Lightweight Concretes with Improved Water and Water Vapor Transport for Remediation of Damp Induced Buildings

Abstract: Most of the historical and old building stock in Europe are constructed from masonry, when brick, stones, or their combination are bound with traditional mortars. Rising damp, due to accompanying effects, is the main factor influencing the quality of indoor climate as well as having an important impact on the durability of masonry structures. In this study, new types of lightweight concrete with waste aggregate content as a suitable material for remediation of damp damaged masonries were designed and tested. A… Show more

“…The expanded uncertainty of both strength determinations was below 2%. More detailed descriptions of both these procedures are available in Pokorný et al's study [52]. The material properties related to one-dimensional water transport (details reported elsewhere [53]) via capillary forces through a porous system of siliceous materials were determined with respect to the standard EN 1015-18 [54].…”

Utilization of Waste-Expanded Thermoplastic as a Sustainable Filler for Cement-Based Composites for Greener Construction

“…The expanded uncertainty of both strength determinations was below 2%. More detailed descriptions of both these procedures are available in Pokorný et al's study [52]. The material properties related to one-dimensional water transport (details reported elsewhere [53]) via capillary forces through a porous system of siliceous materials were determined with respect to the standard EN 1015-18 [54].…”

Utilization of Waste-Expanded Thermoplastic as a Sustainable Filler for Cement-Based Composites for Greener Construction

Bio-based aggregate in the production of advanced thermal-insulating concrete with improved acoustic performance

Study of keto-hydrazide crosslinking effect in acrylic latex applied to Portland cements with respect to physical properties