Alternative approach for reproducing the in-plane behaviour of rubble stone walls |
Tarque, Nicola
(Division of Civil Engineering, Pontificia Universidad Catolica del Peru)
Camata, Guido (Department of Engineering and Geology, University G. D'Annunzio) Benedetti, Andrea (Department of Civil, Chemical, Environmental, and Materials Engineering, University of Bologna) Spacone, Enrico (Department of Engineering and Geology, University G. D'Annunzio) |
1 | Abaqus 6.9 SIMULIA. (2009), Abaqus/CAE Extended Funcionality EF2, Manual, Dassault Systemss Corporation, Providence, RI, USA. |
2 | Betti, M., Bartoli, G., Corazzi, R. and Kovacevic, V. (2012), "Strumenti Open Source per l'ingegneria strutturale. Modellazione meccanica non lineare di edifici in muratura. Bollettino degli Ingegneri", Collegio Ingegneri della Toscana, LX(12), 3-15. (in Italian) |
3 | Binda, L., Pina-Henriques, J., Anzani, A., Fontana, A. and Lourenco, P. (2006), "A contribution for the understanding of load-transfer mechanisms in multi-leaf masonry walls: Testing and modelling", Eng. Struct., 28(8), 1132-1148. DOI |
4 | Cattari, S. and Lagomarsino, S. (2013), "Seismic assessment of mixed masonry-reinforced concrete buildings by non-linear static analyses", Earthq. Struct., 4(3), 241-264. DOI |
5 | Corradi, M., Borri, A. and Vignoli, A. (2003), "Experimental study on the determination of strength of masonry walls", Constr. Build. Mater., 17(5), 325-333. DOI |
6 | Dogangun, A. and Sezen, H. (2012), "Seismic vulnerability and preservation of historical masonry monumental structures", Earthq. Struct., 3(1), 83-95. DOI |
7 | Dolce, M., Ponzo, F.C., Goretti, A., Moroni, C., Giordano, F., de Canio, G. and Marnetto, R. (2008), "3D dynamic tests on 2/3 scale masonry buildings retrofitted with different systems", Proceedings of the 14th World Conference on Earthquake Engineering, Beijing, China. |
8 | Frumento, S. (2007), "Identificazione dei parametri di risposta a taglio di pannelli murari attraverso la prova di compressione diagonale", Ph.D. thesis, DICAT Universita degli Studi di Genova, Genova, Italy. (in Italian) |
9 | Gardin, B. (2007), "Diagnosi delle murature storiche mediante procedure debolmente distruttive: problematiche nell'uso dei martinetti piatti", Master thesis, University of Padua, Padua, Italy. (in Italian) |
10 | Gautam, D., Rodrigues, H., Bhetwal, K., Neupane, P. and Sanada Y. (2016), "Common structural and constructions deficiencies of Nepalese buildings", Innov. Infrastruct. Solut. J., 1(1), 1-18. DOI |
11 | Graziotti, F., Magenes, G. and Penna, A. (2016), Experimental campaign on double-leaf stone masonry specimens at the University of Pavia and EUCENTRE Pavia. Experimental researches on the seismic behaviour of masonry spandrels: an international perspective, Chapter: 2, Publisher: EUCENTRE Press, Editors: Nicola Augenti, Francesco Graziotti, Guido Magenes, Fulvio Parisi. |
12 | Karantoni, F., Tsionis, G., Lyrantzaki, F. and Fardis, M.N. (2014), "Seismic fragility of regular masonry buildings for in-plane and out-of-plane failure", Earthq. Struct., 6(6), 689-713. DOI |
13 | Lagomarsino, S., Penna, A., Galasco, A. and Cattari, S. (2013), "TREMURI program: An equivalent frame model for the nonlinear seismic analysis of masonry buildings", Eng. Struct., 56, 1787-1799 DOI |
14 | Oliveira, D., Silva, R.A., Garbin, E. and Lourenco, P.B. (2012), "Strengthening of three-leaf stone masonry walls: an experimental research", Mater. Struct., 45(8), 1259-1276. DOI |
15 | Magenes G., Penna A., Senaldi I., Rota M. and Galasco A. (2014), "Shaking table test of a strengthened full-scale stone masonry building with flexible diaphragms", Int. J. Architec. Herit., Taylor and Francis, 8(3), 349-375. DOI |
16 | Magenes, G., Penna, A., Galasco, A. and Rota, M. (2010), "Experimental characterization of stone masonry mechanical properties", Proceedings of the 8th International Masonry Conference, Dresden, Germany. |
17 | Milosevic, J., Lopes, M., Sousa, A. and Bento, R. (2013a), "Testing and modelling the diagonal tension strength of rubble stone masonry panels", Eng. Struct., 52, 581-591. DOI |
18 | Milosevic, J., Gago, A., Lopes, M. and Bento, R. (2013b), "Experimental assessment of shear strength parameters on rubble stone masonry specimens", Constr. Build. Mater., 47, 1372-1380. DOI |
19 | Oliveira, D. and Lourenco, P.B. (2006), "Experimental behaviour of three-leaf stone masonry walls", Proceeding of The construction aspects of built heritage protection, Dubrovnik, Croatia, 356-362. |
20 | Pagnini, L.C., Romeu, V., Lagomarsino, S. and Varum, H. (2011), "A mechanical model for the seismic Vulnerability assessment of old masonry buildings", Earthq. Struct., 2(1), 25-42. DOI |
21 | Pela, L., Cervera, M. and Roca, P. (2013), "An orthotropic damage model for the analysis of masonry structures", Constr. Build. Mater., 41, 957-967. DOI |
22 | Tarque, N., Camata, G., Spacone, E., Varum, H. and Blondet, M. (2014), "Nonlinear dynamic analysis of a full-scale unreinforced adobe model", Earthq. Spectra, 30(4), 1643-1661. DOI |
23 | Penna, A., Senaldi, I., Galasco, A. and Magenes, G. (2016), "Numerical simulation of shaking table tests on full-scale stone masonry buildings", Int. J. Architec. Herit, 10(2-3), 146-163. DOI |
24 | Roca, P., Molins, C. and Mari, A. (2005), "Strength capacity of masonry wall structures by the equivalent frame method", J. Struct. Eng., 131(10), 1601-1610. DOI |
25 | Seker, B.S., Cakir, F., Dogangun, A. and Uysal, H. (2014), "Investigation of the structural performance of a masonry domed mosque by experimental tests and numerical analysis", Earthq. Struct., 6(4), 335-350. DOI |
26 | Senthivel, R. and Lourenco, P.B. (2009), "Finite element modelling of deformation characteristics of historical stone masonry shear walls", Eng. Struct., 31(9), 1930-1943. DOI |
27 | Spacone, E. and Camata, G. (2016), Esecuzione di prove non destruttive in situ e di laboratorio distruttive su provini e modelli, Convenzione di ricerca sulle malte idreuliche nell'ambito del POR FESR Abruzzo 2007-2013. Universita degli Studi "Gabriele d'Annunzio", Chieti-Pescara, Italy. (in Italian) |
28 | Ural, A. (2013), "19th May 2011 Simav (Kutahya) earthquake and response of masonry Halil Aga Mosque", Earthq. Struct., 4(6), 671-683. DOI |
29 | Valluzi, M.R., da Porto, F. and Modena, C. (2001), Behaviour of multi-leaf stone masonry walls strengthened by different intervention techniques, Historical Constructions, P.B. Lourenco and P. Roca (Eds.), pp. 1026-1032, Guimaraes, Portugal. |
30 | Vasconcelos, G. (2005), "Experimental investigations on the mechanics of stone masonry: Characterization of granites and behaviour of ancient masonry shear walls", Ph.D. thesis, University of Minho, Guimaraes, Portugal. |
31 | Vasconcelos, G. and Lourenco, P. (2009), "Experimental characterization of stone masonry in shear and compression", Constr. Build. Mater., 23(11), 3337-3345. DOI |
32 | Vintzileou, E., Mouzakis, C., Adami, C. and Karapita, L. (2015), "Seismic behavior of three-leaf stone masonry buildings before and after interventions: Shaking table tests on a two-storey masonry model", Bull. Earthq. Eng., 13(10), 3107-3133. DOI |