[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/scs.2017.25.1.045

Reliability analysis of the nonlinear behaviour of stainless steel cover-plate joints

Averseng, Julien (LMGC, Universite Montpellier)
Bouchair, Abdelhamid (Universite Clermont Auvergne, Institut Pascal)
Chateauneuf, Alaa (Universite Clermont Auvergne, Institut Pascal)

Publication Information

Steel and Composite Structures / v.25, no.1, 2017 , pp. 45-55 More about this Journal

Abstract

Stainless steel exhibits high ductility and strain hardening capacity in comparison with carbon steel widely used in constructions. To analyze the particular behaviour of stainless steel cover-plate joints, an experimental study was conducted. It showed large ductility and complex failure modes of the joints. A non-linear finite element model was developed to predict the main parameters influencing the behaviour of these joints. The results of this deterministic model allow us to built a meta-model by using the quadratic response surface method, in order to allow for efficient reliability analysis. This analysis is then applied to the assessment of design formulae in the currently used codes of practice. The reliability analysis has shown that the stainless steel joint design according to Eurocodes leads to much lower failure probabilities than the Eurocodes target reliability for carbon steel, which incites revising the resisting model evaluation and consequently reducing stainless steel joint costs. This approach can be used as a basis to evaluate a wide range of steel joints involving complex failure modes, particularly bearing failure.

Keywords

stainless steel joints; Eurocode 3; finite element modelling; reliability index; elastic-plastic analysis; bearing failure mode;

Citations & Related Records

Times Cited By KSCI : 4 (Citation Analysis)

Reference
Cited By KSCI

1	Gardner, L. (2005), "The use of stainless steel in structures", Prog. Struct. Eng. Mater., 7(2), 45-55. DOI
2	Gardner, L. and Baddoo, N.R. (2006), "Fire testing and design of stainless steel structures", J. Construct. Steel Res., 62, 532-543. DOI
3	Hassan, M.M., Ramadan, H., Abdel-Mooty, M. and Mourad, S.A. (2015), "Experimental and numerical study of one-sided branch plate-to-circular hollow section connections", Steel Compos. Struct., Int. J., 19(4), 877-895. DOI
4	Kim, H.J. and Yura, J.A. (1999), "The effect of ultimate-to-yield ratio on the bearing strength of bolted connections", J. Construct. Steel Res., 49, 255-269. DOI
5	Kim, T.S., Kuwamura, H. and Choc, T.J. (2008), "A parametric study on ultimate strength of single shear bolted connections with curling", Thin-Wall. Struct., 46, 38-53. DOI
6	Soares, R., Chateauneuf, A., Venturini, W.S. and Lemaire, M. (2002), "Reliability analysis of nonlinear reinforced concrete frames using the response surface method", Reliabil. Eng. Syst. Safety, 75(1), 1-16. DOI
7	Kouhi, J., Talja, A., Salmi, P. and Ala-Outinen, T. (2000), "Current R&D work on the use of stainless steel in construction in Finland", J. Construct. Steel Res., 54, 31-50. DOI
8	Kozlowski, A. (2016), "Component method model for predicting the moment resistance, stiffness and rotation capacity of minor axis composite seat and web site plate joints", Steel Compos. Struct., Int. J., 20(3), 469-486. DOI
9	Kulak, G.L., Fisher, J.W. and Struik, J.H.A. (2001), Guide to Design Criteria for Bolted and Riveted Joints, (2nd Edition), AISC/RCSC, 352 p.
10	Lemaire, M., Chateauneuf, A. and Mitteau, J.-C. (2009), Structural reliability, John Wiley & Sons Ltd., ISBN 978-184821-082-0, 488 p.
11	Lip, H.T. and Mehmet, E.U. (2015), "Ultimate shear-out capacities of structural-steel bolted connections", J. Struct. Eng., 141(6), 9 p.
12	Melchers, R.E. (2007), Structural reliability and existing infrastructure - Some research issues. Aspects of Structural Reliability, editors: Faber, Vrouwenvelder, Zilch, Herbert Utz Verlag, Munchen, Germany.
13	Moze, P., Beg, D. and Lopatic, J. (2007), "Net cross-section design resistance and local ductility of elements made of high strength steel", J. Construct. Steel Res., 63, 1431-1441. DOI
14	Qin, Y. and Chen, Z. (2016), "Research on cold-formed steel connections: A state-of-the-art review", Steel Compos. Struct., Int. J., 20(1), 21-41. DOI
15	Van Den Berg, G.J. (2000), "The effect of the non-linear stressstrain behaviour of stainless steels on member capacity", J. Construct. Steel Res., 54, 135-160. DOI
16	Vatansever, C. and Berman, J.W. (2015), "Analytical investigation of thin steel plate shear walls with screwed infill plate", Steel Compos. Struct., Int. J., 19(5), 1145-1165. DOI
17	Neves, R., Chateauneuf, A., Venturini, W. and Lemaire, M. (2006), "Reliability analysis of reinforced concrete grids with nonlinear material behaviour", Reliabil. Eng. Syst. Safety, 91(6), 735-744. DOI
18	Nowak, A.J. (1994), Structural Reliability Analysis and Prediction, John Wiley and Sons, NY, USA.
19	Salih, E.L., Gardner, L. and Nethercot, D.A. (2010), "Numerical investigation of net section failure in stainless steel bolted connections", J. Construct. Steel Res., 66(12), 1455-1466. DOI
20	Salih, E.L., Gardner, L. and Nethercot, D.A. (2011), "Bearing failure in stainless steel bolted connections", Eng. Struct., 33, 549-562. DOI
21	Rasmussen, K.J.R. (2003), "Full-range stress-strain curves for stainless steel alloys", J. Construct. Steel Res., 59(1), 47-61. DOI
22	Bouchair, A. (2005), "Resistance and ductility of stainless steel bolted connections", Proceedings of the final conference COSTC12 Improvement of Buildings Structural Quality by New Technologies, (Shaur et al. Edition), Innsbruck, Austria, January, pp. 311-321.
23	Bouchair, A., Averseng, J. and Ryan, I. (2007), "Analysis of bearing-type stainless steel bolted joints", Proceedings of the 3rd International Conference on Structural Engineering, Mechanics and Computation (SEMC 2007), Cape Town, South Africa, September, pp. 456-457.
24	Bouchair, A., Averseng, J. and Abidelah, A. (2008), "Analysis of the behaviour of stainless steel bolted connections", J. Construct. Steel Res., 64, 1264-1274. DOI
25	Burgan, B.A., Baddoo, N.R. and Gilsenan, K.A. (2000), "Structural design of stainless steel members-comparison between Eurocode 3 Part 1.4 and test results", J. Construct. Steel Res., 54, 51-73. DOI
26	EN1993-1-4 (2006), Eurocode 3-Design of Steel Structures, Part 1.4, General Rules and Supplementary Rules for Stainless Steels; CEN (European Committee for Standardization, Brussels, Belgium.
27	Cast3M (2015), http://www-cast3m.cea.fr/, CEA (French Atomic Energy Commission), Saclay, France.
28	Ditlevsen, O. and Madsen, H.O. (1996), Structural Reliability Methods, John Wiley & Sons Inc., 1996-06, ISBN 0471960861, 384 p.
29	EN1993-1-8 (2005), Eurocode 3-Design of Steel Structures, Part 1.8, Design of Joints; CEN (European Committee for Standardization, Brussels, Belgium.
30	EuroInox (2006), Design Manual for Structural Stainless Steel; (3rd Edition), EuroInox, ISBN 2-87997-204-3.
31	Fan, L., Rondal, J. and Cescotto, S. (1997), "Finite element modelling of single lap screw connections in steel sheeting under static shear", Thin-Wall. Struct., 27(2), 165-185. DOI
32	Alkhatab, Z. and Bouchair, A. (2007), "Analysis of T-stub strengthened by backing-plates with regard to Eurocode 3", J. Construct. Steel Res., 63(12), 1603-1615. DOI
33	Averseng, J. and Bouchair, A. (2009), "Modelling and analysis of bolted stainless steel cover plate joints", Eur. J. Environ. Civil Eng. (EJECE), 13(4), 443-456. DOI

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