# Caking

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{{Short description|Tendency of powder to form lumps or masses}}
[[Image:Calcium chloride CaCl2.jpg|thumb|right|Sample of [calcium chloride](/source/calcium_chloride), showing its tendency to cake.]]
'''Caking''' is a powder's tendency to form lumps or masses.  The formation of lumps interferes with packaging, transport, flowability, and consumption.<ref name=PT/><ref name=Ullmann>{{cite book |doi=10.1002/14356007.a11_561 |chapter=Foods, 3. Food Additives |title=Ullmann's Encyclopedia of Industrial Chemistry |year=2000 |last1=Lück |first1=Erich |last2=von Rymon Lipinski |first2=Gert-Wolfhard |isbn=978-3-527-30385-4 }}</ref>  Usually caking is undesirable, but it is useful when pressing powdered substances into pills or [briquette](/source/briquette)s. [Granular material](/source/Granular_material)s can also be subject to caking, particularly those that are [hygroscopic](/source/hygroscopy) such as salt, sugar, and many [chemical fertilizer](/source/chemical_fertilizer)s. [Anticaking agent](/source/Anticaking_agent)s are commonly added to control caking.

Caking properties must be considered when designing and constructing [bulk material handling](/source/bulk_material_handling) equipment. Powdered substances that need to be stored, and flow smoothly at some time in the future, are often [pelletize](/source/pelletize)d or made into [pill](/source/pill_(pharmacy))s.

==Mechanism==
Caking mechanisms depend on the nature of the material. Caking is a consequence of chemical reactions of grain surfaces.  Often these reactions involve adsorption of water vapor or other gases.  Crystalline solids often cake by formation of liquid bridge between microcrystals and subsequent fusion of a solid bridge. Amorphous materials can cake by [glass transition](/source/glass_transition)s and changes in viscosity.  Polymorphic [phase transition](/source/phase_transition)s can also induce caking.<ref name=PT>{{cite journal|journal=Powder Technology|title=Caking of Crystals: Characterization, Mechanisms and Prevention |author=Mingyang Chen |author2=Songgu Wu |author3=Shiji Xu |author4=Bo Yu |author5=Mohannad Shilbayeh |author6=Ya Liu |author7=Xiaowen Zhu |author8=Jingkang Wang |author9=Junbo Gong |year=2018|volume=337|pages=51–67|doi=10.1016/j.powtec.2017.04.052}}</ref> The caking process can involve [electrostatic attraction](/source/electrostatic_attraction)s or the formation of weak [chemical bond](/source/chemical_bond)s between particles.
[[File:Charcoal Briquette.JPG|thumb|The tendency of charcoal to cake is exploited in producing [briquettes](/source/briquettes), which are more conveniently handled than loose charcoal.]]

==Anticaking agents==
{{main|Anticaking agent}}
Anticaking agents are chemical compounds that prevent caking.  Some anticaking agents function by [absorbing](/source/Absorption_(chemistry)) excess moisture or by coating particles and making them water-repellent. [Calcium silicate](/source/Calcium_silicate) (CaSiO<sub>3</sub>), a common anti-caking agent added to table salt, absorbs both water and [oil](/source/oil).  Anticaking agents are also used in non-food items such as [road salt](/source/road_salt),<ref>{{cite web|url=http://www.transportation.org/?siteid=55&pageid=948 |title=Anticaking Admixtures to Road Salt |publisher=Transportation.org |date= |access-date=2010-06-17}}</ref> [fertiliser](/source/fertiliser)s,<ref>{{cite web|url=https://patents.google.com/patent/US4356020 |title=Fertilizer compositions containing alkylene oxide adduct anticaking agents |publisher=Google.com |date= |access-date=2010-06-17}}</ref> [cosmetics](/source/cosmetics),<ref>{{cite web |url=http://www.cosmeticsinfo.org/HBI/26 |title=Talc Information |publisher=Cosmeticsinfo.org |date= |access-date=2010-06-17 |archive-date=2015-05-20 |archive-url=https://web.archive.org/web/20150520054524/http://www.cosmeticsinfo.org/HBI/26 |url-status=dead }}</ref> synthetic [detergent](/source/detergent)s,<ref>{{cite web |url=http://www.chemistry.co.nz/introduction.htm |title=Synthetic Detergents: Introduction to Detergent Chemistry |publisher=Chemistry.co.nz |date=2006-12-15 |access-date=2010-06-17 |archive-url=https://web.archive.org/web/20100526021811/http://www.chemistry.co.nz/introduction.htm |archive-date=26 May 2010 }}</ref> and in manufacturing applications.
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==References==
<references />

Category:Chemical engineering
Category:Particle technology

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Adapted from the Wikipedia article [Caking](https://en.wikipedia.org/wiki/Caking) by Wikipedia contributors ([contributor history](https://en.wikipedia.org/wiki/Caking?action=history)). Available under [Creative Commons Attribution-ShareAlike 4.0 International](https://creativecommons.org/licenses/by-sa/4.0/). Changes may have been made.
