This paper aims to examine the sustainable manufacturing performance of Reconfigurable Manufacturing Systems (RMSs) using existing sustainable manufacturing metrics. RMS has six key characteristics including modularity, integrability, customization, scalability, convertibility, and diagnosability. In this paper, ‘convertibility’ is quantified by considering configuration convertibility, machine convertibility, and material handling device convertibility from the RMS perspective. In addition, the performance of RMSs with different convertibility levels is also evaluated by using sustainable manufacturing metrics. A numerical example is used to demonstrate the computational approach. Results of the analysis are used to show how sustainable ma...
CITATION: Hees, A., et al. 2017. A production planning method to optimally exploit the potential of ...
International audienceNowadays, manufacturing environment is characterized by the necessity of custo...
The number of scientific papers in the field of Sustainable Manufacturing (SM) shows a strong growth...
To be profitable and to generate sustainable value for all stakeholders, next generation manufacture...
Today manufacturing systems face a volatile demand with varying customer needs in terms of both volu...
International audienceIn increasingly unstable political, economic, environmental, and societal envi...
Responsiveness to dynamic market changes in a cost-effective manner is becoming a key success factor...
Nowadays, manufacturing environment is characterized by the necessity of customized flexibility as w...
Sustainability in manufacturing can be evaluated at product, process and system levels. The 6R metho...
International audienceReconfigurable manufacturing systems are not only new manufacturing paradigm o...
CITATION: Waibel, M. W., Oosthuizen, G. A. & Du Toit, D. W. 2018. Investigating current smart produc...
Presented in this article is a review of manufacturing techniques and introduction of reconfigurable...
Sustainable products must be designed by considering how design decisions impact their total life cy...
This paper presents a model for assessing different capacity scalability policies in Reconfigurable ...
CITATION: Hees, A., et al. 2017. A production planning method to optimally exploit the potential of ...
International audienceNowadays, manufacturing environment is characterized by the necessity of custo...
The number of scientific papers in the field of Sustainable Manufacturing (SM) shows a strong growth...
To be profitable and to generate sustainable value for all stakeholders, next generation manufacture...
Today manufacturing systems face a volatile demand with varying customer needs in terms of both volu...
International audienceIn increasingly unstable political, economic, environmental, and societal envi...
Responsiveness to dynamic market changes in a cost-effective manner is becoming a key success factor...
Nowadays, manufacturing environment is characterized by the necessity of customized flexibility as w...
Sustainability in manufacturing can be evaluated at product, process and system levels. The 6R metho...
International audienceReconfigurable manufacturing systems are not only new manufacturing paradigm o...
CITATION: Waibel, M. W., Oosthuizen, G. A. & Du Toit, D. W. 2018. Investigating current smart produc...
Presented in this article is a review of manufacturing techniques and introduction of reconfigurable...
Sustainable products must be designed by considering how design decisions impact their total life cy...
This paper presents a model for assessing different capacity scalability policies in Reconfigurable ...
CITATION: Hees, A., et al. 2017. A production planning method to optimally exploit the potential of ...
International audienceNowadays, manufacturing environment is characterized by the necessity of custo...
The number of scientific papers in the field of Sustainable Manufacturing (SM) shows a strong growth...