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A collection of decorative soaps, usually found in hotels

Soap is an anionic surfactant used in conjunction with water for washing and cleaning, which historically comes either in solid bars or in the form of a viscous liquid.

Soap consists of sodium or potassium salts of fatty acids and is obtained by reacting common oils or fats with a strong alkaline solution (the base, popularly referred to as lye) in a process known as saponification. The fats are hydrolyzed by the base, yielding alkali salts of fatty acids (crude soap) and glycerol.

Today, soap is often replaced by other cleaning agents, such as synthetic detergents.

Contents

Overview

A diagram of the function of soap.

Soaps are useful for cleaning because soap molecules have both a hydrophilic end, which dissolves in water, as well as a hydrophobic end, which is able to dissolve nonpolar grease molecules. Although grease will normally adhere to skin or clothing, the soap molecules can form micelles which surround the grease particles and allow them to be dissolved in water. Applied to a soiled surface, soapy water effectively holds particles in colloidal suspension so it can be rinsed off with clean water. The hydrophobic portion (made up of a long hydrocarbon chain) dissolves dirt and oils, while the ionic end dissolves in water. Therefore, it allows water to remove normally-insoluble matter by emulsification. In other words, while normally oil and water do not mix, the addition of soap allows oils to dissolve in water, allowing them to be rinsed away.

History

Early history

The earliest recorded evidence of the production of soap-like materials dates back to around 2800 BC in Ancient Babylon.[1] A formula for soap consisting of water, alkali and cassia oil was written on a Babylonian clay tablet around 2200 BC.

The Ebers papyrus (Egypt, 1550 BC) indicates that ancient Egyptians bathed regularly and combined animal and vegetable oils with alkaline salts to create a soap-like substance. Egyptian documents mention that a soap-like substance was used in the preparation of wool for weaving.

Roman history

The word "soap" (Latin sapo) appears first in a European language in Pliny the Elder's Historia Naturalis, which discusses the manufacture of soap from tallow and ashes, but the only use he mentions for it is as a pomade for hair; he mentions rather disapprovingly that among the Gauls and Germans men are likelier to use it than women.[2]

A popular belief encountered in some places claims that soap takes its name from a supposed "Mount Sapo" where ancient Romans sacrificed animals.[3] Rain would send a mix of animal tallow and wood ash down the mountain and into the clay soil on the banks of the Tiber, producing a sudsy substance that could be used to clean clothes.[4] The location of Mount Sapo is unknown, as is the source of the "ancient Roman legend" to which this tale is typically credited. In fact, the Latin word sapo simply means "soap"; it was borrowed from a Celtic or Germanic language, and is cognate with Latin sebum, "tallow", which appears in Pliny the Elder's account. Roman animal sacrifices usually burned only the bones and inedible entrails of the sacrificed animals; edible meat and fat from the sacrifices were taken by the humans rather than the gods. Animal sacrifices in the ancient world would not have included enough fat to make much soap. The legend about Mount Sapo is probably apocryphal.[citation needed]

Zosimos of Panopolis c. 300 AD describes soap and soapmaking.[5] Galen describes soap-making using lye and prescribes washing to carry away impurities from the body and clothes. According to Galen, the best were German and ones from Gaul were second best. This is a reference to true soap in antiquity.[5]

Medieval history

Soap-makers in Naples were members of a guild in the late sixth century,[6] and in the 8th century, soap-making was well-known in Italy and Spain.[7] The Carolingian capitulary De Villis, dating to around 800, and sometimes attributed to Charlemagne, mentions soap as being one of the products the stewards of estates are to tally. Soap-making is mentioned both as "women's work" and the produce of "good workmen" alongside other necessities such as the produce of carpenters, blacksmiths and bakers. [8]

Soaps made from vegetable oils (such as olive oil), aromatic oils (such as thyme oil) and lye (al-Soda al-Kawia) were first produced by chemists. From the beginning of the 7th century, soap was produced in Nablus (West Bank), Kufa (Iraq) and Basra (Iraq). Soap was perfumed and colored, some of the soaps were liquid and others were solid. They also had special soap for shaving. It was sold for 3 Dirhams (0.3 Dinars) a piece in 981 AD. The Persian chemist Al-Razi wrote a manuscript on recipes for true soap. A recently discovered manuscript from the 13th century details more recipes for soap making; e.g. take some sesame oil, a sprinkle of potash, alkali and some lime, mix them all together and boil. When cooked, they are poured into molds and left to set, leaving hard soap.

Modern history

1922 magazine advertisement for Palmolive Soap

Finer soaps were later produced in Europe from the 16th century, using vegetable oils (such as olive oil) as opposed to animal fats. Many of these soaps are still produced, both industrially and by small scale artisans. Castile soap is a popular example of the vegetable-only soaps derived by the oldest "white soap" of Italy.

In modern times, the use of soap has become universal in industrialized nations due to a better understanding of the role of hygiene in reducing the population size of pathogenic microorganisms. Industrially manufactured bar soaps first became available in the late eighteenth century, as advertising campaigns in Europe and the United States promoted popular awareness of the relationship between cleanliness and health.[9]

Commercial production

Liquid soap

Until the Industrial Revolution, soap-making was done on a small scale and the product was rough. Andrew Pears started making a high-quality, transparent soap in 1789 in London. His son-in-law, Thomas J. Barratt, opened a factory in Isleworth in 1862. William Gossage produced low-price good quality soap from the 1850s. Robert Spear Hudson began manufacturing a soap powder in 1837, initially by grinding the soap with a mortar and pestle. William Hesketh Lever and his brother, James, bought a small soap works in Warrington in 1885 and founded what is still one of the largest soap businesses, now called Unilever. These soap businesses were among the first to employ large scale advertising campaigns.

Soapmaking

Handmade soaps sold at a shop in Hyères, France

The most popular soapmaking process today is the cold process method, where fats such as olive oil react with lye, while some soapers use the historical hot process.

Handmade soap differs from industrial soap in that, usually, an excess of fat is sometimes used to consume the alkali (superfatting), and in that the glycerin is not removed, leaving a naturally moisturising soap and not pure detergent. Superfatted soap, soap which contains excess fat, is more skin-friendly than industrial soap, though if too much fat is added, it can leave users with a "greasy" feel to their skin. Often, emollients such as jojoba oil or shea butter are added 'at trace' (the point at which the saponification process is sufficiently advanced that the soap has begun to thicken), after most of the oils have saponified, so that they remain unreacted in the finished soap. Superfatting can also be accomplished through a process called superfat discount, where, instead of putting in extra fats, the soap maker puts in less lye.

Lye

Reacting fat with sodium hydroxide will produce a stable soap that will usually become firmer as it cures. Reacting fat with potassium hydroxide will produce a soap that is either soft or liquid.

Historically, the alkali used was potassium hydroxide made from the ashes of bracken or from wood ashes.

Fat

Traditional Marseille soap
(Azul e Branco Soap) - A bar of blue-white offenbach soap

Soap is derived from either vegetable or animal fats. Sodium tallowate, a common ingredient in many soaps, is derived from rendered beef fat. Soap can also be made of vegetable oils, such as palm oil, and the product is typically softer. If soap is made from pure olive oil it may be called Castile soap or Marseille soap. Castile is also sometimes applied to soaps with a mix of oils, but a high percentage of olive oil.

An array of saponifiable oils and fats are used in the process such as olive, coconut, palm, cocoa butter, hemp oil and shea butter to provide different qualities. For example, olive oil provides mildness in soap; coconut oil provides lots of lather; while coconut and palm oils provide hardness. Sometimes castor oil can also be used as an ebullient. Most common, though, is a combination of coconut, palm, and olive oils.

Smaller amounts of unsaponifiable oils and fats that do not yield soap are sometimes added for further benefits.

Process

Manufacturing process of soaps/detergents

In both cold-process and hot-process soapmaking, heat may be required for saponification.

Cold-process soapmaking takes place at a sufficient temperature to ensure the liquefication of the fat being used. The lye and fat may be kept warm after mixing to ensure that the soap is completely saponified.

Unlike cold-processed soap, hot-processed soap can be used right away because lye and fat saponify more quickly at the higher temperatures used in hot-process soapmaking.

Hot-process soapmaking was used when the purity of lye was unreliable, and this process can use natural lye solutions, such as potash. The main benefit of hot processing is that the exact concentration of the lye solution does not need to be known to perform the process with adequate success.

Cold-process soapmaking requires exact measurements of lye and fat amounts and computing their ratio, using saponification charts to ensure that the finished product is mild and skin-friendly. Saponification charts can also be used in hot-process soapmaking, but are not as necessary as in cold-process soapmaking.

Hot process

In the hot-process method, lye and fat are boiled together at 80–100 °C until saponification occurs, which the soapmaker can determine by taste (the bright, distinctive taste of lye disappears once all the lye is saponified) or by eye (the experienced eye can tell when gel stage and full saponification have occurred).

After saponification has occurred, the soap is sometimes precipitated from the solution by adding salt, and the excess liquid drained off.

The hot, soft soap is then spooned into a mold.

Cold process

A cold-process soapmaker first looks up the saponification value of the fats being used on a saponification chart, which is then used to calculate the appropriate amount of lye. Excess unreacted lye in the soap will result in a very high pH and can burn or irritate skin. Not enough lye, and the soap is greasy. Most soap makers formulate their recipes with a 4-10% discount of lye so that all of the lye is reacted and that excess fat is left for skin conditioning benefits.

The lye is dissolved in water. Then oils are heated, or melted if they are solid at room temperature. Once both substances have cooled to approximately 100-110°F (37-43°C), and are no more than 10°F (~5.5°C) apart, they may be combined. This lye-fat mixture is stirred until "trace" (modern-day amateur soapmakers often use a stick blender to speed this process). There are varying levels of trace. Depending on how additives will affect trace, they may be added at light trace, medium trace or heavy trace. After much stirring, the mixture turns to the consistency of a thin pudding. "Trace" corresponds roughly to viscosity.

Essential oils, fragrance oils, botanicals, herbs, oatmeal or other additives are added at light trace, just as the mixture starts to thicken.

The batch is then poured into molds, kept warm with towels, or blankets, and left to continue saponification for 18 to 48 hours. Milk soaps are the exception. They do not require insulation. Insulation may cause the milk to burn. During this time, it is normal for the soap to go through a "gel phase" where the opaque soap will turn somewhat transparent for several hours, before once again turning opaque. The soap will continue to give off heat for many hours after trace.

After the insulation period the soap is firm enough to be removed from the mold and cut into bars. At this time, it is safe to use the soap since saponification is complete. However, cold-process soaps are typically cured and hardened on a drying rack for 2-6 weeks (depending on initial water content) before use. If using caustic soda it is recommended that the soap is left to cure for at least four weeks.

Molds

Many soap molds are made of silicon or various types of plastic, although many soap making hobbyists may use cardboard boxes that are lined with plastic wrap. Soaps can be made in long loaves that are cut into individual bars, block molds that are cut into loaves and then bars, or individual molds. There are many beautiful molds available commercially.

Purification and finishing

The common process of purifying soap involves removal of sodium chloride, sodium hydroxide, glycerol and some impurities. These components are removed by boiling the crude soap curds in water and re-precipitating the soap with salt.

Most of the water is then removed from the soap. This was traditionally done on a chill roll which produced the soap flakes commonly used in the 1940s and 1950s. This process was superseded by spray dryers and then by vacuum dryers.

The dry soap (approximately 6-12% moisture) is then compacted into small pellets. These pellets are now ready for soap finishing, the process of converting raw soap pellets into a saleable product, usually bars.

A generic bar of soap, after purification and finishing.

Soap pellets are combined with fragrances and other materials and blended to homogeneity in an amalgamator (mixer). The mass is then discharged from the mixer into a refiner which, by means of an auger, forces the soap through a fine wire screen. From the refiner the soap passes over a roller mill (French milling or hard milling) in a manner similar to calendering paper or plastic or to making chocolate liquor. The soap is then passed through one or more additional refiners to further plasticize the soap mass. Immediately before extrusion it passes through a vacuum chamber to remove any entrapped air. It is then extruded into a long log or blank, cut to convenient lengths, passed through a metal detector and then stamped into shape in refrigerated tools. The pressed bars are packaged in many ways.

Sand or pumice may be added to produce a scouring soap. The scouring agents serve to remove dead skin cells from the surface being cleaned. This process is called exfoliation. Many newer materials are used for exfoliating soaps which are effective but do not have the sharp edges and pore size distribution of pumice.

Nanoscopic metals are commonly added to certain soaps specifically for both coloration and anti-bacterial properties. Titanium powder is commonly used in extreme "white" soaps for these purposes; nickel, aluminium and silver are less commonly used. These metals provide electron-robbing behavior when in contact with bacteria, stripping electrons from the organism's surface and thereby disrupting their functioning (typically killing the bacteria when it has lost too many electrons). Because some of the metal is left behind on the skin and in the pores, the benefit can also extend beyond the actual time of washing, helping reduce bacterial contamination and reducing potential odors from bacteria on the skin surface.

See also

References

  1. ^ Willcox, Michael (2000). "Soap". in Hilda Butler. Poucher's Perfumes, Cosmetics and Soaps (10th edition ed.). Dordrecht: Kluwer Academic Publishers. pp. 453. "The earliest recorded evidence of the production of soap-like materials dates back to around 2800 BCE in ancient Babylon." 
  2. ^ Pliny the Elder, Natural History, XXVIII.191.
  3. ^ http://www.sdahq.org/cleaning/history/
  4. ^ Butler, p. 454.
  5. ^ a b Partington, James Riddick; Bert S Hall (1999). A History of Greek Fire and Gun Powder. JHU Press. pp. 307. ISBN 0801859549. 
  6. ^ footnote 48, p. 104, Understanding the Middle Ages: the transformation of ideas and attitudes in the Medieval world, Harald Kleinschmidt, illustrated, revised, reprint edition, Boydell & Brewer, 2000, ISBN 085115770X.
  7. ^ p. 632, chapter 11, Anionic and Related Lime Soap Dispersants, Raymond G. Bistline, Jr., in Anionic surfactants: organic chemistry, Helmut Stache, ed., Volume 56 of Surfactant science series, CRC Press, 1996, ISBN 0824793943.
  8. ^ Robinson, James Harvey (1904). Readings in European History: Vol. I. Ginn and co. http://www.fordham.edu/halsall/source/carol-devillis.html. 
  9. ^ McNeil, Ian (1990). An Encyclopaedia of the history of technology. Taylor & Francis. pp. 2003–205. ISBN 9780415013062. http://books.google.de/books?id=uxsOAAAAQAAJ&pg=PA203. 

Further reading

  • Garzena, Patrizia - Tadiello, Marina (2004). Soap Naturally - Ingredients, methods and recipes for natural handmade soap. Programmer Publishing. ISBN 978-0-9756764-0-0.

External links


1911 encyclopedia

Up to date as of January 14, 2010
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From LoveToKnow 1911

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Wiktionary

Up to date as of January 15, 2010

Definition from Wiktionary, a free dictionary

See also soap, and SOAP

German

Noun

Soap f

  1. soap opera, soap

Bible wiki

Up to date as of January 23, 2010

From BibleWiki


(Jer 2:22; Mal 3:2; Heb. borith), properly a vegetable alkali, obtained from the ashes of certain plants, particularly the salsola kali (saltwort), which abounds on the shores of the Dead Sea and of the Mediterranean. It does not appear that the Hebrews were acquainted with what is now called "soap," which is a compound of alkaline carbonates with oleaginous matter. The word "purely" in Isa 1:25 (R.V., "throughly;" marg., "as with lye") is lit. "as with bor." This word means "clearness," and hence also that which makes clear, or pure, alkali. "The ancients made use of alkali mingled with oil, instead of soap (Job 9:30), and also in smelting metals, to make them melt and flow more readily and purely" (Gesenius).

This entry includes text from Easton's Bible Dictionary, 1897.

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Simple English

[[File:|thumb|right|A bar of soap]] Soap is a chemical compound having sulfate. When mixed with water during bathing or washing, they help people and clothes get clean by lowering the chance of dirt and oil to get to the skin or fabric. Soaps are made from animal fats or vegetable oils. There are two basic steps in making soap. They are called Saponification and Salting-out of soap

Soap cleans very well in soft water. It is not toxic to water life. It can be broken down by bacteria. However, it is slightly soluble in water, so it is not often used in washing machines. It does not work well in hard water. It cannot be used in strongly acidic solutions. Many soap experts say that soap can be made in many ways. Man has used soap-like for at least 4000 years. The earliest recorded evidence of the making of soap-like materials dates back to around 2800 BC in Ancient Babylon.[1] A recipe for soap having water, alkali and cassia oil was written on a Babylonian clay tablet around 2200 BC.

The Ebers papyrus (Egypt, 1550 BC) looks like that ancient Egyptians bathed commonly and had animal and vegetable oils with alkaline salts to make a soap-like substance. Egyptian documents says that a soap-like substance was used in the preparation of wool for weaving.

References

  1. Willcox, Michael (2000). "Soap". In Hilda Butler. Poucher's Perfumes, Cosmetics and Soaps (10th edition ed.). Dordrecht: Kluwer Academic Publishers. pp. 453. "The earliest recorded evidence of the production of soap-like materials dates back to around 2800 BCE in ancient Babylon." 

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