Fabric softener: Difference between revisions
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==Varieties== |
==Varieties== |
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Many modern [[washing machines]] have a dispenser which can add liquid fabric softener to the load of laundry automatically on the final rinse; in [[launderette]]s it may need to be added manually. Some brands of washing powder have fabric conditioning mixed in |
Many modern [[washing machines]] have a dispenser which can add liquid fabric softener to the load of laundry automatically on the final rinse; in [[launderette]]s it may need to be added manually. Some brands of washing powder have fabric conditioning mixed in. Some manufacturers claim their products make [[ironing]] easier and/or make clothes dry faster. All liquid fabric softeners are designed to be added to water - either by adding the product directly to the final rinse water or by 2:1 (water:softener) dilution in an automatic dispenser. Even diluted fabric softener will cause spotting when poured directly onto clothes and can ruin them. |
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Dry fabric softeners typically come in the form of dryer sheets, which are added to clothing in the [[tumble dryer]] to soften the fabric and prevent build up of static electricity in susceptible fabrics. Many alternative uses of dryer sheets have been suggested by users<ref>{{cite web|url=http:// |
Dry fabric softeners typically come in the form of dryer sheets, which are added to clothing in the [[tumble dryer]] to soften the fabric and prevent build up of static electricity in susceptible fabrics. Many alternative uses of dryer sheets have been suggested by users<ref>{{cite web|title=How dryer sheets work|url=http://home.howstuffworks.com/dryer-sheets.htm|publisher=Chris Morrisson}}</ref> such as adding [[vinegar]] to your washing clothes or shaking out the dry laundry.<ref>{{cite web|title=6 Eco-Friendly Alternatives to Toxic Dryer Sheets|url=http://ecowatch.com/2013/12/03/six-eco-friendly-alternatives-toxic-dryer-sheets/|publisher=Annie B. Bond}}</ref> |
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==How it works== |
==How it works== |
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Fabric softeners work by coating the surface of the cloth fibers with a thin layer of chemicals |
Fabric softeners work by coating the surface of the cloth fibers with a thin layer of chemicals causing the clothes to feel softer. These chemicals have [[lubricant]] properties and are [[electrical conductivity|electrically conductive]], thus preventing buildup of static electricity. Other functions are improvements of iron glide during ironing, increased resistance to stains, and reduction of wrinkling and pilling.<ref>{{cite web|title=Don't get slimed: Skip the fabric softener|url=http://www.ewg.org/enviroblog/2011/11/dont-get-slimed-skip-fabric-softener|publisher=Rebecca Sutton|accessdate=1 November 2011}}</ref> |
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Cationic softeners bind by electrostatic attraction to the negatively charged groups on the surface of the fibers and neutralize their charge; the long aliphatic chains are then oriented towards the outside of the fiber, imparting [[lubricity]]. |
Cationic softeners bind by electrostatic attraction to the negatively charged groups on the surface of the fibers and neutralize their charge; the long aliphatic chains are then oriented towards the outside of the fiber, imparting [[lubricity]]. Vinegar works on some materials in a similar way, as the hydrogen ions bind to the anionic groups on the fibers. Most good quality all-cotton towels do not need to be treated with fabric softener and with repeated washings and dryings, because they become softer naturally. |
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==Composition== |
==Composition== |
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The earliest fabric softeners were developed during early 20th century to counteract the harsh feel which the drying methods imparted to cotton. The cotton softeners were typically based on water emulsion of [[soap]] and [[olive oil]], [[corn oil]], or [[tallow]] oil. |
The earliest fabric softeners were developed during early 20th century by the textile industry to counteract the harsh feel which the drying methods imparted to cotton. The cotton softeners were typically based on water emulsion of [[soap]] and [[olive oil]], [[corn oil]], or [[tallow]] oil.<ref>{{cite web|title=Fabric Softener|url=http://www.madehow.com/Volume-7/Fabric-Softener.html}}</ref> |
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Contemporary fabric softeners tend to be based on [[Quaternary ammonium cation|quaternary ammonium]] salts with one or two long [[alkyl]] chains, a typical compound being [[dipalmitoylethyl hydroxyethylmonium methosulfate]].<ref>{{cite web|url=http://www.henkelconsumerinfo.com |title=Henkel Consumer Info |publisher=Henkelconsumerinfo.com |date= |accessdate=2009-06-04}}</ref> Other cationic compounds can be derived from [[imidazolium]], substituted amine salts, or quaternary [[alkoxy]] ammonium salts. One of the most common compounds of the early formulations was [[dihydrogenated tallow dimethyl ammonium chloride]] (DHTDMAC). |
Contemporary fabric softeners tend to be based on [[Quaternary ammonium cation|quaternary ammonium]] salts with one or two long [[alkyl]] chains, a typical compound being [[dipalmitoylethyl hydroxyethylmonium methosulfate]].<ref>{{cite web|url=http://www.henkelconsumerinfo.com |title=Henkel Consumer Info |publisher=Henkelconsumerinfo.com |date= |accessdate=2009-06-04}}</ref> Other cationic compounds can be derived from [[imidazolium]], substituted amine salts, or quaternary [[alkoxy]] ammonium salts. One of the most common compounds of the early formulations was [[dihydrogenated tallow dimethyl ammonium chloride]] (DHTDMAC). |
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The softening compounds differ in affinity to different materials. Some are better for [[cellulose]]-based fibers, others have higher affinity to hydrophobic materials like [[nylon]], [[polyethylene terephthalate]], [[polyacrylonitrile]], etc. [[Silicone]]-based compounds such as [[polydimethylsiloxane]] comprise the new softeners which work by lubricating the fibers. Derivatives with amine- or amide-containing functional groups are used as well. These groups help the softeners bind better to fabrics. |
The softening compounds differ in affinity to different materials. Some are better for [[cellulose]]-based fibers, others have higher affinity to hydrophobic materials like [[nylon]], [[polyethylene terephthalate]], [[polyacrylonitrile]], etc. [[Silicone]]-based compounds such as [[polydimethylsiloxane]] comprise the new softeners which work by lubricating the fibers. Derivatives with amine- or amide-containing functional groups are used as well. These groups help the softeners bind better to fabrics. |
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As the softeners themselves are often of hydrophobic nature, they are commonly occurring in the form of an [[emulsion]]. In the early formulations, [[soap]]s were used as [[emulsifier]]s. The emulsions are usually opaque, milky fluids. However there are also [[microemulsion]]s where the droplets of the hydrophobic phase are substantially smaller{{Nonspecific|date=August 2011}}. The advantage of microemulsions is in the increased ability of the smaller particles to penetrate into the fibers. A mixture of cationic and non-ionic surfactants is often used as an emulsifier. Another approach is using a polymeric network |
As the softeners themselves are often of hydrophobic nature, they are commonly occurring in the form of an [[emulsion]]. In the early formulations, [[soap]]s were used as [[emulsifier]]s. The emulsions are usually opaque, milky fluids. However there are also [[microemulsion]]s where the droplets of the hydrophobic phase are substantially smaller{{Nonspecific|date=August 2011}}. The advantage of microemulsions is in the increased ability of the smaller particles to penetrate into the fibers. A mixture of cationic and non-ionic surfactants is often used as an emulsifier. Another approach is using a polymeric network; an emulsion polymer. |
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Other compounds are included to provide additional functions; acids or bases for maintaining the optimal [[pH]] for adsorption to the fabric, electrolytes, carriers (usually water, sometimes water-alcohol mixture), and others, e.g. silicone-based [[anti-foaming agent]]s, emulsion stabilizers, fragrances, and colors.<ref>{{cite web|url=http://www.patentstorm.us/patents/5643865-claims.html |title=Concentrated biodegradable quaternary ammonium fabric softener compositions containing quaternary ammonium compounds with short fatty acid alkyl chains - US Patent 5643865 Claims |publisher=Patentstorm.us |date= |accessdate=2009-06-04}}</ref> A relatively recent form on the market are the ultra-concentrates, where the amount of carriers and some other chemicals is substantially lower and much smaller volumes are used. |
Other compounds are included to provide additional functions; acids or bases for maintaining the optimal [[pH]] for adsorption to the fabric, electrolytes, carriers (usually water, sometimes water-alcohol mixture), and others, e.g. silicone-based [[anti-foaming agent]]s, emulsion stabilizers, fragrances, and colors.<ref>{{cite web|url=http://www.patentstorm.us/patents/5643865-claims.html |title=Concentrated biodegradable quaternary ammonium fabric softener compositions containing quaternary ammonium compounds with short fatty acid alkyl chains - US Patent 5643865 Claims |publisher=Patentstorm.us |date= |accessdate=2009-06-04}}</ref> A relatively recent form on the market are the ultra-concentrates, where the amount of carriers and some other chemicals is substantially lower and much smaller volumes are used. |
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==Health and environmental Issues== |
==Health and environmental Issues== |
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Fabric softeners contain chemicals that impregnate fabric and are released over time. These chemicals may come in direct contact with the skin and may be absorbed or inhaled. Certain ingredients release formaldehyde, which has been linked to [[cancer]] in laboratory tests.<ref>{{cite web|url=http://www.environmentalhealth.ca/special/fall07FabricSofteners.html|title=Get rid of chemical fabric softeners: Protect your health and the environment |accessdate=April 26, 2012}}</ref> Among other softener components are benzyl acetate (linked to pancreatic cancer), benzyl alcohol (an upper respiratory tract irritant), and chloroform (a neurotoxin and carcinogen).<ref>{{cite web|title="Greener" Laundry by the Load: Fabric Softener versus Dryer Sheets|url=http://www.scientificamerican.com/article.cfm?id=greener-laundry|publisher=Scientific American|accessdate=27 April 2012}}</ref> Some chemicals are neurostimulants or irritators and may be linked to central nervous system toxin exposure symptoms like headaches, |
Fabric softeners contain chemicals that impregnate fabric and are released over time. These chemicals may come in direct contact with the skin and may be absorbed or inhaled. chemicals Certain ingredients release formaldehyde, which has been linked to [[cancer]] in laboratory tests.<ref>{{cite web|url=http://www.environmentalhealth.ca/special/fall07FabricSofteners.html|title=Get rid of chemical fabric softeners: Protect your health and the environment |accessdate=April 26, 2012}}</ref> The chemicals that are taken in by the body can also cause [[asthma]].<ref>{{cite web|title=Don't get slimed: Skip the fabric softener|url=http://www.ewg.org/enviroblog/2011/11/dont-get-slimed-skip-fabric-softener|publisher=Rebecca Sutton|accessdate=1 November 2011}}</ref> Among other softener components are benzyl acetate (linked to pancreatic cancer), benzyl alcohol (an upper respiratory tract irritant), and chloroform (a neurotoxin and carcinogen).<ref>{{cite web|title="Greener" Laundry by the Load: Fabric Softener versus Dryer Sheets|url=http://www.scientificamerican.com/article.cfm?id=greener-laundry|publisher=Scientific American|accessdate=27 April 2012}}</ref> Some chemicals are neurostimulants or irritators and may be linked to central nervous system toxin exposure symptoms like headaches, disorientation, mood swings, numbness in face or extremities, memory loss, or irritability.<ref>{{cite web|title=Fabric Softeners = Health Risks|url=http://www.ourlittleplace.com/fabric.html|accessdate=27 April 2012}}</ref> |
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==References== |
==References== |
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Revision as of 19:13, 10 April 2014
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Fabric softener (also called fabric conditioner) is a conditioner used to prevent static cling and make fabric softer. It is available as a liquid, crystals, and dryer sheets.
Varieties
Many modern washing machines have a dispenser which can add liquid fabric softener to the load of laundry automatically on the final rinse; in launderettes it may need to be added manually. Some brands of washing powder have fabric conditioning mixed in. Some manufacturers claim their products make ironing easier and/or make clothes dry faster. All liquid fabric softeners are designed to be added to water - either by adding the product directly to the final rinse water or by 2:1 (water:softener) dilution in an automatic dispenser. Even diluted fabric softener will cause spotting when poured directly onto clothes and can ruin them.
Dry fabric softeners typically come in the form of dryer sheets, which are added to clothing in the tumble dryer to soften the fabric and prevent build up of static electricity in susceptible fabrics. Many alternative uses of dryer sheets have been suggested by users[1] such as adding vinegar to your washing clothes or shaking out the dry laundry.[2]
How it works
Fabric softeners work by coating the surface of the cloth fibers with a thin layer of chemicals causing the clothes to feel softer. These chemicals have lubricant properties and are electrically conductive, thus preventing buildup of static electricity. Other functions are improvements of iron glide during ironing, increased resistance to stains, and reduction of wrinkling and pilling.[3]
Cationic softeners bind by electrostatic attraction to the negatively charged groups on the surface of the fibers and neutralize their charge; the long aliphatic chains are then oriented towards the outside of the fiber, imparting lubricity. Vinegar works on some materials in a similar way, as the hydrogen ions bind to the anionic groups on the fibers. Most good quality all-cotton towels do not need to be treated with fabric softener and with repeated washings and dryings, because they become softer naturally.
Composition
The earliest fabric softeners were developed during early 20th century by the textile industry to counteract the harsh feel which the drying methods imparted to cotton. The cotton softeners were typically based on water emulsion of soap and olive oil, corn oil, or tallow oil.[4]
Contemporary fabric softeners tend to be based on quaternary ammonium salts with one or two long alkyl chains, a typical compound being dipalmitoylethyl hydroxyethylmonium methosulfate.[5] Other cationic compounds can be derived from imidazolium, substituted amine salts, or quaternary alkoxy ammonium salts. One of the most common compounds of the early formulations was dihydrogenated tallow dimethyl ammonium chloride (DHTDMAC).
Anionic softeners and antistatic agents can be, for example, salts of monoesters and diesters of phosphoric acid and the fatty alcohols. These are often used together with the conventional cationic softeners. Cationic softeners are incompatible with anionic surfactants used in detergents because they combine with them to form a solid precipitate. So, they must instead be added during the rinse cycle. Anionic softeners can be combined with anionic surfactants directly. Other anionic softeners can be based on smectite clays. Some compounds, such as ethoxylated phosphate esters, have softening, anti-static, and surfactant properties.[6]
The softening compounds differ in affinity to different materials. Some are better for cellulose-based fibers, others have higher affinity to hydrophobic materials like nylon, polyethylene terephthalate, polyacrylonitrile, etc. Silicone-based compounds such as polydimethylsiloxane comprise the new softeners which work by lubricating the fibers. Derivatives with amine- or amide-containing functional groups are used as well. These groups help the softeners bind better to fabrics.
As the softeners themselves are often of hydrophobic nature, they are commonly occurring in the form of an emulsion. In the early formulations, soaps were used as emulsifiers. The emulsions are usually opaque, milky fluids. However there are also microemulsions where the droplets of the hydrophobic phase are substantially smaller[not specific enough to verify]. The advantage of microemulsions is in the increased ability of the smaller particles to penetrate into the fibers. A mixture of cationic and non-ionic surfactants is often used as an emulsifier. Another approach is using a polymeric network; an emulsion polymer.
Other compounds are included to provide additional functions; acids or bases for maintaining the optimal pH for adsorption to the fabric, electrolytes, carriers (usually water, sometimes water-alcohol mixture), and others, e.g. silicone-based anti-foaming agents, emulsion stabilizers, fragrances, and colors.[7] A relatively recent form on the market are the ultra-concentrates, where the amount of carriers and some other chemicals is substantially lower and much smaller volumes are used.
Health and environmental Issues
Fabric softeners contain chemicals that impregnate fabric and are released over time. These chemicals may come in direct contact with the skin and may be absorbed or inhaled. chemicals Certain ingredients release formaldehyde, which has been linked to cancer in laboratory tests.[8] The chemicals that are taken in by the body can also cause asthma.[9] Among other softener components are benzyl acetate (linked to pancreatic cancer), benzyl alcohol (an upper respiratory tract irritant), and chloroform (a neurotoxin and carcinogen).[10] Some chemicals are neurostimulants or irritators and may be linked to central nervous system toxin exposure symptoms like headaches, disorientation, mood swings, numbness in face or extremities, memory loss, or irritability.[11]
References
- ^ "How dryer sheets work". Chris Morrisson.
- ^ "6 Eco-Friendly Alternatives to Toxic Dryer Sheets". Annie B. Bond.
- ^ "Don't get slimed: Skip the fabric softener". Rebecca Sutton. Retrieved 1 November 2011.
- ^ "Fabric Softener".
- ^ "Henkel Consumer Info". Henkelconsumerinfo.com. Retrieved 2009-06-04.
- ^ "Fabric softener and anti-static compositions - Patent 4118327". Freepatentsonline.com. 1977-03-28. Retrieved 2009-06-04.
- ^ "Concentrated biodegradable quaternary ammonium fabric softener compositions containing quaternary ammonium compounds with short fatty acid alkyl chains - US Patent 5643865 Claims". Patentstorm.us. Retrieved 2009-06-04.
- ^ "Get rid of chemical fabric softeners: Protect your health and the environment". Retrieved April 26, 2012.
- ^ "Don't get slimed: Skip the fabric softener". Rebecca Sutton. Retrieved 1 November 2011.
- ^ ""Greener" Laundry by the Load: Fabric Softener versus Dryer Sheets". Scientific American. Retrieved 27 April 2012.
- ^ "Fabric Softeners = Health Risks". Retrieved 27 April 2012.