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{{Short description|Inorganic compound of formula Ca(OH)<sub>2</sub>}}
{{redirect|Slaked lime|(Ca(OH)<sub>2</sub>)<sub>(aq)</sub>|limewater|the application of slaked lime as a wall colorant|limewash}}
{{Use dmy dates|date=October 2020}}
{{chembox
{{Chembox
| Watchedfields = changed
| Watchedfields = changed
| verifiedrevid = 476998783
| verifiedrevid = 476998783
 
| Name = Calcium hydroxide
|Section1={{Chembox Identifiers
| ImageFile1 = Calcium hydroxide.jpg
| ImageSize1 =
| ImageName1 = Calcium hydroxide
| ImageFile2 = Mg(OH)2Xray.jpg
| IUPACName = Calcium hydroxide
| OtherNames = {{ubl
| Slaked lime
| Milk of lime
| Calcium(II) hydroxide
| Pickling lime
| Hydrated lime
| Portlandite
| Calcium hydrate
| Calcium dihydroxide
}}
| Section1 = {{Chembox Identifiers
| ChemSpiderID_Ref = {{chemspidercite|correct|chemspider}}
| ChemSpiderID = 14094
Line 24 ⟶ 40:
| CASNo_Ref = {{cascite|correct|CAS}}
| PubChem = 14777
| EINECS = 215-137-313
| RTECS = EW2800000
| Gmelin = 846915
}}
| Section2 = {{Chembox Properties
| Formula = Ca(OH)<sub>2</sub>
| MolarMass = 74.093 {{nbsp}}g/mol
| Appearance = whiteWhite powder
| Odor = odorlessOdorless
| Density = 2.211 {{nbsp}}g/cm<sup>3</sup>, solid
| Solubility = {{ubl
| Solubility = 0.189 g/100 mL (0 °C) <br> 0.173 g/100 mL (20 °C) <br> 0.066 g/100 mL (100 °C)
| 1.89{{nbsp}}g/L (0{{nbsp}}°C)
| SolubilityProduct = 5.5{{e|−6}}
| 1.73{{nbsp}}g/L (20{{nbsp}}°C)
| SolubleOther = Soluble in [[glycerol]] and [[acid]]s. <br> Insoluble in [[alcohol]].
| 0.66{{nbsp}}g/L (100{{nbsp}}°C)
| (retrograde solubility, ''i.e.'', unusually decreasing with T)
}}
| SolubilityProduct = 5.02{{e|&minus;6}} <ref name="crc">{{cite book |author1=John Rumble |title=CRC Handbook of Chemistry and Physics |date=June 18, 2018 |publisher=CRC Press |isbn=978-1138561632 |pages=5–188|edition=99 |language=English}}</ref>
| SolubleOther = {{ubl
| Soluble in [[glycerol]] and [[acid]]s.
| Insoluble in [[ethanol]].
{{citation needed|date=January 2022}}
}}
| MeltingPtC = 580
| MeltingPt_notes = (loses water, decomposes)
| pKa = p''K''<sub>a1</sub> = 12.63<br>p''K''<sub>a2</sub> = 11.57<ref>{{cite web|url=http://www.periodensystem-online.de/index.php?show=list&id=acid&prop=pKb-Werte&sel=oz&el=92|title=Sortierte Liste: pKb-Werte, nach Ordnungszahl sortiert. – Das Periodensystem online}}</ref><ref>[http://www.chembuddy.com/?left=BATE&right=dissociation_constants ChemBuddy dissociation constants pK<sub>a</sub> and pK<sub>b</sub>]</ref>
| pKa = 12.4{{cn|date=December 2016}}
| pKb = 2.37{{cn|date=December 2016}}
| RefractIndex = 1.574
| MagSus = -22−22.0·10<sup>−6</sup> {{nbsp}}cm<sup>3</sup>/mol
}}
| Section4 = {{Chembox Thermochemistry
| DeltaHf = −987&nbsp;kJ·mol<sup>−1</sup><ref name=b1>{{cite book| author = Zumdahl, Steven S.|title =Chemical Principles 6th Ed.| publisher = Houghton Mifflin Company| year = 2009| isbn = 978-0-618-94690-X7|page=A21}}</ref>
| Entropy = 83&nbsp;J·mol<sup>−1</sup>·K<sup>−1</sup><ref name=b1 />
}}
|Section7 Section3 = {{Chembox HazardsStructure
| CrystalStruct = Hexagonal, [[Pearson symbol|hP3]]<ref>{{cite journal|doi=10.1107/S0365110X61002771|title=The hydrogen positions in portlandite, Ca(OH)<sub>2</sub>, as indicated by the electron distribution|journal=Acta Crystallographica|volume=14|issue=9|pages=950–957|year=1961|last1=Petch|first1=H. E.|bibcode=1961AcCry..14..950P }}</ref>
| ExternalSDS = <ref name="avantormaterials">{{cite web| url =http://www.avantormaterials.com/documents/MSDS/usa/English/C0407_msds_us_Default.pdf| title = MSDS Calcium hydroxide| accessdate = 2011-06-21}}</ref>
| RPhrasesSpaceGroup = P{{R22overline|3}},m1 {{R34}}No. 164
| Coordination =
| SPhrases = {{S2}}, {{S24}}
| LattConst_a = 0.35853{{nbsp}}nm
| LattConst_b =
| LattConst_c = 0.4895{{nbsp}}nm
| LattConst_alpha =
| LattConst_beta =
| LattConst_gamma =
| MolShape =
| OrbitalHybridisation =
| Dipole =
}}
| Section7 = {{Chembox Hazards
| ExternalSDS = <ref name="avantormaterials">{{cite web| url = http://www.avantormaterials.com/documents/MSDS/usa/English/C0407_msds_us_Default.pdf| title = MSDS Calcium hydroxide| access-date = 2011-06-21| url-status = dead| archive-url = https://web.archive.org/web/20120325005938/http://www.avantormaterials.com/documents/MSDS/usa/English/C0407_msds_us_Default.pdf| archive-date = 25 March 2012}}</ref>
| GHSPictograms = {{GHS05}} {{GHS07}}
| GHSSignalWord = Danger
| HPhrases = {{H-phrases|314|335|402}}
| PPhrases = {{P-phrases|261|280|305+351+338}}
| NFPA-H = 3
| NFPA-F = 0
Line 57 ⟶ 97:
| NFPA-S =
| FlashPt = Non-flammable
| LD50 = 7340 {{nbsp}}mg/kg (oral, rat) <br> 7300 {{nbsp}}mg/kg (mouse)
| PEL = TWA 15 {{nbsp}}mg/m<sup>3</sup> (total) 5 {{nbsp}}mg/m<sup>3</sup> (resp.)<ref name=PGCH>{{PGCH|0092}}</ref>
| IDLH = N.D.<ref name=PGCH/>
| REL = TWA 5 {{nbsp}}mg/m<sup>3</sup><ref name=PGCH/>
}}
| Section8 = {{Chembox Related
| OtherAnions =
| OtherCations = [[Magnesium hydroxide]]<br/>[[Strontium hydroxide]]<br/>[[Barium hydroxide]]
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}}
 
'''Calcium hydroxide''', (traditionally called '''slaked lime''',) is an [[inorganic compound]] with the chemical formula [[Calciumcalcium|Ca]]([[Hydroxide|OH]])<sub>2</sub>. It is a colorless crystal or white powder and is obtainedproduced when quicklime ([[calcium oxide]] (called ''lime'' or ''quicklime'') is mixed, or "[[wiktionary:slake|slaked]]" with [[water]]. It has many names including '''hydrated lime'''Annually, '''causticapproximately lime''',125 '''builders'million lime''',tons '''slackof lime''', '''cal''', or '''pickling lime'''. Calciumcalcium hydroxide isare usedproduced in many applications, including food preparationworldwide. '''[[Limewater]]''' is the common<ref name for a [[saturated solution]] of calcium hydroxide.=Ullmann/>
 
Calcium hydroxide has many names including '''hydrated lime''', '''caustic lime''', '''builders' lime''', '''slaked lime''', '''cal''', and '''pickling lime'''. Calcium hydroxide is used in many applications, including food preparation, where it has been identified as [[E number]] '''E526'''. '''Limewater''', also called '''milk of lime''', is the common name for a [[saturated solution]] of calcium hydroxide.
==Properties==
Calcium hydroxide is relatively soluble in water, with a [[solubility product]] [[solubility product|K<sub>sp</sub>]] of 5.5&nbsp;×&nbsp;10<sup>−6</sup>. It is large enough that its solutions are basic according to the following reaction:
 
==Solubility==
:Ca(OH)<sub>2</sub> → Ca<sup>2+</sup> + 2 OH<sup>−</sup>
Calcium hydroxide is modestly soluble in water, as seen for many dihydroxides. Its solubility increases from 0.66 g/L at 100&nbsp;°C to 1.89 g/L at 0&nbsp;°C.<ref name=Ullmann/> Its [[Solubility product|solubility product ''K''<sub>sp</sub>]] of 5.02{{e|−6}} at 25&nbsp;°C,<ref name="crc" /> its dissociation in water is large enough that its solutions are basic according to the following dissolution reaction:
: Ca(OH)<sub>2</sub> → Ca<sup>2+</sup> + 2 OH<sup>−</sup>
The solubility is affected by the [[common-ion effect]]. Its solubility drastically decreases upon addition of hydroxide or calcium sources.
==Reactions==
When heated to 512&nbsp;°C, the [[partial pressure]] of water in equilibrium with calcium hydroxide reaches 101{{nbsp}}kPa (normal atmospheric pressure), which [[chemical decomposition|decomposes]] calcium hydroxide into [[calcium oxide]] and water:<ref>{{cite journal |last=Halstead |first=P. E. |author2=Moore, A. E. |title=The Thermal Dissociation of Calcium Hydroxide |journal=Journal of the Chemical Society |volume=769 |pages=3873 |year=1957 |doi=10.1039/JR9570003873}}</ref>
: Ca(OH)<sub>2</sub> → CaO + H<sub>2</sub>O
 
When carbon dioxide is passed through limewater, the solution takes on a milky appearance due to [[precipitation (chemistry)|precipitation]] of insoluble [[calcium carbonate]]:
At ambient temperature, calcium hydroxide ([[portlandite]]) dissolves in pure water to produce an alkaline solution with a pH of about 12.4. Calcium hydroxide solutions can cause chemical burns. At high pH value (see [[common ion effect]]), its solubility drastically decreases. This behavior is relevant to cement pastes. Its aqueous solutions is called [[limewater]] and is a medium strength [[basic (chemistry)|base]] that reacts with [[acid]]s and can attack some [[metal]]s such as [[aluminium]] (amphoteric hydroxide dissolving at high pH) while protecting other metals from corrosion such as [[iron]] and [[steel]] by [[passivation (chemistry)|passivation]] of their surface. Limewater turns milky in the presence of [[carbon dioxide]] due to formation of [[calcium carbonate]], a process called [[carbonatation]]:
: Ca(OH)<sub>2</sub>{{sub|({{serif|''aq''}})}} + CO<sub>2</sub> {{sub|({{serif|''g''}})}} CaCO<sub>3</sub> {{sub|({{serif|''s''}})}} + H<sub>2</sub>O{{sub|({{serif|''l''}})}}
If excess CO<sub>2</sub> is added: the following reaction takes place:
: CaCO<sub>3</sub>{{sub|({{serif|''s''}})}} + H<sub>2</sub>O{{sub|({{serif|''l''}})}} + CO<sub>2</sub>{{sub|({{serif|''g''}})}} → [[Calcium bicarbonate|Ca(HCO<sub>3</sub>)<sub>2</sub>]]{{sub|({{serif|''aq''}})}}
The milkiness disappears since calcium bicarbonate is water-soluble.
 
Calcium hydroxide reacts with [[aluminium]]. This reaction is the basis of [[aerated concrete]].<ref name=Ullmann/> It does not corrode [[iron]] and [[steel]], owing to [[passivation (chemistry)|passivation]] of their surface.
When heated to 512&nbsp;°C, the [[partial pressure]] of water in equilibrium with calcium hydroxide reaches 101 kPa (normal atmospheric pressure), which [[chemical decomposition|decomposes]] calcium hydroxide into calcium oxide and water.<ref>{{cite journal | last=Halstead | first=P.E. |author2=Moore, A.E.|title=The Thermal Dissociation Of Calcium Hydroxide | journal=Journal of the Chemical Society | volume=769 | pages=3873|year=1957|doi=10.1039/JR9570003873}}</ref>
:Ca(OH)<sub>2</sub> → CaO + H<sub>2</sub>O
 
Calcium hydroxide reacts with [[hydrochloric acid]] to give [[calcium hydroxychloride]] and then [[calcium chloride]].
==Structure, preparation, occurrence==
[[File:CaOH2SEM.jpg|thumb|left|170px|[[Scanning electron microscopy|SEM]] image of fractured hardened cement paste, showing plates of calcium hydroxide and needles of [[ettringite]] (micron scale)]]
Calcium hydroxide adopts a polymeric structure, as do all metal hydroxides. The structure is identical to that of Mg(OH)2 ("brucite structure"), i.e., the [[cadmium iodide]] motif. Strong [[hydrogen bond]]s exist between the layers.<ref name=G&W/>
 
In a process called [[sulfation]], sulphur dioxide reacts with limewater:
Calcium hydroxide is produced commercially by treating lime with water:
: Ca(OH)<sub>2</sub>{{sub|({{serif|''aq''}})}} + SO<sub>2</sub>{{sub|({{serif|''g''}})}} → CaSO<sub>3</sub>{{sub|({{serif|''s''}})}} + H<sub>2</sub>O{{sub|({{serif|''l''}})}}
:CaO + H<sub>2</sub>O → Ca(OH)<sub>2</sub>
 
Limewater is used in a process known as [[lime softening]] to reduce water hardness. It is also used as a neutralizing agent in municipal waste water treatment.
In the laboratory it can be prepared by mixing [[wiktionary:aqueous|aqueous]] solutions of [[calcium chloride]] and [[sodium hydroxide]]. The mineral form, [[portlandite]], is relatively rare but can be found in some volcanic, [[plutonic]], and [[metamorphic rocks]]. It has also been known to arise in burning coal dumps. CaOH has been detected in the atmosphere of [[S-type star]]s.<ref>{{citation
 
| first1=Uffe G. | last1=Jørgensen
==Structure and preparation==
| title=Molecules in Astrophysics: Probes and Processes
[[File:CaOH2SEM.jpg|thumb|left|170px|[[Scanning electron microscopy|SEM]] image of fractured hardened cement paste, showing plates of calcium hydroxide and needles of [[ettringite]] (micron scale)]]
| chapter=Cool Star Models | volume=178
Calcium hydroxide adopts a [[polymeric]] structure, as do all metal hydroxides. The structure is identical to that of Mg(OH){{sub|2}} (''brucite structure''); i.e., the [[cadmium iodide]] motif. Strong [[hydrogen bond]]s exist between the layers.<ref name=G&W/>
| series=International Astronomical Union Symposia. Molecules in Astrophysics: Probes and Processes
 
| editor-first=Ewine F. | editor-last=van Dishoeck
Calcium hydroxide is produced commercially by treating (slaking) [[quicklime]] with water:
| publisher=Springer Science & Business Media
:{{chem2|CaO + H2O -> Ca(OH)2}}
| year=1997 | isbn=079234538X | page=446 | postscript=.
Alongside the production of quicklime from [[limestone]] by [[calcination]], this is one of the oldest known chemical reactions; evidence of [[prehistoric]] production dates back to at least 7000 BCE.<ref>{{cite web|url=https://www.sciencelearn.org.nz/resources/1420-history-of-limestone-uses-timeline |title=History of limestone uses – timeline |website=Science Learning Hub – Pokapū Akoranga Pūtaiao |publisher=Curious Minds New Zealand|date=October 1, 2012|access-date=June 7, 2024}}</ref>
| url=https://books.google.com/books?id=VW50otz5v8sC&pg=PA446
}}</ref>
 
==Uses==
Calcium hydroxide is commonly used to prepare [[lime mortar]].
One significant application of calcium hydroxide is as a [[Flocculation|flocculant]], in water and [[sewage treatment]]. It forms a fluffy charged solid that aids in the removal of smaller particles from water, resulting in a clearer product. This application is enabled by the low cost and low toxicity of calcium hydroxide. It is also used in fresh water treatment for raising the pH of the water so that pipes will not corrode where the base water is acidic, because it is self-regulating and does not raise the pH too much.
 
One significant application of calcium hydroxide is as a [[flocculation|flocculant]], in water and [[sewage treatment]]. It forms a fluffy charged solid that aids in the removal of smaller particles from water, resulting in a clearer product. This application is enabled by the low cost and low toxicity of calcium hydroxide. It is also used in fresh-water treatment for raising the pH of the water so that pipes will not corrode where the base water is acidic, because it is self-regulating and does not raise the pH too much.{{cn|date=September 2023}}
It is also used in the preparation of ammonia gas, using the following reaction:
 
Another large application is in the paper industry, where it is an intermediate in the reaction in the production of sodium hydroxide. This conversion is part of the ''causticizing'' step in the [[Kraft process#Recovery process|Kraft process]] for making pulp. In the causticizing operation, burned lime is added to ''[[green liquor]]'', which is a solution primarily of [[sodium carbonate]] and [[sodium sulfate]] produced by dissolving ''smelt'', which is the molten form of these chemicals from the recovery furnace.<ref name=G&W>Greenwood, N. N.; & Earnshaw, A. (1997). Chemistry of the Elements (2nd Edn.), Oxford:Butterworth-Heinemann. {{ISBN|0-7506-3365-4}}.</ref>
Ca(OH)<sub>2</sub> + 2NH<sub>4</sub>Cl → 2NH<sub>3</sub> + CaCl<sub>2</sub> + 2H<sub>2</sub>O
 
In [[orchard]] crops, calcium hydroxide is used as a fungicide. Applications of 'lime water' prevent the development of cankers caused by the fungal pathogen ''[[Neonectria galligena]]''. The trees are sprayed when they are dormant in winter to prevent toxic burns from the highly reactive calcium hydroxide. This use is authorised in the European Union and the United Kingdom under Basic Substance regulations.<ref>{{Cite web |last=European Union |date=13 May 2015 |title=COMMISSION IMPLEMENTING REGULATION (EU) 2015/762 of 12 May 2015 approving the basic substance calcium hydroxide in accordance with Regulation (EC) No 1107/2009 of the European Parliament and of the Council concerning the placing of plant protection products on the market, and amending the Annex to Commission Implementing Regulation (EU) No 540/2011 |url=https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32015R0762&from=RO |access-date=12 May 2022}}</ref>
Another large application is in the paper industry, where it is an intermediate in the reaction in the production of sodium hydroxide. This conversion is part of the ''causticizing'' step in the [[Kraft process#Recovery process|Kraft process]] for making pulp.<ref name=G&W>Greenwood, N. N.; & Earnshaw, A. (1997). Chemistry of the Elements (2nd Edn.), Oxford:Butterworth-Heinemann. ISBN 0-7506-3365-4.</ref> In the causticizing operation burned lime is added to ''green liquor'' which is a solution primarily of sodium carbonate and sodium sulfate produced by dissolving ''smelt'', which is the molten form of these chemicals from the recovery furnace.
 
Calcium hydroxide is used in dentistry, primarily in the specialty of endodontics.
 
===Food industry===
Because of its low [[toxicity]] and the mildness of its basic properties, slaked lime is widely used in the [[food industry]], to:
* clarify raw juice from [[sugarcane]] or [[sugar beet]]s in the sugar industry, (see [[carbonatation]])
* process water for alcoholic beverages and soft drinks
* [[pickling|pickle]] cucumbers and other foods
* make Chinese [[century egg]]s
* make corn tortillas (it helps the corn flour (''masa'') bind together) (see [[nixtamalization]])
* clear a [[brine]] of [[carbonate]]s of calcium and [[magnesium]] in the manufacture of salt for food and pharmaceutical uses
* fortify (Ca supplement) fruit drinks, such as orange juice, and [[infant formula]]
* aid digestion (called Choona, used in India in ''[[paan]]'', a mixture of [[areca nuts]], calcium hydroxide and a variety of seeds wrapped in betel leaves)
* substitute for [[baking soda]] in making ''[[papadam]]''.
 
* In USDA certified food production in plants and livestock<ref>{{Cite web |url=https://www.ams.usda.gov/sites/default/files/media/Lime%20Hydrated%20TR%202015.pdf |title=Hydrated Lime: Technical Evaluation Report |last=Pesticide Research Institute for the USDA National Organic Program |date=23 March 2015 |website=Agriculture Marketing Services |access-date=17 July 2019}}</ref>
====Native American uses====
* To clarify raw juice from [[sugarcane]] or [[sugar beet]]s in the [[sugar industry]] (see [[carbonatation]])
[[File:Nixtamalized Corn maize El Salvador recipe.jpg|thumb|right|Dry treated corn (left), and untreated corn (right) after boiling in water with calcium hydroxide (1 Tbsp lime for 500 g of corn) for 15 minutes]]
* To process water for alcoholic beverages and soft drinks
In Spanish, calcium hydroxide is called ''cal''. Corn cooked with ''cal'' ([[nixtamalization]]) becomes [[hominy]] (''nixtamal''), which significantly increases the bioavailability of niacin, and it is also considered tastier and easier to digest.
* To increase the rate of [[Maillard reaction]]s ([[pretzel]]s)<ref name="nordicfoodlab">{{cite web |last1=Borsook |first1=Alec |title=Cooking with Alkali |url=https://nordicfoodlab.org/blog/2015/08/cooking-with-alkali/ |website=Nordic Food Lab |date=August 6, 2015}}</ref>
* [[pickling|Pickle]] cucumbers and other foods
* To make Chinese [[century egg]]s
* In maize preparation: removes the cellulose hull of maize kernels (see [[nixtamalization]])
* To clear a [[brine]] of [[carbonate]]s of calcium and [[magnesium]] in the manufacture of salt for food and pharmaceutical uses
* In fortifying (Ca supplement) fruit drinks, such as orange juice, and [[infant formula]]
* As a substitute for [[baking soda]] in making ''[[papadam]]''
* In the removal of carbon dioxide from controlled atmosphere produce storage rooms
* In the preparation of mushroom growing substrates<ref>{{cite web |title=Preparation of Mushroom Growing Substrates |url=https://namyco.org/preparation_of_substrates.php |website=North American Mycological Association |access-date=8 July 2021}}</ref>
 
==== Native American uses ====
In chewing [[coca leaves]], calcium hydroxide is usually chewed alongside to keep the [[alkaloid]] [[stimulant]]s chemically available for [[absorption (small intestine)|absorption]] by the body. Similarly, Native Americans traditionally chewed tobacco leaves with calcium hydroxide derived from burnt mollusk shells to enhance the effects. It has also been used by some indigenous American tribes as an ingredient in ''[[yopo]]'', a psychedelic snuff prepared from the beans of some ''[[Anadenanthera]]'' species.<ref>{{cite journal|author=de Smet, Peter A. G. M. |title=A multidisciplinary overview of intoxicating snuff rituals in the Western Hemisphere|doi=10.1016/0378-8741(85)90060-1|journal=Journal of Ethnopharmacology|volume =3|issue =1|year=1985|pages =3–49}}</ref>
[[File:Nixtamalized Corn maize El Salvador recipe.jpg|thumb|left|Dry untreated maize (left), and treated maize (right) after boiling in water with calcium hydroxide (15{{nbsp}}ml, or 1{{nbsp}}tbsp, lime for 500{{nbsp}}g of corn) for 15 minutes]] In [[Nahuatl]], the language of the [[Aztecs]], the word for calcium hydroxide is ''nextli''. In a process called ''[[nixtamalization]]'', [[maize]] is cooked with nextli to become {{lang|es|nixtamal}}, also known as [[hominy]]. Nixtamalization significantly increases the bioavailability of [[Niacin (nutrient)|niacin]] (vitamin B3), and is also considered tastier and easier to digest. Nixtamal is often ground into a flour, known as ''[[masa]]'', which is used to make tortillas and tamales.{{cn|date=September 2023}}
Limewater is used in the preparation of maize for [[corn tortillas]] and other culinary purposes using a process known as [[nixtamalization]]. Nixtamalization makes the [[niacin]] nutritionally available and prevents [[pellagra]].<ref>{{cite journal |url=https://www.researchgate.net/publication/228453826 |title=Nixtamalization, a Mesoamerican technology to process maize at small-scale with great potential for improving the nutritional quality of maize based foods |last=Wacher |first=Carmen |date=2003-01-01 |journal=Food Based Approaches for a Healthy Nutrition in Africa |url-status=live |archive-url=https://web.archive.org/web/20180305202539/https://www.researchgate.net/publication/228453826_Nixtamalization_a_Mesoamerican_technology_to_process_maize_at_small-scale_with_great_potential_for_improving_the_nutritional_quality_of_maize_based_foods |archive-date=2018-03-05}}</ref> Traditionally lime water was used in [[Taiwan]] and [[China]] to preserve [[persimmon]] and to remove [[wikt:astringency|astringency]].<ref>{{Cite book |last=Hu |first=Shiu-ying |url=https://www.worldcat.org/oclc/58840243 |title=Food plants of China |date=2005 |publisher=Chinese University Press |isbn=962-201-860-2 |location=Hong Kong |oclc=58840243}}</ref>{{Rp|page=623}}
 
In chewing [[coca leaves]], calcium hydroxide is usually chewed alongside to keep the [[alkaloid]] [[stimulant]]s chemically available for [[absorption (small intestine)|absorption]] by the body. Similarly, Native Americans traditionally chewed tobacco leaves with calcium hydroxide derived from burnt mollusc shells to enhance the effects. It has also been used by some indigenous South American tribes as an ingredient in ''[[yopo]]'', a psychedelic snuff prepared from the beans of some ''[[Anadenanthera]]'' species.<ref>{{cite journal |author=de Smet, Peter A. G. M. |title=A multidisciplinary overview of intoxicating snuff rituals in the Western Hemisphere |doi=10.1016/0378-8741(85)90060-1 |pmid=3887041 |journal=Journal of Ethnopharmacology |volume=3 |issue=1 |year=1985 |pages=3–49}}</ref>
 
====Asian uses====
Calcium hydroxide is typically added to a bundle of [[areca nut]] and [[betel]] leaf called "[[paan]]" to keep the [[alkaloid]] [[stimulant]]s chemically available to enter the bloodstream via [[sublingual]] absorption.
 
It is used in making ''[[naswar]]'' (also known as ''nass'' or ''niswar''), a type of dipping tobacco made from fresh tobacco leaves, calcium hydroxide (''chuna''/''choona'' or ''soon''), and wood ash. <!--[[calcium oxide]] plays an important role in making a ''naswar''.--> It is consumed most in the [[Pashtun people|Pathan]] diaspora, [[Afghanistan]], [[Pakistan]], [[India]] and [[Bangladesh]]. Villagers also use calcium hydroxide to [[Whitewash|paint their mud houses]] in Afghanistan, Pakistan and India.
Calcium hydroxide is typically added to a bundle of [[areca nut]] and [[betel]] leaf to keep the [[alkaloid]] [[stimulant]]s chemically available to enter the bloodstream via [[sublingual]] absorption.
 
 
===Hobby uses===
In buon [[fresco]] painting, limewater is used as the colour solvent to apply on fresh plaster. Historically, it is known as the paint [[whitewash]].
[[File:Dying Gaul (casting in Pushkin museum) 04 by shakko.jpg|thumb|Closeup of cast of ''The Dying Gaul'', showing distinctive hairstyle, supposedly derived from washing in limewater.]]
 
Limewater is widely used by marine aquarists as a primary supplement of [[calcium]] and [[alkalinity]] for reef aquariums. [[Coral]]s of order [[Scleractinia]] build their [[endoskeleton]]s from [[aragonite]] (a [[Polymorphism (materials science)|polymorph]] of calcium carbonate). When used for this purpose, limewater is usually referred to as ''Kalkwasser''. It is also used in [[tanning (leather)|tanning]] and making [[parchment]]. The lime is used as a dehairing agent based on its alkaline properties.<ref>''The Nature and Making of Parchment'' by Ronald Reed {{ISBN?}}</ref>
 
=== Personal care and adornment ===
Treating one's hair with limewater causes it to stiffen and bleach, with the added benefit of killing any lice or mites living there. [[Diodorus Siculus]] described the [[Celts]] as follows:
"Their aspect is terrifying... They are very tall in stature, with rippling muscles under clear white skin. Their hair is blond, but not only naturally so: they bleach it, to this day, artificially, washing it in lime and combing it back from their foreheads. They look like wood-demons, their hair thick and shaggy like a horse's mane. Some of them are clean-shaven, but others – especially those of high rank, shave their cheeks but leave a moustache that covers the whole mouth...".<ref>{{Cite web|url=http://exploringcelticciv.web.unc.edu/diodorus-siculus-library-of-history/|title = Diodorus Siculus, Library of History &#124; Exploring Celtic Civilizations}}</ref><ref>{{cite web|url=https://penelope.uchicago.edu/Thayer/E/Roman/Texts/Diodorus_Siculus/5B*.html|title=Diodorus Siculus – Book V, Chapter 28|website=penelope.uchicago.edu|language=english|access-date=2017-11-12}}</ref>
 
Calcium hydroxide is also applied in a leather process called [[Liming (leather processing)|liming]].
 
==Interstellar medium==
The ion CaOH<sup>+</sup> has been detected in the atmosphere of [[S-type star]]s.<ref>{{citation
| first1=Uffe G. | last1=Jørgensen
| title=Molecules in Astrophysics: Probes and Processes
| chapter=Cool Star Models | volume=178
| series=International Astronomical Union Symposia. Molecules in Astrophysics: Probes and Processes
| editor-first=Ewine F. | editor-last=van Dishoeck
| publisher=Springer Science & Business Media
| year=1997 | isbn=079234538X | page=446 | postscript=.
| chapter-url=https://books.google.com/books?id=VW50otz5v8sC&pg=PA446
}}</ref>
 
==Limewater==
==== Afghan uses ====
'''Limewater''' is a saturated aqueous solution of [[calcium hydroxide]]. Calcium hydroxide is sparsely soluble at room temperature in water (1.5&nbsp;g/L at 25&nbsp;°C<ref>'Solubility of Inorganic and Metalorganic Compounds – A Compilation of Solubility Data from the Periodical Literature', A. Seidell, W. F. Linke, Van Nostrand (Publisher), 1953 {{ISBN?}}</ref>). "Pure" (i.e. less than or fully saturated) limewater is clear and colorless, with a slight earthy smell and an astringent/bitter taste. It is basic in nature with a [[pH]] of 12.4. Limewater is named after [[limestone]], not the [[Lime (fruit)|lime fruit]]. Limewater may be prepared by mixing calcium hydroxide (Ca(OH)<sub>2</sub>) with water and removing excess undissolved solute (e.g. by filtration). When excess calcium hydroxide is added (or when environmental conditions are altered, e.g. when its temperature is raised sufficiently), there results a milky solution due to the homogeneous suspension of excess calcium hydroxide. This liquid has been known traditionally as '''milk of lime'''.
It is used in making ''[[naswar]]'' (also known as ''nass'' or ''niswar''), a type of dipping tobacco made from fresh tobacco leaves, calcium hydroxide (''chuna''), and wood ash. <!--[[calcium oxide]] plays an important role in making a ''naswar''.--> It is consumed most in the [[Pashtun people|Pathan]] diaspora, [[Afghanistan]], [[Pakistan]], [[India]], [[Bangladesh]] and also in [[Sweden]] and [[Norway]]. Villagers also use calcium hydroxide to paint their mud houses in Afghanistan, Pakistan and India.
 
==Health risks==
Unprotected exposure to Ca(OH)<sub>2</sub> can increase health risks, soas itwith shouldany bestrong limited.[[Base It(chemistry)|base]], can cause severe skin irritation, chemical burns, blindnessbut orit lungis damage.not Seeacutely [[Safety data sheet|MSDS]]toxic.<ref name="avantormaterials"Ullmann>{{cite webbook | url doi=http://www.avantormaterials10.com1002/documents/MSDS/usa/English/C0407_msds_us_Default14356007.pdfa15_317.pub2 |chapter=Lime titleand Limestone |title=Ullmann's MSDSEncyclopedia Calciumof Industrial Chemistry hydroxide|date=2007 accessdate|last1=Kenny |first1=Martyn 2011|last2=Oates |first2=Tony |isbn=978-063-21527-30385-4 }}</ref>
 
==See also==
* [[Baralyme]] (carbon dioxide absorbent)
* [[Cement]]
* [[Lime mortar]]
* [[Lime plaster]]
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* [[Magnesium hydroxide]] (less alkaline due to a lower solubility product)
* [[Soda lime]] (carbon dioxide absorbent)
* [[Whitewash]]
* [[On Food and Cooking]]
 
==References==
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==External links==
* {{Cite web |title=Properties of typical commercial lime products. Solubility of calcium hydroxide in water. |author=National Lime Association |work=lime.org |date= |access-date=18 June 2021 |url= http://www.lime.org/documents/lime_basics/lime-physical-chemical.pdf |language=English}}
* {{Cite journal|author=National Organic Standards Board Technical Advisory Panel |title=NOSB TAP Review: Calcium Hydroxid |version= |format=.PDF |publisher=Organic Materials Review Institute |url=http://www.omri.org/CaOH_final.pdf |date=2002-04-04 |accessdate=2008-02-05 |archiveurl=https://web.archive.org/web/20071031101142/http://www.omri.org/CaOH_final.pdf |archivedate=31 October 2007 |deadurl=yes |df=dmy }}
* {{Cite journal|author=National Organic Standards Board Technical Advisory Panel |title=NOSB TAP Review: Calcium Hydroxide |format=.PDF |publisher=Organic Materials Review Institute |url=http://www.omri.org/CaOH_final.pdf |date=2002-04-04 |access-date=2008-02-05 |archive-url=https://web.archive.org/web/20071031101142/http://www.omri.org/CaOH_final.pdf |archive-date=31 October 2007 |url-status=dead}}
* [http://www.cdc.gov/niosh/npg/npgd0092.html CDC – NIOSH Pocket Guide to Chemical Hazards – Calcium Hydroxide]
* [https://www.cdc.gov/niosh/npg/npgd0092.html CDC – NIOSH Pocket Guide to Chemical Hazards – Calcium Hydroxide]
* [http://www.avantormaterials.com/documents/MSDS/usa/English/C0407_msds_us_Default.pdf MSDS Data Sheet]
* [https://web.archive.org/web/20120325005938/http://www.avantormaterials.com/documents/MSDS/usa/English/C0407_msds_us_Default.pdf MSDS Data Sheet]
 
{{Calcium compounds}}
{{Hydroxides}}
{{Authority control}}
{{Use dmy dates|date=June 2011}}
 
{{DEFAULTSORT:Calcium Hydroxide}}
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[[Category:Inorganic compounds]]
[[Category:Intoxication]]
[[Category:E-number additives]]