Material Formability and Coil Design in Electromagnetic Forming

Golovashchenko, Sergey F.

doi:10.1007/s11665-007-9058-7

Cited by 148 publications

(51 citation statements)

References 5 publications

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“…This indicates that in case of structuring by EMF the forming limit of the material can be increased compared to alternative and more conventional techniques, an effect that is well known from previous publications as e.g. [9].…”

Section: Achieved Structure Depthsupporting

confidence: 53%

“…In addition to the mere substitution of conventional materials by typical lightweight ones such as aluminium and magnesium alloys, high-strength steels, and plastics, also the component design offers enormous weight saving potential [7][8][9]. A brief review of weight reduction via adapted part design starting from early and more theoretical approaches [10] up to current work [11] can be found in reference [12].…”

Section: State Of the Art 21 Lightweight Constructionmentioning

confidence: 99%

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Structuring by electromagnetic forming and by forming with an elastomer punch as a tool for component optimisation regarding mechanical stiffness and acoustic performance

et al. 2015

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-Ecological and economic reasons are forcing industry to improve efficiency and to save energy and resources. Especially for the automotive and transport industry -but also for all other industrial branches dealing with accelerated masses -lightweight design is a key issue for achieving this goal. In current product designs, insufficient geometric stiffness of the part often prohibits exploiting the full potential of weight reduction offered by modern materials. Ideally adapting the geometry to the load profile by implementing appropriate structures frequently allows wall thickness and weight reduction. At the same time, the acoustic properties can be improved in many cases, because the natural frequency of the modified structure is higher compared to a conventionally-designed structure, thus leading to a reduction of awkward low frequency noise (humming). To enable a target-oriented design, the influence of structures manufactured by elastomer tools and by electromagnetic forming (EMF) was analysed systematically. Knowledge about the influence of the structuring technology and the process parameters on the resulting structure properties and the part performance allows conclusions regarding the optimisation of the part functionality via a suitable selection and design of the process.

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Section: Achieved Structure Depthsupporting

confidence: 53%

Section: State Of the Art 21 Lightweight Constructionmentioning

confidence: 99%

Structuring by electromagnetic forming and by forming with an elastomer punch as a tool for component optimisation regarding mechanical stiffness and acoustic performance

et al. 2015

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“…Seth et al (2005) experimentally measured the impact velocity of steel sheets on a steel punch (though strains were still measured by the etched-circle technique (Taylor, 1988) and attributed the enhanced formability to inertial stabilization and compressive stresses generated during impact. Other authors, such as Golovashchenko et al (2003), Golovashchenko and Mamutov (2005) and Golovashchenko (2007), determined only the post-mortem strain (via the circle-etching technique) in EMF and EHF experiments and attributed improved sheet formability to high strain-rates and high-rate impact with the tooling even though the strain and strain-rate history of the deforming sheet were unknown. Imbert et al (2005a) numerically modeled EMF of Al alloy sheet and concluded that high-strain rates (estimated to be on the order of 30,000-69,000/s in the locations where sheet impacts the die) and inertial stabilization alone could not be responsible for enhanced formability; instead, high through-thickness compressive and shear stresses and strains as well as non-linear strain-paths were the responsible factors.…”

Section: Introductionmentioning

confidence: 99%

Experimental characterization of sheet metal deformation during electro-hydraulic forming

Rohatgi

Stephens

Soulami

et al. 2011

Journal of Materials Processing Technology

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“…Thus, EMF allows deeper structures compared to forming with elastomer tools, indicating an extended material formability for this high velocity forming process, an effect that is well known from previous publications as e.g. [9].…”

Section: Properties Of Structures Formed By Emfmentioning

confidence: 53%

Optimisation of component performance via structuring

Psyk

Kůrka

Kimme

et al. 2015

MATEC Web of Conferences

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Abstract. Ecological and economic reasons are forcing industry to improve efficiency and to save energy and resources by reducing product weight. In current product designs often insufficient geometric stiffness of the part prohibits exploiting the full potential of weight reduction offered by modern materials. Ideally adapting the geometry to the load profile by implementing appropriate structures often allows a wall thickness and weight reduction and improves the acoustic properties. To enable a target-oriented design, structures manufactured by working media and working energy based forming technologies were analysed.

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Material Formability and Coil Design in Electromagnetic Forming

Cited by 148 publications

References 5 publications

Structuring by electromagnetic forming and by forming with an elastomer punch as a tool for component optimisation regarding mechanical stiffness and acoustic performance

Structuring by electromagnetic forming and by forming with an elastomer punch as a tool for component optimisation regarding mechanical stiffness and acoustic performance

Experimental characterization of sheet metal deformation during electro-hydraulic forming

Optimisation of component performance via structuring

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