Risk Model for Integrated Management System

The purpose of this paper is to develop an integrated risk management model for standardized management systems: ISO 9001:2015 for quality management, ISO 14001:2015 for environmental management, ISO/IEC 27001:2013 for information security management, ISO 45001:2018 for Occupational Health and Safety Management, and ISO 22000:2005 for food safety management in order to enable organizations can manage their processes and associated risks versus requirements of each internal and external stakeholder through only one MS instead of several individual MSs defined and implemented in an isolated way according to a specific MSS and hence to decrease the number of resources employed and to enhance the organization performance

5th International Conference on Advanced Manufacturing Engineering and Technologies

This book presents the proceedings from the 5th NEWTECH conference (Belgrade, Serbia, 5–9 June 2017), the latest in a series of high-level conferences that bring together experts from academia and industry in order to exchange knowledge, ideas, experiences, research results, and information in the field of manufacturing. The range of topics addressed is wide, including, for example, machine tool research and in-machine measurements, progress in CAD/CAM technologies, rapid prototyping and reverse engineering, nanomanufacturing, advanced material processing, functional and protective surfaces, and cyber-physical and reconfigurable manufacturing systems. The book will benefit readers by providing updates on key issues and recent progress in manufacturing engineering and technologies and will aid the transfer of valuable knowledge to the next generation of academics and practitioners. It will appeal to all who work or conduct research in this rapidly evolving field

Quality Improvement Using Taguchi’s Model: – A Casy Study from Serbia

The developed Taguchi’s model for the multiobjectiveprocess design could incorporate customers’specifications for several characteristics and could be used tooptimise various types of manufacturing processes. The goals ofthe model implementation areis is to find the optimal processparameter settings and to reduce the influence of noise factors, toensure the achievement of the specified product characteristicvalues and to reduce variations. The model is given in a form ofan hybrid intelligent system for the process design (optimisation,modelling and/or simulation), providing the possibility forlearning features (learning from the experimental or from thehistorical data)

Quality Improvement Using Taguchi’s Model: – A Casy Study from Serbia

The developed Taguchi’s model for the multiobjective process design could incorporate customers’ specifications for several characteristics and could be used to optimise various types of manufacturing processes. The goals of the model implementation areis is to find the optimal process parameter settings and to reduce the influence of noise factors, to ensure the achievement of the specified product characteristic values and to reduce variations. The model is given in a form of an hybrid intelligent system for the process design (optimisation, modelling and/or simulation), providing the possibility for learning features (learning from the experimental or from the historical data)

Towards the digital model of tool lifecycle management in sheet metal forming

Sheet metal forming is a critical process in the manufacturing industry, which involves shaping sheet metal into desired configurations and structures. The use of digital tools in the lifecycle management of sheet metal forming tools has become increasingly important to ensure the efficiency and effectiveness of the process. The digital model of tool lifecycle management (TLM) in sheet metal forming provides a complete approach to manage the entire lifecycle of tools used in sheet metal forming. It enables optimization of tool design, simulation of the tooling process, real-time monitoring of tool conditions, and retirement and replacement of tools. This approach improves efficiency, reduces costs, and ensures optimal performance in sheet metal forming. The paper presents an elaborate analysis of the development of TLM models concerning the progress in ICT modelling and its implementation in the field of sheet metal forming. Furthermore, the paper includes an exemplary TLM model for an industrial enterprise

Conceptual model for outsourcing process in pharmaceutical supply chain

Pharmaceutical companies are regularly being challenged to meet the rising standards of quality, so as to comply with rigorous regulatory requirements. At the same time, the global pharmaceutical market has seen significant changes, forcing pharmaceutical companies to focus more than ever before on customer needs and their own internal efficiencies in order to continue to compete effectively on a local and global arena. Outsourcing services to a third party is a commonly accepted approach to reduce costs and to provide sites of excellence (manufacturing, distribution, research and development, analysis and testing, marketing), but it also holds many hidden risks. The winning formula of outsourcing processes is developing and sustaining a reliable Quality Management System, capable to control efficacy and efficiency of outsourced activities. In this article the conceptual model of outsourcing process has been proposed under the frame of PDCA cycle (Plan, Do, Check, Act). Proposed model has been applied in outsourcing process of transport of medicines, as a case study. Furthermore, this case study has been implemented in the curriculum of postgraduate education in Pharmaceutical management in Faculty of pharmacy on University of Belgrade, as a practical course for understanding the complexity of outsourcing process in pharmaceutical supply chain