The bridge commissioned by Maria Luigia to Eng. Antonio Cocconcelli and built between 1816 and 1821 over the Taro River (near Parma, Northern Italy), is a very important monument, both from a cultural and strategic point of view. This 20 arches masonry bridge reaches the length of nearly 600 meters and constitutes a very interesting case study, not only for the technical and structural issues related to its restoration and use (with increased traffic loads) but also for the role that geometry played in its history and stability. In this paper, a compared analysis on the historical ‘proportional theory’ and the constructive features of this ancient bridge is proposed with the final aim to show the importance of recovering “empiricism” in dealing with ancient monuments. Thanks to a high precision survey the realized structure has been compared to the original project, in order to detect the deformations suffered by the structure in time, thus applying the “historical monitoring” procedure to the monument. Hence, starting from the dimensional theory, a static analysis of the bridge is proposed by means of Mery’s graphic method, in order to investigate the structural safety level of the original project, also considering the current load conditions. A comparison with the static results obtained by means of limit analysis, finally shows the validity of ancient proportional theory, which can constitute a first qualitative method for structural validation of ancient masonry structures.
[1] J. Heyman, Structural Analysis: an historical approach, Cambridge University Press, Cambridge, 1998.
[2] G.B. Milani, L’ossatura murale, Crudo & C., Turin, Italy, 1920.
[3] S. Huerta, Arcos, bovedas y cupolas: Geometria y equilibrio en el calculo tradicional de estructuras de fabrica, Tapa Blanda, 2004
[4] S. Sanabria, The mechanization of design in the 16th century: The structural formulae of Rodrigo Gil de Hontañón, Journal of the Society of Architectural Historians, 41, 1981, pp. 281-293
[5] F. Blondel, Cours d’architecture enseigné dans l’Académie Royale d’Architecture, Paris, 1675, parts II-V
[6] E.M. Gauthey, Traité de la construction des ponts, Firmin Didot, Paris 1809
[7] A. Cocconcelli, Descrizione dei progetti e lavori per l'innalzamento dei due ponti sul Taro e sulla Trebbia, Parma, 1825
[8] N. Bruno, E. Coïsson, F. Diotri, L. Ferrari, S. Mikolajewska, U. Morra di Cella, R. Roncella, A. Zerbi, History, geometry, structure: interdisciplinary analysis of a historical bridge. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2019, Vol XLII-2/W11, pp.317-323.
[9] F. Derand, L’Architecture des voûtes, ou l’Art des traits et coupe des voûtes... par le R.P. François Derand, Sebastian Cramoisy, Paris 1643
[10] J. Mesqui, Chateaux at encentes de la France médiévale: de la défense à la résidence, Editions A&J Picard, Paris, 2013
[11] S. Huerta, Galileo was wrong: the Geometrical design of masonry arches, Nexus Network Journal, 8, 2006, 2, pp. 25-52
[12] A. Brencich, D. Sabia, Experimental identification of a multi-span masonry bridge: The Tanaro Bridge, Constr. Build. Mater., 22, 2008, pp.2087-2099
[13] D.V. Oliveira, P.B. Lourenco and C. Lemos, Geometric issues and ultimate load capacity of masonry arch bridges form the northwest Iberian Peninsula, Eng. Struct., 32, 2010, pp. 381-394.
[14] J. Heyman, The Masonry Arch, Ellis Horwood, Chichester, 1982.
[15] S. Huerta S. Mechanics of masonry vaults: The equilibrium approach, Historical Constructions, PB Lourenço, P Roca (Eds.), Guimarães, 2001.
Published on 30/11/21
Submitted on 30/11/21
Volume History of construction and building technology, 2021
DOI: 10.23967/sahc.2021.116
Licence: CC BY-NC-SA license
Are you one of the authors of this document?