Elastic design of
sandwich panels made up of composite materials 1) BARDELLA L., GENNA F.
(1999). Analisi delle proprietà chimiche, fisiche e micromeccaniche di un
materiale composito in sandwich di schiuma sintattica e fibra di vetro
preimpregnata. Analisi di alcune caratteristiche elastiche di un sandwich in "sandwich-fabric panel"
e schiuma sintattica (in Italian). Technical Report n.8/1999,
Department of Civil Engineering, University of Brescia. 2) BARDELLA L., GENNA F. (2000).
Approximate computation of the elastic shear stiffness of a sandwich beam. GIMC 2000 -
XIII Italian Conference on Computational Mechanics, Brescia (Italy). 13-15 November. (pp.
218-226). ISBN: 88-86524-47-1. 4) BARDELLA
L., GENNA F. (2001).
Elastic design of syntactic foamed sandwiches obtained by filling of three-dimensional
sandwich-fabric panels. INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES.
vol. 38/2, pp. 307-333 ISSN: 0020-7683.
DOI
5) BARDELLA L., MINELLI M. (2007).
On the accurate computation of the deflection of sandwich beams.
AIMETA 2007: XVIII Italian Conference on Theoretical and Applied Mechanics.
Brescia (Italy). 11-14 September. Proceedings edited by
A. Carini, G. Mimmi, R. Piva. ISBN: 978-88-89720-69-1.
6) BARDELLA L. (2008). Reliability of First-Order Shear Deformation models for sandwich beams.
JOURNAL OF MECHANICS OF MATERIALS AND STRUCTURES. vol. 3/7, pp. 1187-1206 ISSN: 1559-3959.
DOI OpenAccess
7) BARDELLA L., TONELLI D., MINELLI M. (2009).
How to choose an analytical model for the stress state of sandwich beams under bending.
AIMETA 2009: XIX Italian Conference on Theoretical and Applied Mechanics.
Ancona (Italy). 14-17 September. Proceedings edited by
S. Lenci. ISBN: 978-88-96378-08-3.
8) BARDELLA L., TONELLI D. (2012).
Explicit analytic solutions for the accurate evaluation of the shear stresses in sandwich beams.
JOURNAL OF ENGINEERING MECHANICS, Transactions of ASCE. vol. 138/5, pp. 502-507 ISSN: 0733-9399.
DOI
,
Erratum
J. ENG. MECH. vol. 138/10, p. 1302.
9) TONELLI D., BARDELLA L., MINELLI M. (2012).
A critical evaluation of mechanical models for sandwich beams.
JOURNAL OF SANDWICH STRUCTURES AND MATERIALS. vol. 14/6, pp. 629-654 ISSN: 1099-6362.
DOI
10) BARDELLA L., MATTEI O. (2014).
On explicit analytic solutions for the accurate evaluation of the shear stress in sandwich beams
with a clamped end.
COMPOSITE STRUCTURES. vol. 112, pp. 157-168 ISSN: 0263-8223.
DOI
,
Corrigendum
COMPOS. STRUCT. vol. 116, p. 849.
11) BARDELLA L., PATERLINI L., LERONNI A. (2014).
Accurate modelling of the linear elastic flexure of composite beams warped by midlayer slip,
with emphasis on concrete-timber systems.
INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES. vol. 87, pp. 268-280 ISSN: 0020-7403.
DOI
12) BARDELLA L., MATTEI O. (2014).
On explicit analytic solutions for the accurate evaluation of the shear stress in sandwich beams
with a clamped end.
11th World Congress on Computational Mechanics (WCCM XI) and
5th European Conference on Computational Mechanics (ECCM V),
Barcelona (Spain). 20–25 July.
13) MATTEI O., BARDELLA L. (2016).
A structural model for plane sandwich beams including transverse core deformability and arbitrary boundary conditions.
EUROPEAN JOURNAL OF MECHANICS A-SOLIDS. vol. 58, pp. 172-186 ISSN: 0997-7538.
DOI
14) PANTEGHINI A., BARDELLA L. (2017).
Structural theory and finite element modelling of linear elastic sandwich beams subject to severe boundary conditions.
EUROPEAN JOURNAL OF MECHANICS A-SOLIDS. vol. 61, pp. 393-407 ISSN: 0997-7538.
DOI
15) LERONNI A., BARDELLA L., VIVIANI L. (2018).
Influence of shear on sensing and energy harvesting of ionic polymer metal composites.
ESMC 2018 - 10th European Solid Mechanics Conference,
Bologna (Italy). 2-6 July.
>
16) LERONNI A., BARDELLA L., VIVIANI L. (2018).
Influence of shear and boundary conditions on the electrochemomechanics of ionic
polymer metal composites.
XXII Italian Conference on Computational Mechanics and IX Meeting of the AIMETA Materials Group
(GIMC-GMA 2018), Ferrara (IT). 13-14 September.
17) LERONNI A., BARDELLA L. (2019).
Influence of shear on sensing of ionic polymer metal composites.
EUROPEAN JOURNAL OF MECHANICS A-SOLIDS. vol. 77, 103750 (17 pages) ISSN: 0997-7538.
DOI
18) BOLDINI A., BARDELLA L., PORFIRI M. (2020).
On structural models for ionic polymer metal composites. (SPIE Best Student Paper Finalist)
Electroactive Polymer Actuators and Devices (EAPAD) XXII Conference.
Proceedings edited by Yoseph Bar-Cohen.
Proc. Society of Photo-Optical Instrumentation Engineers (SPIE) 11375,
EAPAD 113751B (April 22, 2020).
DOI
19) BOLDINI A., BARDELLA L., PORFIRI M. (2020).
On structural theories for ionic polymer metal composites:
balancing between accuracy and simplicity.
JOURNAL OF ELASTICITY. vol. 141/2, pp. 227–272 ISSN: 0374-3535.
DOI
20) BARDELLA L. (2023). Discussion on
the paper by Schöftner, J., "A verified analytical sandwich beam model for soft and hard cores:
comparison to existing analytical models and finite element calculations",
Acta Mech, 234, 2543–2560 (2023).
ACTA MECHANICA. vol. 234/11, pp. 5967-5972 ISSN: 0001-5970.
DOI
view-only full text
21) BARDELLA L., PANTEGHINI A. (2023).
Electrochemo-poromechanics of ionic polymer metal composites: Identification of the model parameters.
SMART MATERIALS AND STRUCTURES. vol. 32/11, 115031 (19 pages) ISSN: 0964-1726.
DOI OpenAccess
22) BARDELLA L. (2024).
Explicit analytical solutions for the full plane-stress field in sandwich beams under flexure governed by zigzag warping.
COMPOSITE STRUCTURES. vol. 329, 117754 (9 pages) ISSN: 0263-8223.
DOI OpenAccess
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