Search results for "Process comparison"

showing 2 items of 2 documents

Integrated WAAM-Subtractive Versus Pure Subtractive Manufacturing Approaches: An Energy Efficiency Comparison

2019

Over the last years, additive manufacturing (AM) has been gathering momentum both in the academic and in the industrial world. Besides the obvious benefits in terms of flexibility and process capabilities, the environmental performance of such processes has still to be properly analyzed. Actually, the advantages of additive manufacturing over conventional processes are not obvious. Indeed, different manufacturing approaches result in different amounts of involved material and in different processing energy demands. Environmental comparative analyses are hence crucial to properly characterize AM processes. In this paper, an energetic comparison between the emerging wire arc additive manufact…

0209 industrial biotechnologyPrimary energyAdditive manufacturingProcess (engineering)Computer science02 engineering and technologyIndustrial and Manufacturing Engineering020901 industrial engineering & automationMachiningAdditive manufacturing; Energy efficiency; Process comparisonManagement of Technology and InnovationComponent (UML)General Materials ScienceProcess engineeringSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneFlexibility (engineering)Subtractive colorRenewable Energy Sustainability and the Environmentbusiness.industryMechanical Engineering021001 nanoscience & nanotechnologyEnergy efficiencyProcess comparison0210 nano-technologybusinessEnergy (signal processing)Efficient energy useInternational Journal of Precision Engineering and Manufacturing-Green Technology
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Guidelines to compare additive and subtractive manufacturing approaches under the energy demand perspective

2020

In order to characterise the environmental performance of additive manufacturing (AM) processes, comparative analyses are required. Different manufacturing approaches (such as additive and subtractive ones), besides adopting different equipment, use different kinds and amounts of material. Therefore, the material-related flow has to be followed throughout the entire product life. Differences in environmental impact arise at each step of the life cycle: material production, manufacturing, use, disposal, and transportation. A life cycle-based methodology able to take due account of all the factors of influence on the total energy demand for the production of metal components is given in this …

Subtractive colorAdditive manufacturingComputer scienceAdditive manufacturing; Decision-support tools; Energy saving; Process comparisonIndustrial and Manufacturing EngineeringProduct (business)Perspective (geometry)MachiningOrder (exchange)Decision-support toolsEnergy savingManagement of Technology and InnovationDecision support toolsProduction (economics)Process comparisonDecision Sciences (miscellaneous)Environmental impact assessmentBiochemical engineeringSocial Sciences (miscellaneous)Decision-support toolInternational Journal of Sustainable Manufacturing
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