Search results for "Single point incremental forming"

showing 3 items of 3 documents

Deep drawing versus incremental forming processes: A comparative cradle to gate analysis

2012

The evaluation and reduction of the environmental impact of manufacturing processes have become a crucial issue in the last few years, addressing the interest of industrial and academic research towards greener solutions and technologies. Reducing input materials and energy requirements has become an imperative action in the industrial practice. As a matter of fact, strong is the concern on lightweight solutions and technologies for sheet stamping operations especially in the automotive sector. However, the knowledge on how impactful such processes are is still poor. In this paper, a comparison between a traditional deep drawing and an single point incremental forming process is investigate…

Environmental impactEnergy consumptionSheet stampingSingle point incremental formingMaterial useSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
researchProduct

Influence of mechanical properties of the sheet material on formability in single point incremental forming

2004

Abstract New trends in sheet metal forming are rapidly developing and several new forming processes have been proposed to accomplish the goals of flexibility and cost reduction. Among them single point incremental forming operations, in which the final shape of the component is obtained by the relative movement of a simple and small punch with respect to the blank, appear quite promising. In the paper, material formability issues in incremental forming were studied. Some relevant correlations among material formability and other mechanical properties of the material were analysed. The FLD 0 value, i.e. the major strain at fracture in plane strain conditions, was determined for different mat…

Flexibility (anatomy)Materials scienceMechanical EngineeringMetallurgyForming processesBlankIndustrial and Manufacturing Engineeringmedicine.anatomical_structuresingle point incremental formingvisual_artFracture (geology)medicinevisual_art.visual_art_mediumFormabilityStatistical analysisSingle pointComposite materialSheet metal
researchProduct

RESHAPING AS NOVEL CIRCULAR ECONOMY STRATEGY FOR SHEET METAL BASED END-OF-LIFE COMPONENTS

2022

Making materials consumes about 21% of the global energy demand a specifically metals production, it accounts for about 8% of total global energy consumption. In fact, in the past few decades, the use of lightweight alloys has become increasingly widespread in many major industrial sectors thanks to the weight reduction associated with their applications. Most lightweight materials like aluminum alloys are characterized by high-energy demands primary production cycles that are responsible for a relevant share of the global CO2 emissions. Circular economy strategies such us longer life, more intense use, repair, product upgrades, modularity, remanufacturing, component re-use and open/closed …

Reshaping Single Point Incremental Forming Life Cycle Assessment Aluminum AlloySettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
researchProduct