An industry oriented strategy for the finite element simulation of paperboard creasing and folding

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Tipo di pubblicazione: Articolo su rivista
Tipologia MIUR: Contributo su Rivista > Articolo in rivista
Titolo: An industry oriented strategy for the finite element simulation of paperboard creasing and folding
Autori: Domaneschi, Marco; Perego, Umberto; Borgqvist, Eric; Borsari, Roberto
Autori di ateneo:
Tipo di referee: Esperti anonimi
Editore: Wiley
Numero di pagine: 26
ISSN: 1099-1522
Abstract: The numerical simulation of paperboard creasing and folding processes is of increasing importance for the Q3 design and production of safe and reliable packaging systems. The extreme material anisotropy and the complexity of these processes require however simulation capabilities which are seldom available in commercial codes. Several approaches have been proposed in the literature over the years, in most cases making use of non-linear material models developed ad hoc for this purpose. These models, some of which are very effective and accurate, are not in general available in commercial codes and are often based on the definition of a large number of parameters. In this paper, the possibility to obtain acceptable, first-hand simulation results using only features already available in a commercial code is investigated. An advanced continuum constitutive model, recently presented in the literature, has been used as a reference for tuning the model and for assessing its accuracy. It is shown how standard features, usually available in state-of-the-art commercial codes, can be employed to deal with the extreme material anisotropy, obtaining qualitatively good results in both the creasing and folding phases. The used standard model accounts for the extremely high anisotropy by means of embedded shell elements, playing the role of reinforcements in the fibre direction. The matrix is assumed to be isotropic and elastoplastic, with properties determined based on the behaviour in the thickness direction. The adopted plasticity model is a modified Drucker-Prager model with a cutoff on the tensile pressure side, available in the used commercial code. The procedure adopted for the identification of the small number of required material parameters is also discussed.
Data: 2017
Status: Pubblicato
Lingua della pubblicazione: Inglese
Parole chiave: paperboard, creasing, folding, creasing, folding, paperboard, creasing, folding, paperboard
Dipartimenti (originale): DISEG - Dipartimento di Ingegneria Strutturale, Edile e Geotecnica
Dipartimenti: DISEG - Dipartimento di Ingegneria Strutturale, Edile e Geotecnica
URL correlate:
    Area disciplinare: Area 08 - Ingegneria civile e Architettura > TECNICA DELLE COSTRUZIONI
    Data di deposito: 19 Mar 2017 02:21
    Data ultima modifica (IRIS): 28 Mar 2017 13:36:03
    Data inserimento (PORTO): 30 Mar 2017 02:04
    Numero Identificativo (DOI): 10.1002/pts.2298
    Link resolver URL: Link resolver link

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