Abstract
Several non-destructive (ND) techniques are presented as a tool for the evaluation of the conservation state of carbonate building materials of the “Palazzo di Città”, a historic building in the centre of Cagliari, a town in Italy. In this study, considering both the nature of the building materials and the constructive types of the investigated architectural structure, ultrasonic investigations were carried at 54 kHz. The ultrasonic measurements were performed both in the laboratory and in situ using the portable ultrasonic non-destructive digital indicating tester (PUNDIT Lab plus©) by Proceq (Schwerzenbach, Switzerland). The ultrasonic measurements were integrated by a petrographical and petrophysical study of the investigated stone materials in order to correlate their petrographical-petrophysical features with the elastic ones. A further implementation was carried out comparing elasto-mechanical and petrographical-petrophysical features of the investigated carbonate materials with surface geometric anomalies computed by means of the architectonic terrestrial laser scanner (TLS) application. In particular, we used a Leica HDS-6200 TLS to study the complex shape of some artifacts from the “Palazzo di Città” monumental compound. A multi station approach was adopted in order to acquire more than 180 million points by performing 30 high resolution structured scans. After TLS data elaboration with JRC 3D Reconstructor® software, the 3D model of the buildings together with morphological anomalies of some artifacts were computed in order to highlight the zones where the deformation was more evident.
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References
Abbaneo S, Berra M, Binda L, Fatticcioni A (1995) Non-destructive evaluation of bricks-masonry structures: calibration of sonic wave propagation procedures. In: Schickert G, Wiggenhauser H (eds) Proceedings of the international symposium non-destructive testing in civil engineering (NDT-CE), Berlin, vol 1. Deutsche Gesellschaft fur Zerstorungsfreie Prufung (DGZfP), Berlin, pp 253–260
Anselmetti FS, Eberli P (1999) The velocity-deviation log: a tool to predict pore type and permeability trends in carbonate drill holes from sonic and porosity or density log. AAPG Bull 83:450–466
Barca S, Carmignani L, Conti P, Eltrudis A, Funedda A, Oggiano G, Pasci S (2001) Memorie descrittive della Carta Geologica d’Italia volume LX, Geologia della Sardegna, Note illustrative della carta Geologica della Sardegna a scala 1:200000, Istituto Poligrafico e Zecca dello Stato Roma
Barrocu G, Crespellani T, Loi A (1979) Caratteristiche geologico-tecniche dei terreni dell’area urbana di Cagliari. Cattedra di geologia applicata, Cattedra di meccanica delle fondazioni, Facoltà di Ingegneria, Università di Cagliari, pp 3–54
Besl PJ, McKay ND (1992) A method for registration of 3D-shapes. Pattern analysis and machine intelligence. IEEE Trans 14(2):239–256. doi:10.1109/34.121791
Binda L (1997) Role of a Rilem committee: calibration of proposed test methods, evaluation and strengthening of existing masonry structures. In: Binda L, Modena C (eds) Proceedings of the joint international workshop on evaluation and strengthening of existing masonry structures, Padova (Italy), RILEM Publications SARL, Bagneux, 1–24
Bornaz L, Rinaudo F (2004) Terrestrial laser scanner data processing. In: Altan O (ed) Proceedings of the geo-imagery bridging continents XXth ISPRS congress, Istanbul, Turkey, Commission 5, 12–23 July, XXXV(B5), pp 514–519, ISSN 1682-1750
Buj O, Gisbert J, Franco B, Mateos N, Bauluz B (2010) Decay of the campanile limestone used as building material in Tudela Catedral (Navarra, Spain). Geol Soc Spec Publ 221:195–202
Carannante G, Esteban M, Milliman JD, Simone L (1988) Carbonate litofacies as paleolatitude indicators: problems and limitations. Sed Geol 60:333–346
Casula G, Fais S, Ligas P (2009) Experimental application of 3-D laser scanning and acoustic techniques in assessing the quality of stones used in monumental structures. Int J Microstruct Mater Prop 4:45–56. doi:10.1504/IJMMP.2009.028432
Choquette PW, Pray LC (1970) Geologic nomenclature and classification of porosity in sedimentary carbonates. Am Assoc Pet Geol Bull 54:107–250
Christaras B (1997) Estimation of damage at the surface of stones using non-destructive techniques. In: Proceedings of the 5th international congress of structural studies, repairs and maintenance of historical buildings, San Sebastian. Advances in Architectural Series of Computational Mechanics Publications, 3, Southampton, pp 121–128
Christaras B, Auger F, Mosse E (1994) Determination of the moduli of elasticity of rocks. Comparison of the ultrasonic velocity and mechanical resonance frequency methods with direct static methods. Mater Struct 27:222–228
Christaras B, Cuccuru F, Fais S, Papanikolaou H (2015) Application of non destructive ultrasonic techniques for the analysis of the conservation status of building materials in monumental structures. In: Lollino G et al (ed) Engineering geology for society and territory-volume 8. Preservation of cultural heritage. Springer International Publishing, Switzerland, 2015, pp 139–143. doi: 10.1007/978-3-319-09408-3_22
Concu G, Fais S (2003) In time analysis of a viscous coupling agent effect in ultrasonic measurements. In: Prassianakis IN (ed) Proceedings of the 3rd international conference on NDT: organized by Hellenic Society of NDT (HSNT). NDT in antiquity and nowadays skill application innovation, Chania, Crete, Greece, 15–18 October, pp 104–108
Coroneo R (1993) La cattedrale di santa Maria di Castello: sculture della facciata romanica. In: Coroneo R (ed) Architettura romanica dalla metà del Mille al primo ‘300, collana “Storia dell’arte in Sardegna”, Ilisso, Nuoro, pp 122–130
Cuccuru F, Fais S, Ligas P (2014) Dynamic elastic characterization of carbonate rocks used as building materials in the historical city centre of Cagliari (Italy). Q J Eng GeolHydrogeol 47:259–266. doi:10.1144/qjegh2013-061
Cultrone G, Luque A, Sebastián E (2012) Petrophysical and durability tests on sedimentary stones to evaluate their quality as building materials. Q J Eng GeolHydrogeol 45:415–422. doi:10.1144/qjegh2012-007
Dunham RJ (1962) Classification of carbonaterocks according to depositional texture. In: Ham WE (ed) Classification of carbonate rocks, A.A.P.G. Memoir, pp 108–121
Eberli P, Baechle GT, Anselmetti FS, Incze ML (2003) Factors controlling elastic properties in carbonate sediments and rocks. Lead Edge 22:654–660. doi:10.1190/1.1599691
Ercoli L, Megna B, Nocilla A, Zimbardo M (2013) Measure of a limestone weathering degree using laser scanner. Int J Archit Herit 7:591–706
Fais S, Casula G (2010) Application of acoustic techniques in the evaluation of heterogeneous building materials. NDT and E Int 43:62–69. doi:10.1016/j.ndteint.2009.10.004
Fais S, Tocco R, Casula G (1999) ND acoustic techniques to assess the preservation of a church colonnade—a case history. In: Proceedings of the 61st EAGE conference and technical exhibition, Extended Abstracts, Helsinki, EAGE, Houten, pp 1–2
Fais S, Ligas P, Palomba M, Tocco R (2002) Evaluation of preservation state of monumental buildings by ND acoustic techniques and mineralogical studies. In: Galan E, Zezza F (eds) Protection and conservation of the cultural heritages of the mediterranean cities. Balkema, Lisse, pp 307–314
Fais S, Ligas P, Cuccuru F (2008) Dynamic elastic characterization of carbonatic rocks used as building materials of monumental structures. In: Proceedings of 2nd ICDS international congress dimension stones XXI century challenges, Carrara, Italy, pp 319–323
Folk RL (1980) Petrology of sedimentary rocks, vol 2. Hemphill, Austin
Fregonese L, Barbieri G, Biolzi L, Bocciarelli M, Frigeri A, Taffurelli L (2013) Surveying and monitoring for vulnerability assessment of an ancient building. Sensor 13:9747–9773. doi:10.3390/s130809747
Galan E, Guerrero MA, Vasquez MA, Maert F, Zezza, F (1991) Marble weathering: relation between ultrasonic data and macroscopic observations. The case of the columns of the Court of the Lions at the Alhambra in Granada, Spain. In: Decrouez D, Chamay J, Zezza F (eds) Proceedings of the 2nd international symposium ‘The conservation of monuments in the Mediterranean Basin’, Geneva, Museum d’ Histoire Naturelle & Musee d’Art et d’Histoire, Geneva, pp 193–207
Gandolfi R, Porcu A (1967) Contributo alla conoscenza delle microfacies mioceniche delle colline di Cagliari (Sardegna). Riv Ital Paleont 73:313–348
Gexcel SRL (2012) JRC 3D reconstructor - operation manual. Geomatics and Excellence - A University of Brescia Spin Off Company, Brescia
Gordon SJ, Lichti D, Stewart M, Franke J (2003) Structural deformation measurement using terrestrial laser scanners. In: Proceedings of the 11th international FIG symposium on deformation measurements, Santorini Island, Greece, 25–28 May 2003
Grinzato E, Martinetti S, Bison PG, Concas M, Fais S (2004) Comparison of ultrasonic velocity and IR thermography for the characterization of stones. Infrared Phys Technol 46:63–68
Jo YH, Lee CH (2014) Quantitative modeling of blistering zones by active thermography for deterioration evaluation of stone monuments. J Cult Herit 15:621–627. doi:10.1016/j.culher.2013.12.002
Kahraman S (2001) Evaluation of simple methods for assessing the uniaxial compressive strength of rock. Int J Rock Mech Min Sci 38:981–994
Kahraman S, Ulker U, Delibalta MS (2007) A quality classification of building stones from P wave velocity and its application to stone cutting with gang saws. J South Afr Inst Min Metall 107:427–430
Laurie JB, Robertson RHS, Vicente MA (1986) The restoration of buildings constructed with Menorcan limestone. Q J Eng GeolHydrogeol 19:283–289. doi:10.1144/GSL.QJEG.1986.019.03.05
Leica Geosystem. http://hds.leica-geosystems.com/en/Leica-HDS6200_64228.htm (Accessed 25 November 2014)
Leone F, Pontillo C, Spano C (1992) Benthic paleocommunities of the middle-upper Miocene lithostratigraphic units from the Cagliari hills (Southern Sardinia, Italy). IGCP 5:151–158
Lucia FJ (1995) Rock fabric/petrophysical classification of carbonate pore space for reservoir characterization. Am Assoc Pet Geol Bull 79(9):1275–1300
Moropoulou A, Bakolas A, Aggelakopoulou E, Pineli T, Prassianakis I (2003) Estimation of elastic constants of stones, used in historic monuments, using ultrasonic technique and correlation to their microstructure parameters. In: Prassianakis IN (ed) Proceedings of the 3th international conference on NDT. Organized by Hellenic Society of NDT (HSNT). NDT in antiquity and nowadays skills–applications–innovations, Chania, Crete, Hellenic Society of NDT (HSNT), Athens, pp 242–245
Přikryl R (2006) “New natural stone” for the reconstruction of Charles Bridge in Prague. In: Fort R, Alvarez de Buergo M, Gomez Heras M, Vasquez Calvo C (eds) Heritage weathering and conservation, vol 1. Taylor and Francis, London, pp 23–29
Rafavich F, Kendall CH, St C, Todd TP (1984) The relationship between acoustic properties and the petrographic character of carbonate rocks. Geophysics 49:1622–1636
Raymahashay BC, Sharma S (1993) Decay of building stones: a mineralogical model for Konark Sun Temple, India. Q J Eng Geol Hydrogeol 26:155–157. doi:10.1144/GSL.QJEG.1993.026.02.07
Rinaudo F, Guarnieri A, Vettore A, Visintini D, Bonora V, Tucci G, Bini M, Forlani G (2007) Sistemi a Scansione per l’architettura e il territorio. Sacerdote F, Tucci G (eds) Alinea Editrice s.r.l, Firenze, Italy, 2007
Sgrenzaroli M, Vassena GPM (2007) Tecniche di rilevamento tridimensionale tramite laser scanner, volume 1 - Introduzione generale. Proprietà letteraria riservata © 2007 Matteo Sgrenzaroli e Giorgio Paolo Maria Vassena© 2007, Starrylink Editrice Brescia Contrada S. Urbano, 14–25121 Brescia, Collana Topografia e Cartografia. http://www.rilevamento.it/Didattica/Topografia%20A/2007-2008/Libro%20laser%20Vassena%20per%20web.pdf
Siedel H, Siegesmund S, Sterflinger K (2011) Characterisation of stone deterioration on buildings, 2011. In: Siegesmund S, Snethlage R (eds) Stone in architecture, properties, durability. Spinger, Berlin, pp 347–410. doi:10.1007/978-3-642-14475-2_6
Stück H, Siegesmund S, Rüdrich J (2011) Weathering behaviour and construction suitability of dimension stones from the Drei Gleichen area (Thuringia, Germany). Environ Earth Sci 63:1763–1786. doi:10.1007/s12665-011-1043-7
Török Á, Přikryl R (2010) Current methods and future trends in testing, durability analyses and provenance studies of natural stones used in historical monuments. Eng Geol 115:139–142. doi:10.1016/j.enggeo.2010.07.003
Wang Z (2000) Dynamic versus static elastic properties of reservoir rocks. In: Wang Z, Nur A (eds) Seismic and acoustic velocities in reservoir rocks, vol 19. Society of Exploration Geophysicists, Tulsa, pp 531–539
Yasar E, Erdogan Y (2004) Correlating sound velocity with the density, compressive strength and Young’s modulus of carbonate rocks. Int J Rock Mech Min Sci 41:871–875. doi:10.1016/j.ijrmms.2004.01.012
Acknowledgements
This work was supported by Regione Autonoma della Sardegna (RAS) (Sardinian Autonomous Region), Regional Law 7th August 2007, no. 7, Promotion of scientific research and technological innovation in Sardinia. The authors would also like to thank the Archidiocesi di Cagliari-Curia Arcivescovile and Mons. Ing. Ferdinando Caschili for their kind permission to work on the Cathedral of Santa Maria.
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Fais, S., Cuccuru, F., Ligas, P. et al. Integrated ultrasonic, laser scanning and petrographical characterisation of carbonate building materials on an architectural structure of a historic building. Bull Eng Geol Environ 76, 71–84 (2017). https://doi.org/10.1007/s10064-015-0815-9
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DOI: https://doi.org/10.1007/s10064-015-0815-9