Salt Data: Difference between revisions
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== The Salts == | == The Salts == | ||
Here you will find a general overview of the salts. If you need detail information, please go to the pages of the individual salts. Recent reviews on salt and salt damage can be found at <bib id="Leitner.etal:2003" /> and <bib id="Steiger.etal:2007" /> | Here you will find a general overview of the salts. If you need detail information, please go to the pages of the individual salts. Recent reviews on salt and salt damage can be found at <bib id="Leitner.etal:2003" /> and <bib id="Steiger.etal:2007" /> | ||
=== Carbonates === | === Carbonates === | ||
The carbonates are salts of the "carbonic acid"(H <sub> 2 </sub> CO <sub> 3 </sub>). The main structural element is the planar complex anion [CO <sub> 3 </sub>] <sup> 2 - </sup>. The carbonates have a number of characteristics that distinguish them well from other minerals / salts. The most important characteristic is that they all decompose more or less easily under CO <sub> 2 </sub> when treated with acids. The alkali and alkali earth carbonate salts are colourless. Most of the other carbonates are usually coloured pale, only the heavy metal carbonates can show strong colours (such as azurite). Noteworthy is the extremely high birefringence of the carbonates, which leads to higher order interference colours. Under thermal treatment the carbonates dissociate mostly at temperatures between 500-900 °C. The solubility in water is relatively good, especially in carbonated water. | The carbonates are salts of the "carbonic acid"(H <sub> 2 </sub> CO <sub> 3 </sub>). The main structural element is the planar complex anion [CO <sub> 3 </sub>] <sup> 2 - </sup>. The carbonates have a number of characteristics that distinguish them well from other minerals / salts. The most important characteristic is that they all decompose more or less easily under CO <sub> 2 </sub> when treated with acids. The alkali and alkali earth carbonate salts are colourless. Most of the other carbonates are usually coloured pale, only the heavy metal carbonates can show strong colours (such as azurite). Noteworthy is the extremely high birefringence of the carbonates, which leads to higher order interference colours. Under thermal treatment the carbonates dissociate mostly at temperatures between 500-900 °C. The solubility in water is relatively good, especially in carbonated water. | ||
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=== Nitrates === | === Nitrates === | ||
Biogenic reactions are a major source of nitrates with the [NO <sub>3</sub>] <sup> - </sup> ion . This usually takes place with the help of bacteria, also nitrogen-containing raw materials such as animal waste, manure and other organic substances may play a role. Nearly all nitrates are soluble in water. The nitrates have remarkable structural similarities with the carbonates; characteristic is the isotypy (same crystal structure) between nitronatrite /calcite and aragonite /niter. | Biogenic reactions are a major source of nitrates with the [NO <sub>3</sub>] <sup> - </sup> ion . This usually takes place with the help of bacteria, also nitrogen-containing raw materials such as animal waste, manure and other organic substances may play a role. Nearly all nitrates are soluble in water. The nitrates have remarkable structural similarities with the carbonates; characteristic is the isotypy (same crystal structure) between nitronatrite /calcite and aragonite /niter. | ||
to the [[Nitrates|Nitrates]] | |||
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Revision as of 06:44, 10 May 2011
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Author:Hans-Jürgen Schwarz
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Abstract[edit]
All necessary data, graphics and images for the identification and characterization of a salt are presented. The structure of the salt systems is subject to the major anions.
The Salts[edit]
Here you will find a general overview of the salts. If you need detail information, please go to the pages of the individual salts. Recent reviews on salt and salt damage can be found at [Leitner.etal:2003]Title: Mauersalze und Architekturoberflächen
and [Steiger.etal:2007]Title: Special issue on salt decay
Carbonates[edit]
The carbonates are salts of the "carbonic acid"(H 2 CO 3 ). The main structural element is the planar complex anion [CO 3 ] 2 - . The carbonates have a number of characteristics that distinguish them well from other minerals / salts. The most important characteristic is that they all decompose more or less easily under CO 2 when treated with acids. The alkali and alkali earth carbonate salts are colourless. Most of the other carbonates are usually coloured pale, only the heavy metal carbonates can show strong colours (such as azurite). Noteworthy is the extremely high birefringence of the carbonates, which leads to higher order interference colours. Under thermal treatment the carbonates dissociate mostly at temperatures between 500-900 °C. The solubility in water is relatively good, especially in carbonated water.
to the Carbonates
Nitrates[edit]
Biogenic reactions are a major source of nitrates with the [NO 3] - ion . This usually takes place with the help of bacteria, also nitrogen-containing raw materials such as animal waste, manure and other organic substances may play a role. Nearly all nitrates are soluble in water. The nitrates have remarkable structural similarities with the carbonates; characteristic is the isotypy (same crystal structure) between nitronatrite /calcite and aragonite /niter.
to the Nitrates
Literature[edit]
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