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This book provides a concept to analyze and increase the energy and resource efficiency of machining systems. Machining systems are widely used to produce workpieces in large quantities and with complex geometrical shapes. These systems, however, are also relevant in terms of energy and resource consumption, which is strongly connected to the choice of cutting fluid strategy. Within the focus of the concept, cutting fluid connects the elements of the machining system and results in interactions between them. Based on this description and an extensive literature review, a modeling approach is…mehr

Produktbeschreibung
This book provides a concept to analyze and increase the energy and resource efficiency of machining systems. Machining systems are widely used to produce workpieces in large quantities and with complex geometrical shapes. These systems, however, are also relevant in terms of energy and resource consumption, which is strongly connected to the choice of cutting fluid strategy. Within the focus of the concept, cutting fluid connects the elements of the machining system and results in interactions between them. Based on this description and an extensive literature review, a modeling approach is developed that comprises the relations between process parameters, cutting fluid strategies, and relevant machining system elements. The performance of the machining system is assessed with regard to environmental, economic as well as technological indicators and improved by various organizational and technical measures. The exemplary application of the developed concept is carried out in thecontext of two case studies and also indicates the corresponding effects of improvement measures.
Autorenporträt
Nadine Madanchi received a master's degree in mechanical engineering from Technische Universität Braunschweig, Germany, and a master's degree in systems engineering from the University of Rhode Island, USA. Afterwards, she worked as a research associate at the Institute of Machine Tools and Production Technology as head of the team Eco-efficient Machine Tools and Systems and worked toward her Ph.D. at Technische Universität Braunschweig.