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Aalil I.,Badreddine D., Beck K., Xavier Brunetaud X., Cherkaoui K., Chaaba A., Al-Mukhtar M. (2019) “Valorization of crushed bricks in limebased mortars” Construction and Building Materials 226 (2019) 555–563.

Apostolopoulou M., Armaghanib D., Bakolas A., Douvika M, Moropouloua A. Asteris P. (2019) “Compressive strength of natural hydraulic lime mortars using soft computing techniques” Procedia Structural Integrity 17: 914–923.

Arizzi A., Viles H., Cultrone G. (2012) “Experimental testing of the durability of lime-based mortars used for rendering historic buildings” Construction and Building Materials 28: 807–818.

Carsana M., Frassoni M., Bertolini L. (2014) “Comparison of ground waste glass with other supplementary cementitious materials” Cement & Concrete Composites 45: 39–45.

Baron N. (2007) “Rock quality seismic velocity attenuation and anisotropy” Taylor & Francis Group, London UK.

Klisińska-Kopacza A., Tišlova R. (2013) “The Effect of Composition of Roman Cement Repair Mortars on Their Salt Crystallization Resistance and Adhesion” Procedia Engineering 57: 565–571.

Margalha G., Veiga R., Santos Silva A., Brito J. (2011) “Traditional methods of mortar preparation: The hot lime mix method” Cement & Concrete Composites 33: 796–804.

Nežerka V.,Antoš J., Litoša J.,Tesárek P., Zeman J.(2015) “An Integrated Experimental-Numerical Study of the Performance of Lime-Based Mortars in Masonry Piers Under Eccentric Loading” condmat.mtrl-sci 8 Dec 2015.

Ordóñez A., Melken G., Rodríguez C., Gómez J.,Navarrete N. (2019) “Mortero arquitectónico a base de resina del árbol de chukum” ISSN 2594-018X Año 4, Núm.2, Vol.VII, Julio-Diciembre 2019, Edición Especial, pp. 107–114.

Palomar I., Barluenga G., Puentes J. (2015) “Assessment by non destruvtive testing of coating mortars for retrofitting the architectural heritage” Repairs and Maintenance of Heritage Architecture XIV.

Kozlowski R., Hughes D., Weber J.(2010) “Roman cements-Key materials of the built heritage of the nineteenth century” Materials, Technologies and Practice in Historic Heritage Structures Springer.

Rampazzi L., Colombini M., Conti C., Corti C., Lluveras-Tenorio A., Sansonetti A., And Zanaboni (2016) “Technology of Medieval Mortars: An Investigation into the Use of Organic Additives.” Archaeometry, Wiley, 2016, 58 (1),pp.115–130. 10.1111/arcm.12155. hal-01705544.

Rota Rossi Doria P. (1986) “Mortars for restoration: basic requirements and quality control”. Materials and Structures, 19(6), 445–448.

Russlan A. H., Sharkawi A. M., Abd-Elnaby S. F. (2018) “Performance of modified lime mortar for conservation of ancient buildings” international conference on innovative building materials Cairo 2–4 dic 2018.

Szemerey-kiss B. and Török A. (2011) “Time-dependent changes in the strength of repair mortar used in the loss compensation of stone” Environ Earth Sci (2011) 63:1613–1621.

Theodoridou M., Kyriakou L. and Ioannou I. (2014) “Salt Crystalization resistance of nano-modified repair lime mortars” 3rd international conference on salt weathering of buildings and stone 14–16 oct 2014.

Torney C., Forster A., Szadurski E. (2014) “Specialist ‘restoration mortars’ for stone elements: a comparison of the physical properties of two stone repair materials” Heritage Science · January 2014.

Villaseñor M., Alonso I. (2009) “Lowland Maya Lime Plaster Technology: a Diachronic Approach” A thesis of Philosophy Institute of Archaeology, University College London.