References
- Belem, T., Souley, M., & Homand, F. (2007). Modeling surface roughness degradation of rock joint wall during monotonic and cyclic shearing. Acta Geotechnica, 2, 227–248.
- Beyer, K., & Bommer, J. (2007). Selection and scaling of real accelerograms for bi-directional loading: A review of current practice and code provisions. Journal of Earthquake Engineering, 11, 13–45.
- Borri, A., & Grazini, A. (2006). Diagnostic analysis of the lesions and stability of Michelangelo’s David. Journal of Cultural Heritage, 7, 273–285.
- Boulanger, P., Donati, P., Christ, E., & Kaulbars, U. (1992). L’environnement vibratoire au poste de conduite des camions. Cahier de notes documentaires [Vibrational environment on cockpit trucks. Documentary notebook]. INRS, 146.
- Coignard, S., Coignard, B. (2009). Neptune, étude préalable par simulation informatique et restauration, rapport de restauration, Arles Antique Museum [Neptune, preliminary study by computer simulation and restoration, restoration report]. Retrieved from http://www.sculpt.fr/RESTAURATION/PDF/Rapport-Neptune.pdf
- Coignard, O., Coignard, R., & Coignard, B. (1998). La restauration du colosse d’Alexandrie [Restoration of the colossus of alexandria]. Archéologia, 349, 34–41.
- Exadaktylos, G. E., Vardoulakis, I., & Kourkoulis, S. K. (2001). Influence of nonlinearity and double elasticity on flexure of rock beams, II. Characterization of Dionysos marble. International Journal of Solids and Structures, 38, 4119–4145.
- FLAC3D. (2006). Fast lagrangian analysis of Continua in 3 dimensions, user’s manual (Version 3.1). Minneapolis, MN: Itasca Consulting Group.
- Grgic, D., Homand, F., & Hoxha, D. (2003). A short- and long-term rheological model to understand the collapses of iron mines in Lorraine (France). Computers and Geotechnics, 30, 557–570.
- Hutchinson, J. W., Mear, M. E., & Rice, J. R. (1987). Crack paralleling an interface between dissimilar material. Journal of Applied Mechanics, 54, 828–832.
- Kaklis, K., Maurigiannakis, S., Agioutantis, Z., & Istantso, C. (2009). Influence of specimen shape on the indirect tensile strength of transversely isotropic Dionysos marble using the three-point bending test. Strain, 45, 393–399.
- Kourkoulis, S. K., & Ganniari-Papageorgiou, E. (2010). Restoring fragmented marble epistyles: Some critical points. Journal of Cultural Heritage, 11, 420–429.
- Kourkoulis, S. K., & Pasiou, E. D. (2009). Epistyles connected with “I” connectors under pure shear. Journal of the Serbian Society for Computational Mechanics, 2, 81–99.
- Kourkoulis, S. K., Prassianakis, I., Agioutantis, Z., & Exadaktylos, G. E. (2006). Reliability assessment of the ndt results for the internal damage of marble specimens. International Journal of Materials and Product Technology, 26, 35–56.
- Kourkoulis, S. K., Ganniari-Papageorgiou, E., & Mentzini, M. (2010). Dionysos marble beams under bending: A contribution towards understanding the fracture of the Parthenon architraves. Engineering Geology, 115, 246–256.
- Kourkoulis, S. K., Panagiotopoulou, V., & Ganniari-Papageorgiou, E. (2012). The role of the fracture plane’s inclination in the restoration of marble epistyles. Journal of Cultural Heritage, 13, 426–436.
- Lam, N., Wilson, J., & Hutchinson, G. (2000). Generation of synthetic earthquake accelerograms using seismological modeling: A review. Journal of Earthquake Engineering, 4, 321–354.
- Lindborg, U., Dunakin, R. C., & Rowcliffe, D. J. (2000). Thermal stress and weathering of carrara, Pentelic and ekeberg marble. In V. Fassina (Ed.), Proceedings of the 9th International Congress on Deterioration and Conservation of Stone (Vol. 1, pp. 109–117). Amsterdam: Elsevier.
- Martinez, J. L., Roger, D., Sintès, C., & Picard, P. (2012, March). Arles, les fouilles du Rhône, Un fleuve pour mémoire [Arles, rhone excavations. A river for memory]. Ed. musée du Louvre, Actes sud.
- Papamichos, E., Papanicolopulos, S. A., & Larsen, I. (2006). Mechanical properties and damage diagnosis of natural building stones. In S. K. Kourkoulis (Ed.), Fracture and failure of natural building stones (pp. 71–92). Alexandroupolis: Springer.
- Prassianakis, I., & Prassianakis, N. (2004). Ultrasonic testing of non-metallic materials: Concrete and marble. Theoretical and Applied Fracture Mechanics, 42, 191–198.
- Rice, J. R., & Sih, G. C. (1965). Plane problems of cracks in dissimilar media. Journal of Applied Mechanics, 32, 418–423.
- Schmitt, F., Polycarpe, F., André, J. C., Corbel, S., Coignard, R. (1993). Traitement tridimensionnel d’objets de musées [Three-dimensional treatment of museum objects]. Proceedings of 4th restorers days in archeology (pp. 123–143). 1994, June 14–15. Soisson, France: Bulletin de liaison du CNRS.
- SeismoSoft [internet]. (2012). Earthquake engineering software solutions. Retrieved December 2012, from http://www.seismosoft.com/
- Souley, M., Homand, F., Pepa, S., & Hoxha, D. (2001). Damage-induced permeability changes in granite: A case example at the URL in Canada. International Journal of Rock Mechanics and Mining Sciences, 38, 297–310.
- Stavropoulou, M. (2006). Modeling of small-diameter rotary drilling tests on marbles. International Journal of Rock Mechanics and Mining Sciences, 43, 1034–1051.
- Stefanou, I., Psycharis, I., & Georgopoulos, I. (2011). Dynamic response of reinforced masonry columns in classical monuments. Construction and Building Materials, 25, 4325–4337.
- Tan, T., Rahbar, N., Buono, A., Wheeler, G., & Soboyejo, W. (2011). Sub-critical crack growth in adhesive/marble interfaces. Materials Science and Engineering A, 528, 3697–3704.
- Vantico. (2000, July 25). Data araldite CW 229, Araldite casting resin system.
- Zhang, Y., Noda, N. A., Takaishi, K. T., & Lan, X. (2011). Stress intensity factors of a central interface crack in a bonded finite plate and periodic interface cracks under arbitrary material combinations. Engineering Fracture Mechanics, 78, 1218–1232.
- Zhou, Z., Xu, X., Leung, A. Y. T., & Huang, Y. (2013). Stress intensity factors and T-stress for an edge interface crack by symplectic expansion. Engineering Fracture Mechanics, 102, 334–347.