References
- RIRSCH, E., & ZHANG, Z. (2010). Rising damp in masonry walls and the importance of mortar properties. Construction and Building Materials, 24(10), 1815–1820.
- ALFANO, G., et al., Long-term performance of chemical damp-proof courses: Twelve years of laboratory testing. Building and Environment, 2006. 41: p. 1060-1069.
- COLEMAN, G. (1990) Guide to Identification of Dampness in Buildings.WessexPublishing.
- HOLLIS, M. (2005) Surveying Buildings, 5th edn. Coventry, UK: RICS – Royal Institution of Chartered Surveyors Books.
- LIEFF and TRECHSEL, EDS., Moisture Migration in Buildings. (West Conshohocken, PA: ASTM International, 1982).
- SHARMA, S. K. (1987). A Textbook of Building Construction. New Delhi: S. Chand Publishing.
- BENSTED, J. (2000). Efflorescence - Prevention is better than cure. Concrete London-Concrete Society, 40-41.
- BRICK INDUSTRY ASSOCIATION. (2019). TN 23A Efflorescence – Causes and Prevention. Reston, Virginia.
- HENDRY, A. W., SINHA, B. P., & DAVIES, S. R. (2004). Design Of Masonry Structures. Taylor & Francis.
- CAMUFFO, D. (2013). Microclimate for Cultural Heritage - Conservation, Restoration and Maintenance of Indoor and Outdoor Monuments.
- FRANZONI E. State-of-the-art on methods for reducing rising damp in masonry. Journal of Cultural Heritage, 31, Supplement, 2018, p. S3-S9, https://doi.org/10.1016/j.culher.2018.04.001.
- ASSI, M. H., TARESH, N. S., & ABOUD, G. M. (2021). Proposing a new type of DPC control moisture movements in brick walls. IOP Conference Series Materials Science and Engineering, 1076(1), 012102. https://doi.org/10.1088/1757-899x/1076/1/012102