to improve the efficiency of the information system for quality management of tool provisioning. It is suggested to use the sustainable development factor of information system for quality management of tool provisioning to make decisions about the path of the tooling process, which considers the requirements of international standards for management systems (ISO 9001, ISO 45001, etc.). This model is based on the application of graph optimization theory, fuzzy logic, and Markov chains. The use of this model is universal and will increase the validity of operational management decisions, increase productivity, reduce resource dependency, and, therefore, reduce the costs of tool provisioning, which directly affects the cost of production and competitiveness of the enterprise as a whole.

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