Add to ORKGArchaeological architectural monuments in the area under III. in the courtyard of Prague Castle were monitored in 2021 in terms of the extent of salt efflorescences and their chemical composition. Salt efflorescence on the marlstone walls of the church of St. Bartholomew contain sodium carbonate and bicarbonate, sodium sulfate and calcium sulfate. Sodium nitrate and potassium nitrate were also present in some samples. The aim of the research is to propose measures to mitigate the effect of salts on the degradation of historic masonry
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Soluble salts play a key factor in damage to a variety of materials, including stone, ceramics and m...
In 2022, the characterization of the chemical composition and amount of salt efflorescence on archae...
Degradation of historical masonry and plasters is often caused by external conditions; the presented...
This paper presents a nonstandard experimental procedure for detection of the presence of salts in b...
An investigation of the effects of humidity and salt crystallisation on medieval masonry has been un...
Extensive durability problems such as weathering and degradation are found in historic Scandinavian ...
The structural masonry of the historical monuments of the city of Belém, Brazil, is made of stones a...
Salt crystallization is recognized as a major cause of damage to porous building materials, threaten...
Research report about the state of new renders of the building Obecní Dvůr, Prague 1. Very high conc...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
The medieval paintings on the chancel vault in Stroeby Church suffered severe degradation dueto prec...
Masonry constructions, historically used all over the world, largely show the effects of environment...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Soluble salts play a key factor in damage to a variety of materials, including stone, ceramics and m...
In 2022, the characterization of the chemical composition and amount of salt efflorescence on archae...
Degradation of historical masonry and plasters is often caused by external conditions; the presented...
This paper presents a nonstandard experimental procedure for detection of the presence of salts in b...
An investigation of the effects of humidity and salt crystallisation on medieval masonry has been un...
Extensive durability problems such as weathering and degradation are found in historic Scandinavian ...
The structural masonry of the historical monuments of the city of Belém, Brazil, is made of stones a...
Salt crystallization is recognized as a major cause of damage to porous building materials, threaten...
Research report about the state of new renders of the building Obecní Dvůr, Prague 1. Very high conc...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
The medieval paintings on the chancel vault in Stroeby Church suffered severe degradation dueto prec...
Masonry constructions, historically used all over the world, largely show the effects of environment...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Salt crystallization constitutes one of the most widespread decay mechanisms affecting historic buil...
Soluble salts play a key factor in damage to a variety of materials, including stone, ceramics and m...