Add to ORKGBetween used and already verified technologies for the reinforcement of plasters mainly include nanosuspension containing nanoparticles of calcium hydroxide and nanomaterials based on magnesium hydroxide and barium carbonate [1]. Individual lime nanosuspension, which consists of nanoparticles of calcium hydroxide, are dispersed in an alcoholic environment and they differ from each concentration and type of alcohol. When the material is cured, carbonatation occurs, as well as in the case of fresh plaster, where the calcium hydroxide reacts with atmospheric carbon dioxide to produce calcium carbonate. Due to the deposition of calcium carbonate in the damaged material, occurs re-strengthened ties and its hardening. The undoubted advantage of t...
tNovel nanomaterials, such as nanosilica or nano-titanium oxide, have been developed in the last dec...
In the last decades a special attention has been devoted to the development of nanomaterials for con...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
Between used and already verified technologies for the reinforcement of plasters mainly include nano...
Nanolimes are the first nanomaterials used in heritage conservation for natural stone consolidation....
Calcium hydroxide nanoparticles (nanolime) are a novel solution for consolidating clay-based plaster...
Historic calcareous structures suffer from weathering processes that result in the loss of some of t...
Nanolimes, i.e. dispersions of lime (Ca(OH)2)nanoparticles in alcohol, have been extensively investi...
Over the past 20 years, the possible usage of disperse and colloid systems of organic consolidation ...
This study investigates the consolidation effect of nanosized particles of calcium hydroxide dispers...
Nanolime products are one of the most promising consolidation methods for historic calcareous substr...
The conservation of historic structures must be carried out through treatments that use materials wh...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
External surfaces of stones used in historic buildings often carry high artistic value and need to b...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
tNovel nanomaterials, such as nanosilica or nano-titanium oxide, have been developed in the last dec...
In the last decades a special attention has been devoted to the development of nanomaterials for con...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
Between used and already verified technologies for the reinforcement of plasters mainly include nano...
Nanolimes are the first nanomaterials used in heritage conservation for natural stone consolidation....
Calcium hydroxide nanoparticles (nanolime) are a novel solution for consolidating clay-based plaster...
Historic calcareous structures suffer from weathering processes that result in the loss of some of t...
Nanolimes, i.e. dispersions of lime (Ca(OH)2)nanoparticles in alcohol, have been extensively investi...
Over the past 20 years, the possible usage of disperse and colloid systems of organic consolidation ...
This study investigates the consolidation effect of nanosized particles of calcium hydroxide dispers...
Nanolime products are one of the most promising consolidation methods for historic calcareous substr...
The conservation of historic structures must be carried out through treatments that use materials wh...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
External surfaces of stones used in historic buildings often carry high artistic value and need to b...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...
tNovel nanomaterials, such as nanosilica or nano-titanium oxide, have been developed in the last dec...
In the last decades a special attention has been devoted to the development of nanomaterials for con...
Exposure to atmospheric conditions results in considerable deterioration of calcareous building ston...