Design of a tool management system for a flexible machining facility

Özbayrak, Mustafa; Souza, R B R De; Bell, R.

doi:10.1243/0954405011515424

Cited by 7 publications

(4 citation statements)

References 11 publications

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“…In [6], a model for the management of cutting tools at the CPS level is presented. This is a specific manufacturing where extremely high quality products are required, so it is necessary to manage the tool for a typical product.…”

Section: Literature Reviewmentioning

confidence: 99%

Management of tools in digital manufacturing - A case study

Vukadinovic¹,

Živković²,

Đurđanović

et al. 2022

MATEC Web Conf.

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The rapid market changes and strong product individualization create the need for great flexibility of manufacturing management on new foundations, such as the Industry 4.0 model. Digital manufacturing is the basis for Industry 4.0, which has the following dimensions: (a) digital manufacturing based on advanced digital-oriented technologies, (b) smart products (advanced manufacturing model and new characteristics), and (c) smart supply chain of raw materials and delivery of finished products). Bidirectional exchange of information in collaborative manufacturing, using it exchange also for digital platforms of design of the innovative products. In this paper we are show developed model of Serbian digital factory of home cookware and appliance manufacturing for tools lifecycle management (TLM) in workshop for metal forming as a part of MES model.

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Section: Literature Reviewmentioning

confidence: 99%

Management of tools in digital manufacturing - A case study

Vukadinovic¹,

Živković²,

Đurđanović

et al. 2022

MATEC Web Conf.

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“…In both algorithms, simulation results are used to find search directions. Mözbayrak et al [26] have addressed the design of an integrated tool management system for flexible machining facilities (FMFs). Modules with functions ranging from issuing tools according to a tooling strategy to diagnosing system operation have been developed and integrated around a centralized manufacturing database to guarantee streamlined manufacture.…”

Section: Studies On Tool Selectionmentioning

confidence: 99%

Intelligent Tool Management Strategies for Automated Manufacturing Systems

Rao¹,

Patvardhan²,

Singh³

2011

ICA

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With the increase in automation and use of computer control in machine tools, the number of cutting tools per machining setup is on the increase. On one hand, such multi-tool setups offer the advantages of reduced down-time and cost of production and require less space and in-process inventory, and on the other hand, require proper tool management for economic operations. A number of strategies have been devised to solve the tool selection problems and a number of tool replacement policies have been proposed in the past. These strategies have been solved in isolation, whereas, a comprehensive algorithm for proper selection of tools out of those available in the tool magazine for performing operation and for replacement of tools on failure/wear is necessary. In this paper, taking cue from the computer memory management policies, four tool selection strategies have been presented and their performance in tandem with various tool replacement policies has been studied. The effect of important parameters such as reduction of tool life due to regrinding, limited number of regrindings, catastrophic failures etc. have been considered. Cost has been computed for each combination of tool selection and replacement policy. Also, the number of machine stoppages has been worked out in each case. The results indicate that the combination of various selection strategies with suitable replacement policies affects the overall cost

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“…Without the existence of a comprehensive tool management system, the productivity of flexible machining facilities can be severely limited. There have been some methodologies for the cutting tool management [4], [5], [6], [7], [8], [9], but these methodologies mainly focus on the management of tool parameters and seldom involve analysis of management pattern. In this paper, a visualized management pattern for cutting tool is proposed to guarantee that the right tools are in the appropriate machines at the require time, to avoid unnecessary stoppages and delays.…”

Section: ⅰ Introductionmentioning

confidence: 99%

A visualized cutting tool management pattern for flexible manufacturing systems

Wang

Yan

Nakajima³

et al. 2009

2009 IEEE International Conference on Industrial Engineering and Engineering Management

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Tool management is an important element in the efficiency of flexible manufacturing system. In order to supply fast and accurate results of tool preparation, a visualized cutting tool management methodology is presented. In the proposed methodology, a cutting tool management pattern and its detailed management process, including list management, tooling management, all tools management, standard tool management and Details of tool management are first introduced. On the basis of the cutting tool management pattern, a visualized tool management process that can manage the pictures, movies and audio files of the tools and deal with drawing composition is discussed. In addition, the management of insufficient tools and unnecessary tools that can trace the status of tools and improve the quality of tool preparation is introduced. Finally, a web-based visualized cutting tool management system is developed based on the proposed methodology.

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Design of a tool management system for a flexible machining facility

Cited by 7 publications

References 11 publications

Management of tools in digital manufacturing - A case study

Management of tools in digital manufacturing - A case study

Intelligent Tool Management Strategies for Automated Manufacturing Systems

A visualized cutting tool management pattern for flexible manufacturing systems

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