Open Access
Issue
MATEC Web Conf.
Volume 207, 2018
International Conference on Metal Material Processes and Manufacturing (ICMMPM 2018)
Article Number 01002
Number of page(s) 5
Section Civil Engineering
DOI https://doi.org/10.1051/matecconf/201820701002
Published online 18 September 2018
  1. S. Galassi, L. Dipasquale, N. Ruggieri, G. Tempesta, Andalusian timber roof structure in Chefchaouen, Northern Morocco: construction technique and structural behavior, J. Archit. Eng. 24, 3, 04018012 (2018) 10.1061/(ASCE)AE.1943-5568.0000315 [CrossRef] [Google Scholar]
  2. M. Paradiso, S. Galassi, S. Benedetti, Il caratteristico Forte di San Fernando de Bocachica, Colombia, in: Luis Villegas, Ignacio lombillo, Clara Liano, Haydee Blanco (Eds.), Patologia della Costruccion, Tecnologia de la Rehabilitacion y Gestion del Patrimonio, Proc. Conf. Latinoamericano Patologie del costruito, tecniche di riabilitazione e gestione del patrimonio (Rehabend 2014), Santander, Spain, Gráficas Iguña, S.A. (2014) [Google Scholar]
  3. N. Ruggieri, S. Galassi, G. Tempesta, Pompeii’s Stabian Baths. Mechanical behaviour assessment of selected masonry structures during the 1st century seismic events, Int. J. Archit. Herit. 12, 5, 859–878 (2018) 10.1080/15583058.2017.1422571 [CrossRef] [Google Scholar]
  4. M. Sassu, M. Andreini, C. Casapulla, A. De Falco, Archaeological consolidation of UNESCO masonry structures in Oman: The Sumhuram citadel of Khor Rori and the Al Balid Fortress, Int. J. Archit. Herit. 7, 4, 339–374 (2013) [CrossRef] [Google Scholar]
  5. R. Aguilar, R. Marques, K. Sovero, C. Martel, F. Trujillano, R. Boroschek, Investigations on the structural behaviour of archaeological heritage in Peru: From survey to seismic assessment, Eng. Struct. 95, 94–111 (2015) [CrossRef] [Google Scholar]
  6. A. Albuerne, M. S. Williams, Structural appraisal of a Roman concrete vaulted monument: the Basilica of Maxentius, Int. J. Archit. Herit. 11, 7, 901–912 (2017) [Google Scholar]
  7. M. Paradiso, S. Galassi, A. Borri, D. Sinicropi, “Reticolatus”: an innovative reinforcement for irregular masonry. A numeric model, in: Cruz Paulo J. S. (Ed.), Structures and Architecture: Concepts, Applications and Challenges, CRC Press / Balkema, Taylor and Francis Group, London, Proc. 2nd Int. Conf. on Structure & Architecture ICSA2013, Guimaraes, Portugal (2013) [Google Scholar]
  8. V. Alecci, F. Focacci, L. Rovero, G. Stipo, M. De Stefano, Intrados strengthening of brick masonry arches with PBO–FRCM composites: experimental and analytical investigations, Compos. Struct. 176, 898–909, (2017) 10.1016/j.compstruct.2017.06.023 [CrossRef] [Google Scholar]
  9. V. Alecci, M. De Stefano, F. Focacci, R. Luciano, L. Rovero, G. Stipo, Strengthening masonry arches with lime-based mortar composite, Buildings 7, 2, 49 (2017) 10.3390/buildings7020049 [CrossRef] [Google Scholar]
  10. M. Fagone, G. Ranocchiai, An Experimental Analysis of the Mechanical Behaviour of Anchored CFRP-to-Masonry Reinforcements Loaded by Out-of-Plane Actions, Key Eng. Mat. 747, 204–11 (2017) 10.4028/www.scientific.net/KEM.747.204 [CrossRef] [Google Scholar]
  11. L. Jurina, Experimental tests on consolidation of masonry bridges using “ram-reinforced arch method”, Proc. IIX International Conference on Arch Bridges, 5-7 October 2016, Wroclaw, Poland (2016) [Google Scholar]
  12. A. Borri, G. Castori, M. Corradi, Intrados strengthening of brick masonry arches with composite materials, Compos. Part B-Eng. 42, 5, 1164–1172 (2011) [CrossRef] [Google Scholar]
  13. M. Corradi, A. Borri, G. Castori, R. Sisti, The Reticulatus method for shear strengthening of fair-faced masonry, Bulletin of Earthquake Engineering 14, 12, 3547–3571 (2016) 10.1007/s10518-016-0006-5 [CrossRef] [Google Scholar]
  14. G. Castori, A. Borri, M. Corradi, Behavior of thin masonry arches repaired using composite materials, Compos. Part B-Eng. 87, 311–321 (2016) 10.1016/j.compositesb.2015.09.008 [CrossRef] [Google Scholar]
  15. S. Galassi, G. Misseri, L. Rovero, G. Tempesta, Equilibrium analysis of masonry domes. On the analytical interpretation of the Eddy-Lévy graphical method, Int. J. Archit. Herit. 11, 8, 1195–1211 (2017) 10.1080/15583058.2017.1372823 [Google Scholar]
  16. S. Galassi, G. Tempesta, Analysis of Masonry Block Structures with Unilateral Frictional Joints, in: Proc. Int. Conf. on Electronic, Control, Automation and Mechanical Engineering (ECAME 2017), 19-20 November 2017, Sanya, China, DEStech Transactions on Engineering and Technology Research, 246–51, 10.12783/dtetr/ecame2017/18396 [Google Scholar]
  17. F. Pugi, S. Galassi, 2013 Seismic analysis of masonry voussoir arches according to the Italian building code, Ing. Sismica-Ital. 30, 3, 33–55 (2013) [Google Scholar]
  18. M. Paradiso, S. Galassi, S. Benedetti, Stabilità di archi e volte in muratura: metodi tradizionali e calcolo automatico, in: Luis Villegas, Ignacio lombillo, Clara Liano, Haydee Blanco (Eds.), Patologia della Costruccion, Tecnologia de la Rehabilitacion y Gestion del Patrimonio, Proc. Conf Latinoamericano Patologie del costruito, tecniche di riabilitazione e gestione del patrimonio (Rehabend 2014), Santander, Spain, Gráficas Iguña, S.A. (2014) [Google Scholar]
  19. V. Alecci, M. De Stefano, S. Galassi, M. Lapi, M. Orlando, An assessment of American criterion for detecting plan irregularity, in: Proc. of Eighth European Workshop on the Seismic Behaviour of Irregular and Complex Structures (8EWICS), 19–20 October 2017, Bucharest, Romania (2017) [Google Scholar]
  20. S. Briccoli Bati, M. Fagone, T. Rotunno, Lower Bound Limit Analysis of Masonry Arches with CFRP Reinforcements: A Numerical Method, J. Compos. Constr. 17, 366 (2013) 10.1061/(asce)cc.1943-5614.0000350 [Google Scholar]
  21. A. Caporale, R. Luciano, L. Rosati, Limit analysis of masonry arches with externally bonded FRP reinforcements, Comput. Method Appl. M. 196, 247–260 (2006) [CrossRef] [Google Scholar]
  22. S. Galassi, N. Ruggieri, G. Tempesta, A novel numerical tool for seismic vulnerability analysis of ruins in archaeological sites, Int. J. Archit. Herit. (2018), 10.1080/15583058.2018.1492647 [Google Scholar]
  23. S. Galassi, G. Misseri, L. Rovero, G. Tempesta, Failure modes prediction of masonry coussoir arches on moving supports, Eng. Struct. 173, 706–717 (2018) 10.1016/j.engstruct.2018.07.015 [CrossRef] [Google Scholar]
  24. S. Galassi, M. Paradiso, BrickWORK Software-Aided Analysis of Masonry Structures, IERI Procedia 7, 62–70 (2014), Special Issue 2013 International Conference on Applied Computing, Computer Science, and Computer Engineering (ICACC 2013), USA, December 2013, Elsevier B.V., ISSN: 2212-6678, 10.1016/j.ieri.2014.08.011 [Google Scholar]
  25. G. Salerno, How to recognize the order of infinitesimal mechanisms: A numerical approach, International Journal for Numerical Methods in Engineering 35, 7, 1351–1395 (1992) 10.1002/nme.1620350702 [CrossRef] [Google Scholar]
  26. G. Salerno, A. Billotta, F. Porco, A finite element with micro-scale effects for the linear analysis of masonry brickwork, Comput. Methods Appl. Mech. Eng. 190, 34, 4365–4378 (2001) 10.1016/S0045-7825(01)00165-7 [CrossRef] [Google Scholar]
  27. G. Uva, G. Salerno, Towards a multiscale analysis of periodic masonry brickwork: A FEM algorithm with damage and friction, Int. J. Solids Struct. 43, 13, 3739–3769 (2006) 10.1016/j.ijsolstr.2005.10.004 [CrossRef] [Google Scholar]
  28. S. Briccoli Bati, M. Fagone, G. Ranocchiai, The effects of mortar joints on the efficiency of anchored CFRP sheets reinforcements of brick-masonry, Key Eng. Mater. 624, 575–83 (2015) 10.4028/www.scientific.net/KEM.624.575 [CrossRef] [Google Scholar]
  29. Fagone M, Ranocchiai G, Briccoli Bati S. An experimental analysis about the effects of mortar joints on the efficiency of anchored CFRP-tomasonry reinforcements, Compos. Part B-Eng. 76, 133–48 (2015) 10.1016/j.compositesb.2015.01.050 [CrossRef] [Google Scholar]
  30. D. Sinicropi, E. Perria, S. Galassi, M. Paradiso, A. Borri, Artificial Ageing of Mortar Prisms Reinforced through Steel, Glass and Organic Fibers, Journal of Key Eng. Mat., A. Di Tommaso, C. Gentilini and G. Castellazzi (Eds.) 624, 4, 542–50 (2014) 10.4028/www.scientific.net/KEM.624.542 [CrossRef] [Google Scholar]
  31. V. Alecci, M. De Stefano, R. Luciano, L. Rovero, G. Stipo, Experimental Investigation on Bond Behavior of Cement-Matrix–Based Composites for Strengthening of Masonry Structures, J. Compos. Constr. 20, 1 (2016) [CrossRef] [Google Scholar]
  32. C. Pellegrino, T. D’Antino, Experimental behaviour of existing precast prestressed reinforced concrete elements strengthened with cementitious composites, Compos. Part B-Eng. 55, 31–40 (2013) [CrossRef] [Google Scholar]
  33. V. Alecci, S. Briccoli Bati, G. Ranocchiai, Concrete columns confined with CFRP wraps, Mater. Struct. Constr. 47, 3, 397–410 (2014) 10.1617/s11527-013-0068-7 [CrossRef] [Google Scholar]
  34. H. Yuan, J.C. Teng, R. Seracini, Z.S. Wu, J. Yao, Full-range behavior of FRP-to-concrete bonded joints, Eng. Struct. 26, 553–65 (2004) [CrossRef] [Google Scholar]
  35. M.R. Valluzzi et al., Round robin test for composite-to-brick shear bond characerization. Mater. Struct. 45, 12, 1761–91 (2012) [CrossRef] [Google Scholar]
  36. L. Rovero, F. Focacci, G. Stipo, Structural behavior of arch models strengthened using FRP strips of different lengths, J. Compos. Constr. 17, 2, 249–58 (2013) 10.1061/(ASCE)CC.1943-5614.0000325 [CrossRef] [Google Scholar]
  37. T. Rotunno, L. Rovero, U. Tonietti, S. Briccoli Bati, Experimental study of bond behavior of CFRP-to-brick joints, J. Compos. Constr. 04014063 (2015) 10.1061/(ASCE)CC.1943-5614.0000528 [CrossRef] [Google Scholar]
  38. S. Briccoli Bati, L. Rovero, Towards a methodology for estimating strength and collapse mechanism in masonry arches strengthened with fibre reinforced polymer applied on external surfaces, Mater. Struct. 41, 7, 1291–1306 (2008) [CrossRef] [Google Scholar]
  39. S. Galassi, A numerical procedure for failure mode detection of masonry arches reinforced with fiber reinforced polymeric materials, IOP Conf. Ser.: Mater. Sci. Eng. 369, 012038 (2018) 10.1088/1757-899X/369/1/012038, Proc. of 5th Global Conference on Polymer and Composite Materials (PCM 2018) (10-13 April 2018, Kitakyushu City, Japan) [CrossRef] [Google Scholar]
  40. G. Colonnetti, Scienza delle Costruzioni (Edizioni Scientifiche Einaudi, Torino, 1955) [Google Scholar]

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