Search results for "Sustainable manufacturing"

showing 10 items of 24 documents

An exploratory study for analyzing the energy savings obtainable by reshaping processes of sheet metal based components

2017

Abstract Producing materials causes about 25% of all anthropogenic CO2 emissions. Reshaping could be one of the most efficient strategy to foster material reuse and lower the environmental impact due to material production. Sheet metal forming processes can be applied to reshape sheet metal based component. This research field is still almost unexplored and the actual environmental impact saving potential has not been quantified. The present paper aims at starting to cover this research gap, a modeling effort to quantify the environmental impact saving of reshaping is proposed. Primary energy demand for conventional recycling and reshaping are quantified and compared. Primary energy savings…

EngineeringPrimary energybusiness.industry020209 energyCircular economyForming processes02 engineering and technologyGeneral MedicineReuseCivil engineeringsustainable manufacturingenergy and resource efficiency Reshaping circular economyvisual_artComponent (UML)0202 electrical engineering electronic engineering information engineeringvisual_art.visual_art_mediumProduction (economics)Environmental impact assessmentSheet metalbusinessProcess engineering
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Trends in Metal Cutting Theory and Practice

2017

This chapter provides the state-of-the-art manufacturing systems that utilize various machining technologies in different manufacturing sectors. It highlights the challenges of the 21st-century manufacturing environment and characterizes numerous driven factors in modern machining technologies. They include more-established technologies, such as High-Speed Machining/Cutting, High-Performance Machining/Cutting, High-Efficiency Machining or currently developed ones, such as resource- and energy-efficient (generally sustainable) and hybrid machining. Practical examples and charts that document their importance in modern manufacturing are provided. Finally, some important future trends are over…

0209 industrial biotechnologyEngineeringbusiness.industrySustainable manufacturing02 engineering and technology010501 environmental sciencesManufacturing systems01 natural sciencesManufacturing engineering020901 industrial engineering & automationResource (project management)MachiningComputer-integrated manufacturingAdvanced manufacturingbusinessMetal cutting0105 earth and related environmental sciences
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Electrical energy analysis and potential environmental improvements of sheet metal punching processes

2013

Discrete part manufacturing processes, in particular non-conventional production processes, are still poorly documented in terms of environmental footprint. Within the separating processes, sheet metal punching processes have not been analyzed yet from environmental point of view. The present paper aims to contribute to filling this knowledge gap. In particular, two different punching machine tool architectures were analyzed. Following the previously developed CO2PE methodological approach, power studies and a preliminary time study have been performed in order to understand the contribution of each sub-unit towards the total energy demand. The influence of the most relevant process paramet…

CIB_LCEmanufacturingSustainable Manufacturing Energy Efficiency Punchingpunchingenvironmental impactSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazioneenergy efficiency
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Environmental comparison between a hot extrusion process and conventional machining processes through a Life Cycle Assessment approach

2014

Nowadays manufacturing technologies have to be evaluated not only for the technical features they can provide to products, but also considering the environmental perspective as well. As long as the technological feasibility of a given process is guaranteed, processes minimizing resources and energy consumption have to be selected for manufacturing. With respect to this topic, the research studies in the domain of metal processing technologies predominantly focus on conventional material removal processes as milling and turning. Despite some exceptions, many other non-machining technologies, such as metal forming processes, are still not well documented in terms of their energy and resource …

Hot extrusion Machining Aluminum Sustainable manufacturing LCASettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Uncovering Technological and Environmental Potentials of Aluminum Alloy Scraps Recycling Through Friction Stir Consolidation

2020

Conventional metal chips recycling processes are energy-intensive with low efficiency and permanent material losses during re-melting. Solid state recycling allows direct recycling of metal scraps into semi-finished products. It is expected that this process category would lower the environmental performance of metals recycling. Friction Stir Consolidation is a new solid-state technique taking advantage of friction heat generation and severe plastic deformation to consolidate chips into billets. In this research, the feasibility of Friction Stir Consolidation as aluminum chips recycling process is analyzed. Specifically, an experimental campaign has been carried out with varying main proces…

0209 industrial biotechnologyMaterials sciencePrimary energySolid bondingAlloySolid-stateSustainable manufacturingchemistry.chemical_elementFriction stir consolidation02 engineering and technologyengineering.materialIndustrial and Manufacturing Engineering020901 industrial engineering & automationAluminiumManagement of Technology and InnovationGeneral Materials ScienceRecyclingSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneConsolidation (soil)Renewable Energy Sustainability and the EnvironmentMechanical EngineeringMetallurgy021001 nanoscience & nanotechnologychemistryHeat generationengineeringSevere plastic deformation0210 nano-technologyEfficient energy useAluminum
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Energy Efficiency of Sheet Metal Working Processes: Where do we stand today?/Energieeffizienz in Prozessen der Blechumformung – eine aktuelle Standor…

2014

Due to increasing energy and resource costs at the one hand and upcoming regulations on energy and resource efficiency at the other, a growing interest of machine tool builders to the environmental performance of their machine tools can be observed today. The last decade, academic as well as industrial research groups started to assess the energy demand of discrete part manufacturing processes and indicated a significant potential for improvement [1]. In contrast to conventional machining processes (e.g. milling, turning…), (sheet) metal forming processes are still less well documented in terms of their energy demand [2]. In consequence, potential energy efficiency improvement measures for …

Energy EfficiencySustainable ManufacturingMetal Forming ProcessesSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Towards criteria for sustainable process selection: On the modelling of pure subtractive versus additive/subtractive integrated manufacturing approac…

2017

Additive Manufacturing (AM) processes can be counted among the disruptive technologies that are capable of transforming conventional manufacturing routes. The ability to create complex geometries, the reduction in material scraps during manufacturing, and the light-weighting due to the think-additive redesign of the components represent the main points of strength of AM. However, for some applications (such as the production of metal components for the automotive and aerospace industries), the surface finishing and dimensional/geometrical part tolerancing that can be achieved via AM processes might not be adequate to satisfy the imposed product specifications, and finish machining operation…

0209 industrial biotechnologyEngineeringAdditive manufacturing; CNC machining; Metal component; Modelling; Sustainable manufacturing; Renewable Energy Sustainability and the Environment; 2300; Strategy and Management; 1409; Tourism Leisure and Hospitality Management; Industrial and Manufacturing EngineeringAdditive manufacturingProcess (engineering)Strategy and ManagementSustainable manufacturingAutomotive industryContext (language use)02 engineering and technology010501 environmental sciencesMetal component01 natural sciencesModellingIndustrial and Manufacturing EngineeringTourismCNC machining020901 industrial engineering & automationMachiningComputer-integrated manufacturingAdvanced manufacturingRenewable Energy1409Settore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSustainable manufacturing Modelling Additive manufacturing CNC machining Metal component0105 earth and related environmental sciencesGeneral Environmental ScienceProduct design specificationSustainability and the Environment2300Renewable Energy Sustainability and the Environmentbusiness.industryLeisure and Hospitality ManagementBuilding and ConstructionManufacturing engineeringNumerical controlbusinessJournal of Cleaner Production
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Industry 4.0 Technologies for Manufacturing Sustainability: A Systematic Review and Future Research Directions

2021

Recent developments in manufacturing processes and automation have led to the new industrial revolution termed “Industry 4.0”. Industry 4.0 can be considered as a broad domain which includes: data management, manufacturing competitiveness, production processes and efficiency. The term Industry 4.0 includes a variety of key enabling technologies i.e., cyber physical systems, Internet of Things, artificial intelligence, big data analytics and digital twins which can be considered as the major contributors to automated and digital manufacturing environments. Sustainability can be considered as the core of business strategy which is highlighted in the United Nations (UN) Sustainability 2030 age…

0209 industrial biotechnologyEngineeringTechnologyIndustry 4.0QH301-705.5QC1-999Big dataInternet of Things02 engineering and technology020901 industrial engineering & automationSustainable businessSettore ING-IND/17 - Impianti Industriali Meccanici0502 economics and businessGeneral Materials Sciencesmart manufacturingCloud manufacturingBiology (General)InstrumentationQD1-999cloud manufacturingFluid Flow and Transfer Processesbusiness.industryProcess Chemistry and TechnologyTPhysics05 social sciencesGeneral EngineeringCyber-physical systemartificial intelligenceIndustry 4.0sustainabilityEngineering (General). Civil engineering (General)sustainable manufacturingComputer Science ApplicationsEngineering managementmanufacturingChemistrySustainabilityStrategic managementDigital manufacturingInternet of ThingTA1-2040business050203 business & managementApplied Sciences
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An insight into the electrical energy demand of friction stir welding processes: the role of process parameters, material and machine tool architectu…

2018

The manufacturing sector accounts for a high share of global electrical energy consumption and CO 2 emissions, and therefore, the environmental impact of production processes is being more and more investigated. An analysis of power and energy consumption in friction stir welding processes can contribute to the characterization of the process from a new point of view and also provide useful information about the environmental impact of the process. An in-depth analysis of electrical energy demand of friction stir welding is here proposed. Different machine tool architectures, including an industrial dedicated machine, have been used to weld aluminum and steel sheets under different process …

0209 industrial biotechnologybusiness.product_categoryFriction stir weldingComputer scienceSustainable manufacturing02 engineering and technologyWeldingIndustrial and Manufacturing Engineeringlaw.invention020901 industrial engineering & automationlawFriction stir weldingProcess engineeringSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazionebusiness.industryElectric potential energyMechanical EngineeringProcess (computing)Computer Science Applications1707 Computer Vision and Pattern RecognitionEnergy consumptionComputer Science ApplicationsMachine toolPower (physics)Energy efficiencyControl and Systems EngineeringbusinessPower studySoftwareEfficient energy use
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Manufacturing strategies for efficiency in energy and resources use: The role of metal shaping processes

2017

Abstract Manufacturing sector nowadays has to deal with the global need to reduce the environmental impact of human activity. As manufacturing accounts for a significant portion of the global CO 2 emissions, scientific research should be addressed to understand the environmental impact of manufacturing processes and, in the meantime, to take advantage of their full potential in reducing the overall CO 2 emissions. The present review paper aims at describing the role of metal shaping processes in reducing the environmental impact across different stages of metal components life. Actually, an increased consciousness concerning both the environmental performances of manufacturing processes and…

0209 industrial biotechnologyEngineeringProcess (engineering)Strategy and ManagementResource efficiencySustainable manufacturingSustainability and the Environment02 engineering and technologyIndustrial and Manufacturing EngineeringMetal shaping processe020901 industrial engineering & automationComputer-integrated manufacturingMaterial reuseAdvanced manufacturingRemanufacturingUnit process0505 lawGeneral Environmental ScienceRenewable Energy Sustainability and the Environmentbusiness.industryCircular economy05 social sciencesBuilding and ConstructionMaterial efficiencyManufacturing engineeringRisk analysis (engineering)Energy and resouce efficiency050501 criminologybusiness
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