Lithium soap: Difference between revisions

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Examples of Lithium salts of fatty acids
Lithium oleate, the lithium salt of oleic acid.
Lithium palmitate, the lithium salt of palmitic acid.
Lithium stearate, the lithium salt of stearic acid.

Lithium soap is a soap consisting of a lithium salt of a fatty acid.^[1]^[2] Sodium-based and potassium-based soaps are used as cleaning agents in domestic and industrial applications, whereas lithium soaps are used as components of lithium grease (white lithium).

Lithium soaps are produced by saponification of triglycerides, using lithium hydroxide or lithium carbonate as the saponification agent. Lithium soaps are used as lubricant components and form-release agents at relatively high temperatures.^[3] The main components of lithium soaps are lithium stearate and lithium 12-hydroxystearate.^[4]

Lithium grease

Tube of grease ("Fett" in German) made from lithium soap.

Lubricating greases are commonly formulated as mixtures of an oil and a lithium soap thickener.^[5] Some formulations include PTFE or other substances, such as molybdenum disulfide.

Lithium grease adheres particularly well to metal, is non-corrosive, may be used under heavy loads, and exhibits good temperature tolerance. It has a dropping point of 190 to 220 °C (370 to 430 °F) and resists moisture, so it is commonly used as lubricant in household products, such as electric garage doors, as well as in automotive applications, such as constant-velocity joints. Lithium greases using a thickener formed by reacting a simple lithium soap with an acid are known as lithium complex greases and have higher dropping points as well as improvements to other properties.^[6]

References

^ Tharwat F. Tadros (1 April 2014). An Introduction to Surfactants. De Gruyter. pp. 6–. ISBN 978-3-11-031213-3.
^ Arno Cahn (30 May 2003). 5th World Conference on Detergents: Reinventing the Industry : Opportunities and Challenges. The American Oil Chemists Society. pp. 182–. ISBN 978-1-893997-40-0.
^ The Significance of Tests of Petroleum Products: A Report. ASTM International. 1934. pp. 152–. GGKEY:FWTS3ZUUWJL.
^ Uttam Ray Chaudhuri (19 April 2016). Fundamentals of Petroleum and Petrochemical Engineering. CRC Press. pp. 89–. ISBN 978-1-4398-5161-6.
^ Angelo Nora, Alfred Szczepanek, Gunther Koenen, "Metallic Soaps" in Ullmann’s Encyclopedia of Industrial Chemistry 2005 Wiley-VCH, Weinheim. doi:10.1002/14356007.a16_361
^ David Turner. "Grease Selection: Lithium vs. Lithium Complex". Machinery Lubrication. Retrieved 2020-11-26.

[Tadros2014-1] Tharwat F. Tadros (1 April 2014). An Introduction to Surfactants. De Gruyter. pp. 6–. ISBN 978-3-11-031213-3.

[Cahn2003-2] Arno Cahn (30 May 2003). 5th World Conference on Detergents: Reinventing the Industry : Opportunities and Challenges. The American Oil Chemists Society. pp. 182–. ISBN 978-1-893997-40-0.

[3] The Significance of Tests of Petroleum Products: A Report. ASTM International. 1934. pp. 152–. GGKEY:FWTS3ZUUWJL.

[Chaudhuri2016-4] Uttam Ray Chaudhuri (19 April 2016). Fundamentals of Petroleum and Petrochemical Engineering. CRC Press. pp. 89–. ISBN 978-1-4398-5161-6.

[Ullmann-5] Angelo Nora, Alfred Szczepanek, Gunther Koenen, "Metallic Soaps" in Ullmann’s Encyclopedia of Industrial Chemistry 2005 Wiley-VCH, Weinheim. doi:10.1002/14356007.a16_361

[6] David Turner. "Grease Selection: Lithium vs. Lithium Complex". Machinery Lubrication. Retrieved 2020-11-26.

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@@ Line 9: / Line 9: @@
 | [[File:Stearic Acid Lithium Salt Structural Formula V.2.svg|center|200px]] [[Lithium stearate]], the lithium salt of [[stearic acid]].
 |}
+[[File:Литол.jpg|thumb|Lithium grease in use]]
 '''Lithium soap''' is a [[soap]] consisting of a [[lithium]] salt of a [[fatty acid]].<ref name="Tadros2014">{{cite book|author=Tharwat F. Tadros|title=An Introduction to Surfactants|url=https://books.google.com/books?id=CWznBQAAQBAJ&pg=PA6|date=1 April 2014|publisher=De Gruyter|isbn=978-3-11-031213-3|pages=6–}}</ref><ref name="Cahn2003">{{cite book|author=Arno Cahn|title=5th World Conference on Detergents: Reinventing the Industry : Opportunities and Challenges|url=https://books.google.com/books?id=VMqSJROG_WYC&pg=PA182|date=30 May 2003|publisher=The American Oil Chemists Society|isbn=978-1-893997-40-0|pages=182–}}</ref> Sodium-based and potassium-based soaps are used as cleaning agents in domestic and industrial applications, whereas lithium soaps are used as components of lithium grease (white lithium).
@@ Line 19: / Line 19: @@
 [[Grease (lubricant)|Lubricating greases]] are commonly formulated as mixtures of an oil and a lithium soap thickener.<ref name=Ullmann>Angelo Nora, Alfred Szczepanek, Gunther Koenen, "Metallic Soaps" in Ullmann’s Encyclopedia of Industrial Chemistry 2005 Wiley-VCH, Weinheim.  {{doi|10.1002/14356007.a16_361}}</ref> Some formulations include [[Polytetrafluoroethylene|PTFE]] or other substances, such as [[molybdenum disulfide]].
-Lithium grease adheres particularly well to [[metal]], is non-[[corrosion|corrosive]], may be used under heavy loads, and exhibits good temperature tolerance. It has a [[dropping point]] of {{convert|190|to|220|°C|°F|-1}} and resists moisture, so it is commonly used as lubricant in household products, such as electric garage doors, as well as in automotive applications, such as [[constant-velocity joint]]s.  Lithium greases using a thickener formed by reacting a simple lithium soap with an acid are known as lithium complex greases and have higher dropping points as well as improvements to other properties.<ref>{{cite web |url=https://www.machinerylubrication.com/Read/28381/grease-lithium-production-resistance |title=Grease Selection: Lithium vs. Lithium Complex |author=David Turner |website=Machinery Lubrication |accessdate=2020-11-26 }}</ref>
+Lithium grease adheres particularly well to [[metal]], is non-[[corrosion|corrosive]], may be used under heavy loads, and exhibits good temperature tolerance. It has a [[dropping point]] of {{convert|190|to|220|°C|°F|-1}} and resists moisture, so it is commonly used as lubricant in household products, such as electric garage doors, as well as in automotive applications, such as [[constant-velocity joint]]s.  Lithium greases using a thickener formed by reacting a simple lithium soap with an acid are known as lithium complex greases and have higher [[Dropping point|dropping points]] as well as improvements to other properties.<ref>{{cite web |url=https://www.machinerylubrication.com/Read/28381/grease-lithium-production-resistance |title=Grease Selection: Lithium vs. Lithium Complex |author=David Turner |website=Machinery Lubrication |accessdate=2020-11-26 }}</ref>
-==See also==
-* [[Helium compounds#Predicted compounds]]
 ==References==

v t e Lithium compounds (list)
Inorganic (list)	Li₂ LiAlCl₄ Li_1+xAl_xGe_2−x(PO₄)₃ LiAlH₄ LiAlO₂ LiAl_1+xTi_2−x(PO₄)₃ LiAs LiAsF₆ Li₃AsO₄ LiAt Li[AuCl₄] LiB(C₂O₄)₂ LiB(C₆F₅)₄ LiWF₆ LiBF₄ LiBH₄ LiBO₂ LiB₃O₅ Li₂B₄O₇ LiAsF₆ Li₂SnF₆ Li₂TiF₆ Li₂ZrF₆ Li₂B₄O₇·5H₂O LiBSi₂ LiBr LiBr·2H₂O LiBrO LiBrO₂ LiBrO₃ LiBrO₄ Li₂C₂ LiCF₃SO₃ CH₃CH(OH)COOLi LiC₂H₂ClO₂ LiC₂H₃IO₂ Li(CH₃)₂N LiCHO₂ LiCH₃O LiC₂H₅O LiCN Li₂CN₂ LiCNO Li₂CO₃ Li₂C₂O₄ LiCl LiCl·H₂O LiClO LiFO LiClO₂ LiClO₃ LiClO₄ LiCoO₂ Li₂CrO₄ Li₂CrO₄·2H₂O Li₂Cr₂O₇ CsLiB₆O₁₀ LiD LiF Li₂F LiF₄Al Li₃F₆Al FLiBe LiFePO₄ FLiNaK LiGaH₄ Li₂GeF₆ Li₂GeO₃ LiGe₂(PO₄)₃ LiH LiH₂AsO₄ Li₂HAsO₄ LiHCO₃ Li₃H(CO₃)₂ LiH₂PO₃ LiH₂PO₄ LiHSO₃ LiHSO₄ LiHe LiI LiIO LiIO₂ LiIO₃ LiIO₄ Li₂IrO₃ Li₇La₃Zr₂O₁₂ LiMn₂O₄ Li₂MoO₄ Li_0.9Mo₆O₁₇ LiN₃ Li₃N LiNH₂ Li₂NH LiNO₂ LiNO₃ LiNO₃·H₂O Li₂N₂O₂ LiNa Li₂NaPO₃ LiNaNO₂ LiNbO₃ Li₂NbO₃ LiO⁻ LiO₂ LiO₃ Li₂O Li₂O₂ LiOH Li₃P LiPF₆ Li₃PO₄ Li₂HPO₃ Li₂HPO₄ Li₃PO₃ Li₃PO₄ Li₂Po Li₂PtO₃ Li₂RuO₃ Li₂S LiSCN LiSH LiSO₃F Li₂SO₃ Li₂SO₄ Li[SbF₆] Li₂Se Li₂SeO₃ Li₂SeO₄ LiSi Li₂SiF₆ Li₄SiO₄ Li₂SiO₃ Li₂Si₂O₅ LiTaO₃ Li₂Te LiTe₃ Li₂TeO₃ Li₂TeO₄ Li₂TiO₃ Li₄Ti₅O₁₂ LiTi₂(PO₄)₃ LiVO₃·2H₂O Li₃V₂(PO₄)₃ Li₂WO₄ LiYF₄ Neodymium-doped LiZr₂(PO₄)₃ Li₂ZrO₃
Organic (soaps)	Hemolithin (extraterrestrial protein) Organolithium reagents Gilman reagent CH₃COOLi C₄H₆LiNO₄ LiC₂F₆NO₄S₂ LiN(SiMe₃)₂ Li₃C₆H₅O₇ C₅H₅Li LiN(C₃H₇)₂ (C₆H₅)₂PLi C₁₈H₃₅LiO₃ C₆H₁₃Li C₄H₉Li CH₃CHLiCH₂CH₃ (CH₃)₃CLi C₁₂H₂₈BLi CH₃Li Li⁺C₁₀H−8 C₅H₁₁Li C₅H₃LiN₂O₄ C₆H₅Li LiC₂CH₃ LiO₂C(CH₂)₁₆CH₃ C₄H₅LiO₄ LiEt₃BH LiOC(CH₃)₃ C₉H₁₈LiN LiC₂H₃ Vinyllithium LiC ₁₁H ₂₃COO
Minerals	Amblygonite Berezanskite Brannockite Cryolithionite Darapiosite Darrellhenryite Elbaite Fluorine Elbaite Fluor-liddicoatite Emeleusite Eucryptite LiAlSiO₄ Faizievite Hectorite Hsianghualite Jadarite LiNaSiB₃O₇OH Keatite Li(AlSi₂O₆) Kunzite Lavinskyite Lepidolite Lithiophilite LiMnPO₄ Lithiophosphate Li₃PO₄ Manandonite Manganoneptunite Nambulite Neptunite Olympite Petalite LiAlSi₄O₁₀ Pezzottaite Cs(Be₂Li)Al₂Si₆O₁₈ Rossmanite Saliotite Sogdianite Spodumene LiAl(SiO₃)₂ Sugilite Tiptopite Tourmaline Triphylite LiFePO₄ Zabuyelite Li₂CO₃ Zektzerite Zinnwaldite
Hypothetical	Li_xBe_y HLiHe⁺ LiFHeO LiHe₂ (HeO)(LiF)₂ La_2⁄3–xLi_3xTiO₃He
Other Li-related	Aluminium–lithium alloys Heteroatom-promoted lateral lithiation LB buffer Lithium atom Lithium medication LiNi_xCo_yAl_zO₂ LiNi_xMn_yCo_zO₂ Lithium soap Lithium Triangle Lucifer yellow Magnesium–lithium alloys NASICON Environmentally friendly red light flare