Stainless steel sandwich beams with a corrugated core or a Y-frame core have been tested in three-point bending and the role of the face-sheets has been assessed by considering beams with (i) front-and-back faces present, and (ii) front face present but back face absent. A fair comparison between competing beam designs is made on an equal mass basis by doubling the front face thickness when the back face is absent. The quasi-static, three-point bending responses were measured under simply supported and clamped boundary conditions. For both end conditions and for both types of core, the sandwich beams containing front-and-back faces underwent indentation beneath the mid-span roller whereas Brazier plastic buckling was responsible for the collapse of sandwich beams absent the back face. Three-dimensional finite element (FE) predictions were in good agreement with the measured responses and gave additional insight into the deformation modes. The FE method was also used to study the effect of (i) mass distribution between core and face-sheets and (ii) beam span upon the collapse response of a simply supported sandwich panel. Sandwich panels of short span are plastically indented by the mid-span roller and the panels absent a back face are stronger than those with front-and-back faces present. In contrast, sandwich panels of long span undergo Brazier plastic buckling, and the presence of a back face strengthens the panel.

References

1.
Burgherr
,
P.
, 2007,
“In-Depth Analysis of Accidental Oil Spills From Tankers in the Context of Global Spill Trends From all Sources,”
J. Hazard. Mater.
,
140
, pp.
245
256
.
2.
Paik
,
J. K.
, 2003,
“Innovative Structural Designs of Tankers Against Ship Collisions and Grounding: A Recent State-of-the-art Review,”
Mar. Technol.
,
40
(
1
), pp.
25
33
.
3.
Wevers
,
L. J.
, and
Vredeveldt
,
A. W.
, 1999,
“Full Scale Ship Collision Experiments 1998,”
Technical Report No. 98-CMC-R1725, TNO, Delft, Netherlands.
4.
van de Graaf
,
B.
,
Broekhuijsen
,
J.
,
Vredeveldt
,
A. W.
, and
van de Ven
,
A.
, 2004,
“Construction Aspects for the Schelde Y-shape Crashworthy Hull Structure,”
Proceedings of the 3rd International Conference on Collision and Grounding of Ships
, Izu, Japan, pp.
229
233
.
5.
Rubino
,
V.
,
Deshpande
,
V. S.
, and
Fleck
,
N. A.
, 2008,
“The Collapse Response of Sandwich Beams With a Y-frame Core Subjected to Distributed and Local Loading,”
Int. J. Mech. Sci.
,
50
(
2
), pp.
233
246
.
6.
Côté
,
F.
,
Deshpande
,
V. S.
,
Fleck
,
N. A.
, and
Evans
,
A. G.
, 2006,
“The Compressive and Shear Responses of Corrugated and Diamond Lattice Materials,”
Int. J. Solids Struct.
,
43
(
20
), pp.
6220
6242
.
7.
Valdevit
,
L.
,
Wei
,
Z.
,
Mercer
,
Z.
,
Zok
,
F. W.
, and
Evans
,
A. G.
, 2006,
“Structural Performance of Near-Optimal Sandwich Panels With Corrugated Cores,”
Int. J. Solids Struct.
,
43
(
16
), pp.
4888
4905
.
8.
Rubino
,
V.
,
Deshpande
,
V. S.
, and
Fleck
,
N. A.
, 2010,
“The Three-Point Bending of the Y-frame and Corrugated Core Sandwich Beams,”
Int. J. Mech. Sci.
,
52
(
3
), pp.
485
494
.
9.
Broekhuijsen
,
J.
, 2003,
“Ductile Failure Criteria and Energy Absorption Capacity of the Y-shape Test Section,”
M. Sc. thesis,
TU Delft, Delft
,
The Netherlands
.
10.
Dassault Système Simulia Corp., 2009,
Abaqus Analysis User’s Manual
, Version 6.9, Providence, RI.
11.
Brazier
,
L. G.
, 1927,
“On the Flexure of Thin Cylindrical Shells and Other ‘Thin’ Sections,”
Proc. R. Soc. A
,
116
, pp.
104
114
.
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