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References
Abderrahim Mahindad N, Hamiane M (2016). Characterization of mortars from the Ottoman period in Algiers (Algeria) through their physical and chemical properties. International Journal of Physical Science 11(17):217-224. |
|
Abderrahim Mahindad N (2017). A monographic Study of the Military Forts Of the city of Bejaia and an analysis of their building systems. Proceedings of the International Conference on Modern Age Fortifications of the Mediterranean Coast FORTMED V, pp. 359-366. |
|
Attari N, Laoues S, Chabane S (2019). Characterization of an Archaeological Mortar from the Ottoman Period in Algeria. International Journal of Materials, Mechanics, and Manufacturing 7(3):154-159. |
|
Artioli G, Secco M, Addis A (2019). The Vitruvian legacy: mortars and binders before and after the Roman world. Notes in Mineralogy 20(4):151-202. |
|
Benkaddour M, Kazi AF, Semcha A (2009). Durability of mortars based on natural pozzolan and artificial pozzolan. Nature et Technologie 1(2):63-73. |
|
Böke H, Akkurt S, Ipekogku S, UÄŸurlu I (2006). Characteristics of brick used as aggregate in historic brick-lime mortars and plasters. Cement and Concrete Research 36(6):1115-1122. |
|
British Standards Institution (2006). BS EN 1936: Natural stone test methods. Determination of real density and apparent density, and total and open porosity. |
|
Büttner S (2003). Historical and technical evolution. Contribution to the archaeological studies of the Saint-Germain d'Auxerre abbey and the chevet of the Madeleine de Vézelay. Doctoral thesis. Bulletin du centre d'études médiévales BUCEMA. |
|
Chergui S (2007). The "New Mosque" of Algiers The progress of a constructive procedure in the 17th century. REMMM 125:233-251. |
|
Coutelas A, Godard G, Person A (2004). Hydraulic mortars: Bibliographic synthesis and first results on mortars from Roman Gaul. ArchéoSciences, Revue d'Archéométrie 28:127-139. |
|
Cultrone G, Sebastián E, Ortega Huertas M (2007). Durability of masonry systems: A laboratory study. Construction and Building Materials 21(1):40-51. |
|
Esbert RM, Montoto M (1991). La petrolifisica su aplicacion a los estudios de las patologias en pierdra, patologia, conservation y restauration de edificios. Publico Colegio Oficial Arquitectos de Madrid. II:211-230. |
|
Furlan V, Bissegger P (1975). Artificial pozzolan mortars at Vitruve, evolution and architectural history. Swiss Review of Art and Archeology 32:166-178. |
|
Gomes MI, Diaz Gonçalves T, Faria P (2013). The compatibility of earth-based repair mortars with rammed earth substrates. 3rd Historic Mortars Conference. Glasgow, Scotland. |
|
Groot C, Bartos P, Huges J (1999). Historic mortars: Characteristics and tests - Concluding summary and state-of-the-art. International RILEM Workshop on Historic Mortars. Paisley, United Kingdom, pp. 443-454. |
|
Hughes JJ (2012).The role of mortar in masonry: an introduction to requirement for the design of repair mortars. RILEM TC 203-RHM: Repair mortars for historic masonry. Materials and Structures 45:1297-1294. |
|
Karozou A, Stefanidou M (2018). Use of Oils for the Protection of Clay Mortars. Conservation Science in Cultural Heritage 18:121-133. |
|
Matias G, Faria P, Torres I (2014). Lime mortars with heat-treated clays and ceramic waste. Construction and Building Materials 73:125-136. |
|
Miriello D, Crisci GM (2006). Image analysis and flatbed scanners. A visual producer in order to study the macro-porosity of the archeological and historical mortars. Journal of Culture Heritage 7:186-192. |
|
Miriello D, Bloise A, Crisci GM, Apollaro C, La Marça A (2011). Characterisation of archeological mortars and plasters from Kyme (Tyrkey). Journal of Archaelogical Science 38:794-804. |
|
Nunes C, Slížková Z, KÅ™ivánková D (2013). Lime-based mortars with linseed oil: sodium chloride resistance assessment and characterization of the degraded material. Periodico di Mineralogia 82(3):411-427. |
|
Omar Bakri N, Othuman Mydin MA (2014). General Building Defects: Causes, Symptoms and Remedial Work. European Journal of Technology and Design 3(1):4-17. |
|
Sánchez-Moral S, Luque L, Cañaveras JC, Soler V, Garcia-Guinea J (2005). Lime-pozzolana mortars in Roman catacombs: Composition, structures and restoration. Cement and Concrete Research 35(8):1555-1565. |
|
Van Balen K, Papayianni, I, Van Hees R, Binda L, Waldum A (2005). Introduction to requirements for, functions, and properties of repair mortars. Materials and Structures 38:781-785. |
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