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Optimal design of preform geometry and tribological conditions in can forming (2005)

Rodic, Tomaž ; Cukjati, Domen ; Grešovnik, Igor

Bradford : Emerald

Engineering computations 22 (2005), S. 972-979

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ISSN: 0264-4401

Source: Emerald Fulltext Archive Database 1994-2005

Topics: Technology

Notes: Purpose - To present numerical techniques and results of finite element based optimisation of material forming process for production of shaped food and beverage cans. Design/methodology/approach - The objectives were achieved by combining finite element system ELFEN with optimisation shell INVERSE. These computer systems were applied to optimisation of preform design, optimisation of tribological conditions between can body and individual segments of the tooling system as well as to optimisation of kinematics of the tooling segments. Findings - Numerical analyses show that preform design offers the highest optimisation potential. For preform shape optimisation a very efficient algorithm has been developed which enables effective minimisation of the objective function. Originality/value - The paper identifies three main technological possibilities to optimise production process for shaped cans and quantifies the effects of each option. It also identifies the most efficient optimisation techniques to improve the investigated process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1108/02644400510626514

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Shape optimization of two-phase inelastic material with microstructure (2005)

Ibrahimbegovic, Adnan ; Grešovnik, Igor ; Markovic, Damijan ; [et al.]

Bradford : Emerald

Engineering computations 22 (2005), S. 605-645

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ISSN: 0264-4401

Source: Emerald Fulltext Archive Database 1994-2005

Topics: Technology

Notes: Purpose - Proposes a methodology for dealing with the problem of designing a material microstructure the best suitable for a given goal. Design/methodology/approach - The chosen model problem for the design is a two-phase material, with one phase related to plasticity and another to damage. The design problem is set in terms of shape optimization of the interface between two phases. The solution procedure proposed herein is compatible with the multi-scale interpretation of the inelastic mechanisms characterizing the chosen two-phase material and it is thus capable of providing the optimal form of the material microstructure. The original approach based upon a simultaneous/sequential solution procedure for the coupled mechanics-optimization problem is proposed. Findings - Several numerical examples show a very satisfying performance of the proposed methodology. The latter can easily be adapted to other choices of design variables. Originality/value - Confirms that one can thus achieve the optimal design of the nonlinear behavior of a given two-phase material with respect to the goal specified by a cost function, by computing the optimal form of the shape interface between the phases.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1108/02644400510603032

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