Abstract
Due to the large number of masonry bridges in the European Infrastructural network, the maintenance and retrofitting of this kind of bridges is an up-to-date issue of Structural Engineering. In this paper, the Mechanics of masonry bridges is discussed starting from the definition of load carrying structure, which is much wider than the arch itself. Once proper similarity criteria for reduced scale laboratory testing are discussed, the results of some tests are used to outline the basic features of the mechanical response of masonry bridges. Arch-Fill interaction turns out to be crucial for the l.c.c. of the bridge since it is responsible also for the span of the structural arch. The concept of Limit Load is discussed, which is not so trivial to be defined as usually assumed since it does not correspond to the Ultimate Load that activates a collapse mechanism. Once the basic issues of the dynamic and seismic response of masonry bridges are discussed, showing unexpected good seismic performances of these massive bridges, new trends in retrofitting of the bridges are discussed.
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References
Orban, Z.: UIC project on assessment, inspection and maintenance of masonry arch railway bridges. In: Lourenço, P., Oliveira, D., Portela, A. (eds.) 5th International Conference on Arch Bridges, ARCH 2007, pp. 3–12. University of Minho, Guimaraes (2007)
Sustainable bridges - results from a european integrated research project. In: Bien, J., Elfgren, L., Olofsson, J. (eds.) Dolnoslaskie Wydawnictwo Edukacyjne, Wroclaw, 490Â pp. (2007)
Melbourne, C., Gilbert, M., Wagstaff, W.: The behavior of multi-span arch bridges. In: Melbrourne, C. (ed.) 1st International Arch Bridge Conference, ARCH 1995, Thomas Telford, London, pp. 489–497 (1995)
Melbourne, C., Gilbert, M.: The behavior of multi-ring brickwork arch bridges. The Struct. Eng. 73, 39–47 (1995)
Hughes, T.G., Davies, M.C.R., Taunton, P.R.: Small scale modelling of brickwork arch bridges using a centrifuge. Proc. Inst. Civ. Eng. Struct. Build. 128(1), 49–58 (1998)
Heyman, J.: The Masonry Arch. Ellis Horwood, Chichester (1982)
Brencich, A., Riotto G.: Vault-fill interaction on masonry bridges: an experimental approach – 1: statics. In: Bien, J. (ed.) 8th International Conference on Arch Bridges, ARCH 2016, pp. 711–720 (2016)
Brencich, A., Cassini, G., Pera, D.: Load bearing structure of masonry bridges. In: Bien, J. (ed.) 8th International Conference on Arch Bridges, ARCH 2016, Wroclaw , pp. 767–774 (2016)
Department of Transport: The assessment of highway bridges and structures. (a) Department of Standard BS 21/93, (b) Department of Advice Note BA 16/93 (1993)
Harvey, W.: A Guide to the Assessment of Masonry Arch Railway Bridges. UIC (International Railway Union), I/03/U/285 Masonry Arch Bridges Project, Report, July 2007
Crisfield, M.A.: A finite element computer program for the analysis of masonry arches. Transport and Road Research Laboratory, Department of Transport, Report LR 1115, TRL, Crowthorne (1984)
Crisfield, M.A.: Finite element and mechanism methods for the analysis of masonry and brickwork arches. Transport and Road Research Laboratory, Department of Transport, Research Report 19. TRL, Crowthorne (1985)
Bridle, R.J., Hughes, T.G.: An energy method for arch bridge analysis. Proc. Inst. Civ. Eng. 89, 375–385 (1990)
Choo, B.S., Coutie, M.G., Gong, N.G.: Finite-element analysis of masonry arch bridges using tapered elements. Proc. Inst. Civ. Engrs. 91, 755–770 (1991)
Molins, C., Roca, P.: Capacity of masonry arches and spatial frames. J. Struct. Eng. 124, 653–663 (1998)
Brencich, A., De Francesco, U.: Assessment of multi-span masonry arch bridges. Part I: a simplified approach. J. Bridge Eng. ASCE 9(6), 590–598 (2004)
Boothby, T.E., Domalik, D.E., Dalal, V.A.: Service load response of masonry arch bridges. J. Struct. Eng. ASCE 124(1), 17–23 (1998)
Owen, D.R.J., Peric, D., Petrinic, N., Brookes, C.L., James, P.J.: Finite/discrete element models for assessment and repair of masonry structures. In: Sinopoli, A. (ed.) Proceedings of 2nd International Conference on Arch Bridges, Balkema, Rotterdam, pp. 195–204 (1998)
Lourenço, P.B., Rots, J.G.: An anisotropic failure criterion for masonry suitable for numerical implementation. Mas. Soc. J. 18, 11–18 (2000)
Fanning, P.J., Boothby, T.E., Roberts, B.J.: Longitudinal and transverse effects in masonry arch assessment. Constr. Build. Mat. 15, 51–60 (2001)
Cavicchi, A., Gambarotta, L.: Collapse analysis of mansory bridges taking into account arch-fill interaction. Eng. Struct. 27, 605–615 (2005)
Fanning, P.J., Sobczak, L., Boothby, T.E., Salomoni, V.: Load testing and model simulations for a stone arch bridge. Bridge Struct.: Ass. Des. Constr. 1(4), 367–378 (2005)
Milani, G., Lourenço, P.B.: 3D non-linear behavior of masonry arch bridges. Comput. Struct. 110, 133–150 (2012)
Costa, C., Ribeiro, D., Jorge, P., Silva, R., Arêde, A., Calçada, R.: Calibration of the numerical model of a stone masonry railway bridge based on experimentally identified modal parameters. Eng. Struct. 123, 354–371 (2016)
Aydin, A.C., Özkaya, S.G.: The finite element analysis of collapse loads of single-spanned historic masonry arch bridges (Ordu, Sarpdere Bridge). Eng. Fail. Anal. 84, 131–138 (2018)
Weber, W.K.: Die gewölbte Eisenbahnbrücke mit einer Öffnung. Begriffserhlärungen, analytische Fassung der Umrisslinien und ein erweitertes Hybridverfahren zur Berechnung der oberen Schranke ihrer Grenstragfähigkeit, validiert durch einen Grossversuch. Dissertation, Lehrstuhl für Massivbau der Technischen Universität München (1999)
Barenblatt, G.I.: Dimensional Analysis. Gordon and Breach Publishers, London (1987)
Brencich, A., Corradi, C., Gambarotta, L.: Eccentrically loaded brickwork: theoretical and experimental results. Eng. Str. 30, 3629–3643 (2008)
Royles, R., Hendry, A.W.: Model tests on masonry arches. Proc. Inst. Civ. Engrs. 91, 299–321 (1991)
Brencich, A., Pera, D.: A new retrofitting technique for masonry arch bridges In: Bien, J. (ed.) 8th International Conference on Arch Bridges, ARCH 2016, Wroclaw, pp. 751–758 (2016)
UIC: UIC 778–3, 2nd Edition, Recommendations for the Inspection, Assessment and Maintenance of Masonry Arch Bridges (2011)
Brencich, A., Sabia, D.: Experimental identification of a multi-span masonry bridge: the Tanaro Bridge. Constr. Buil. Mater. 22, 2087–2099 (2008)
RING 3.2 Users Manual: LimitState Ltd., Sheffiled, U.K. (2016)
Cavicchi, A., Gambarotta, L.: Two-dimensional finite element upper bound limit analysis of masonry bridges. Comput. Struct. 84, 2316–2328 (2006)
Page, J.: Masonry Arch Bridges, State-of-the-Art-Review. T.R.L., D.o.T., HMSO, London (1993)
Darby, J.: Repair, strengthening and replacement. In: Ryall, M.J., Parke, G.A.R., Harding, J.E. (eds.) Manual of Bridge Engineering, Thomas Telford (2000)
Brencich, A., Colla, C.: The influence of construction technology on the mechanics of masonry railway bridges. In: Forde, M. (ed.) 5th International Conference and Exhibition Railway Engineering (2002)
Brencich, A., Pera, D.: A low-cost retrofitting technique for masonry arch bridges: experimental validation. In: Proceedings of the IABSE Symposium, Guimaraes, March 2019, pp. 37–45. IABSE, Zurich (2019)
Modena, C., Tecchio, G., Pellegrino, C., da Porto, F., Donà , M., Zampieri, P., Zanini, M.A.: Reinforced concrete and masonry arch bridges in seismic areas: typical deficiencies and retrofitting strategies. Struct. Infr. Eng. 11(4), 415–442 (2015)
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Brencich, A. (2020). Masonry Bridges and Viaducts: Testing, Mechanics, Retrofitting Towards an Extended Life. In: Arêde, A., Costa, C. (eds) Proceedings of ARCH 2019. ARCH 2019. Structural Integrity, vol 11. Springer, Cham. https://doi.org/10.1007/978-3-030-29227-0_1
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