Search results for "Forming."

showing 10 items of 1704 documents

Re-forming end-of-life components through single point incremental forming

2020

Abstract Applying Circular Economy strategies is mandatory to face material demand while minimizing the environmental impact. Manufacturing processes are to be thought as means to enable material/component reuse strategies. This paper presents the suitability of Single Point Incremental Forming (SPIF) to re-form End-of-life sheet metal components. Deep drawing followed by SPIF process on aluminium alloys were carried out to simulate reforming processes chain. The resulting thinning and strain distributions were experimentally analysed for different configurations. The research proves that the local action and enhanced formability nature of SPIF allow non-homogeneously thinned and reduced fo…

0209 industrial biotechnologyComputer scienceAluminium alloychemistry.chemical_elementMechanical engineering02 engineering and technologyReuseIndustrial and Manufacturing Engineering020901 industrial engineering & automationAluminiumComponent (UML)FormabilityDeep drawingProcess (computing)Reshaping021001 nanoscience & nanotechnologyIncremental sheet formingchemistryMechanics of Materialsvisual_artStrain analysevisual_art.visual_art_medium0210 nano-technologySheet metalThinningIncremental sheet forming
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Using the Analytic Hierarchy Process (AHP) and fuzzy logic to evaluate the possibility of introducing single point incremental forming on industrial …

2018

Abstract Single point incremental forming (SPIF) is a promising forming process, yet not entirely accepted and implemented on industrial scale, due to several reasons, presented in the paper. The approach presented here develops an evaluation method for the degree of its industrial implementation. Several factors which will favor the industrial implementation of ASPIF are identified and their weights are hierarchized by means of AHP. To assess the robustness of the AHP, a sensitivity analysis was also presented. Furthermore, a fuzzy inference system was built, having as output the degree of industrial implementation of SPIF.

0209 industrial biotechnologyComputer scienceIndustrial scaleForming processesAnalytic hierarchy process02 engineering and technologyFuzzy logicIndustrial engineering020901 industrial engineering & automationRobustness (computer science)0202 electrical engineering electronic engineering information engineeringGeneral Earth and Planetary Sciences020201 artificial intelligence & image processingSensitivity (control systems)Single pointGeneral Environmental ScienceProcedia Computer Science
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Comparison between Deep-Drawing and Incremental Forming Processes from an Environmental Point of View

2019

Deep-drawing is an industrial forming process which allows the user to process large batches of sheet metals parts. One of the major drawbacks of this process is the complexity and the high cost of dies. In comparison incremental forming is a flexible process, allowing the user to obtain sheet metal parts without the need of using a die. The present paper aims to present a comparative study of the two forming processes by presenting the main advantages and drawbacks of each one. The comparative study, aimed on the industrial implementation of the incremental forming process requires a comparison of the two processes regarding the environmental impact. Thus, the results of the study will jus…

0209 industrial biotechnologyEngineering drawingMaterials scienceMechanical Engineering0211 other engineering and technologiesForming processes02 engineering and technologyCondensed Matter Physics020901 industrial engineering & automationMechanics of MaterialsGeneral Materials SciencePoint (geometry)021108 energyDeep drawingMaterials Science Forum
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Integration of gradient based and response surface methods to develop a cascade optimisation strategy for Y-shaped tube hydroforming process design

2010

International audience; In the last years a strong research effort was produced in order to develop and design new forming technologies able to overcome the typical drawbacks of traditional forming operations. Among such new technologies, hydroforming proved to be one of the most promising. The design of tube hydroforming operations is mainly aimed to prevent bursting or buckling occurrence and such issues can be pursued only if a proper control of both material feeding history and internal pressure path during the process is performed.In this paper, a proper optimisation strategy was developed on Y-shaped tube hydroforming process which is characterized by a quite complex process mechanics…

0209 industrial biotechnologyEngineeringMechanical engineeringProcess design02 engineering and technologyCascade optimisation[SPI.MAT]Engineering Sciences [physics]/Materials020901 industrial engineering & automation0203 mechanical engineeringTube (container)Steepest descent methodSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneMoving least squaresHydroformingMoving least squarebusiness.industryTube hydroformingGeneral EngineeringProcess (computing)Internal pressureStructural engineering[SPI.MECA]Engineering Sciences [physics]/Mechanics [physics.med-ph]020303 mechanical engineering & transportsCascadeMethod of steepest descentMoving least squaresbusinessSoftwareResponse surface method
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Single point incremental forming: An assessment of the progress and technology trends from 2005 to 2015

2017

The last decade has seen considerable interest in flexible forming processes. Among the upcoming flexible forming techniques, one that has captured a lot of interest is single point incremental forming (SPIF), where a flat sheet is incrementally deformed into a desired shape by the action of a tool that follows a defined toolpath conforming to the final part geometry. Research on SPIF in the last ten years has focused on defining the limits of this process, understanding the deformation mechanics and material behaviour and extending the process limits using various strategies. This paper captures the developments that have taken place over the last decade in academia and industry to highlig…

0209 industrial biotechnologyEngineeringProcess (engineering)Seven Management and Planning Toolsbusiness.industryStrategy and ManagementForming processes02 engineering and technologyManagement Science and Operations ResearchTechnology assessment021001 nanoscience & nanotechnologyIndustrial and Manufacturing EngineeringManufacturing engineeringField (computer science)020901 industrial engineering & automationIncremental forming Geometric accuracy Formability Process limits Technology assessment ApplicationsFormabilityState (computer science)Single point0210 nano-technologybusiness
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A methodology for evaluating the influence of batch size and part geometry on the environmental performance of machining and forming processes

2016

Metallic material processing plays a significant role in terms of global environmental impact. As a result, energy- and resource-efficient strategies in the metal shaping technology domain need to be identified urgently. Recently, the scientific world has been paying more and more attention to the environmental impact analysis of manufacturing processes. Despite this increased attention, the state of the art in the domain of environmental impact analysis of metal shaping processes is still characterized by gaps in knowledge and in methodologies. In particular, metal forming processes are still not well documented, in terms of their environmental impact, and there is a lack of systematic and…

0209 industrial biotechnologyEngineeringProcess (engineering)Strategy and ManagementSustainable manufacturingGeometry02 engineering and technology010501 environmental sciences01 natural sciencesIndustrial and Manufacturing EngineeringDomain (software engineering)020901 industrial engineering & automationMachiningProduction (economics)Environmental impact assessmentSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione0105 earth and related environmental sciencesGeneral Environmental ScienceMetal formingRenewable Energy Sustainability and the Environmentbusiness.industryProcess Sustainability DiagramComparative analysisForming processesSustainable manufacturing Comparative analysis Forming Machining Process Sustainability DiagramBuilding and ConstructionMachiningManufacturing engineeringSustainabilitybusinessFormingSustainable manufacturing; Comparative analysis; Forming; Machining; Process Sustainability Diagram
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On the impact of recycling strategies on energy demand and CO2 emissions when manufacturing Al-based components

2016

Abstract The industrial world is facing the challenge of reducing emissions by means of energy- and resource-efficient manufacturing strategies. In some cases, the exerted emissions and the energy demands related to conventional manufacturing processes are not as intensive as those required to extract and produce the raw materials of which the workpieces are made. Therefore, the consciousness of the impact of material usage and the eco-informed choice of the end-of-life scenarios are both needed in view of sustainable development. Aim of this paper is to offer a contribution to a better understanding of the environmental impact of forming and machining processes, for the production of Al-ba…

0209 industrial biotechnologyEngineeringSustainable manufacturingSustainable manufacturing; Recycling; Aluminum; Machining; Forming.02 engineering and technology010501 environmental sciencesRaw material01 natural sciencesSustainable manufacturing; Recycling; Aluminum; Machining; Forming020901 industrial engineering & automationMachiningProduction (economics)Environmental impact assessmentRecyclingSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione0105 earth and related environmental sciencesGeneral Environmental ScienceSustainable developmentEnergy demandbusiness.industrySustainable manufacturingAluminium recyclingForming.Environmental economicsMachiningManufacturing engineeringGeneral Earth and Planetary SciencesbusinessFormingAluminum
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Numerical Study about the Influence of Wall Angle about Main Strains, Thickness Reduction and Forces on Single Point Incremental Forming Process

2016

Abstract The current paper aims to study, using numerical simulation, the influence of the wall angle on the single point incremental forming process. For the analysis there has been used the LS-Dyna software and three explicit dynamic analyses were run for three parts with wall angles of 450, 550 and 650. The factors taken into account are the main strains, the thickness reduction and the forces on three directions. The material data introduced into the simulation were determined based on an uniaxial traction test on an Instron 5587 testing machine and the Aramis system was used as optical extensometer.

0209 industrial biotechnologyMaterials scienceComputer simulationbusiness.industryForming processes020207 software engineering02 engineering and technologyGeneral MedicineStructural engineeringAutomationReduction (complexity)020901 industrial engineering & automationExplicit analysis0202 electrical engineering electronic engineering information engineeringSingle pointbusinessACTA Universitatis Cibiniensis
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Considerations Regarding the Industrial Implementation of Incremental Forming Process

2019

Incremental forming is a promising manufacturing process which allow the user to obtain sheet metal parts, in a flexible manner, without the use of a die. However, the industry is still reluctant to apply the process on an industrial scale. Several drawbacks of the process which hinder its industrial implementation are reviewed in the paper. Among them, the low accuracy of the parts and the low productivity of the process are considered. The lack of dedicated technological equipment and specific CAM software tools are also seen as major drawbacks. Moreover, the lack of any analytical tools to predict the plastic behaviour of the processed part and to predict the moment when it loses its int…

0209 industrial biotechnologyMaterials scienceMechanical EngineeringForming processes020207 software engineering02 engineering and technologyCondensed Matter PhysicsFuzzy logicManufacturing engineering020901 industrial engineering & automationMechanics of Materials0202 electrical engineering electronic engineering information engineeringGeneral Materials ScienceProductivityMaterials Science Forum
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Magnetic field-assisted single-point incremental forming with a magnet ball tool

2021

Abstract This paper describes magnetic field-assisted single-point incremental forming (M-SPIF) with a Nd-Fe-B magnet ball tool. In M-SPIF, the tool driven by magnetic force plastically deforms a sheet. The polarity of the magnet tool helps to make the magnetic force (i.e., forming force) more controllable. In creating a truncated cone, the direction of the magnetic force gradually points more outward as the process progresses, and material is forced outwards from the cone center, increasing thinning in M-SPIF, while the cone center remains undeformed in traditional SPIF. Moreover, M-SPIF creates less localized plastic strain than traditional SPIF while forming the desired geometry.

0209 industrial biotechnologyMaterials scienceMechanical EngineeringProcess (computing)Mechanical engineering02 engineering and technologyPlasticityIndustrial and Manufacturing EngineeringMagnetic field020303 mechanical engineering & transports020901 industrial engineering & automation0203 mechanical engineeringCone (topology)Incremental sheet forming Magnetic field Sheet metalMagnetBall (bearing)Single pointSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazionePolarity (mutual inductance)
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