SOAP Chemical Properties

Flash point:

22 °C

Safety Information

Hazard Codes 

Xn

Risk Statements 

10-68/20/21/22-20/21/22

Safety Statements 

23-24/25-36/37

RIDADR 

UN 1993 3/PG 2

SOAP Usage And Synthesis

Description

The water-soluble reaction product of a fatty acid ester and an alkali (usually sodium hydroxide),with glycerol as a byproduct. A soap is actually a specific type of salt, the hydrogen of the fatty acid being replaced by a metal, which in common soaps is usually sodium. Soap lowers the surface tension of water and permits emulsification of fat bearing soil particles. A typical commercial cleaning soap is made by reacting sodium hydroxide with a fatty acid. The lower the hydrogen content of the acid,the thinner is the soap. The byproduct of the reaction is glycerol. Many different carboxyl-containing substances are used, including rosin, tall oil, and vegetable and animal oils and fats (stearic, palmitic,and oleic acids).Olive oil is used for Castile soap and transparent soaps are made from decolorized fats. The specific gravity of soaps is slightly more than 1.0 and the inclusion of air gives a floating product. Water solutions of sodium soaps in bar,chip,or powder form are universally used as mild emulsifying detergents for washing textiles, skin, paint,etc.Medically,soap is used as an antidote for poisoning by ingestion of mineral acids or heavy metals.Liquid green soap is made with potassium hydroxide and a vegetable oil.
Heavy-metal soaps, loosely called metallic soaps, are those formed by metals heavier than sodium(aluminum, calcium,cobalt,lead,and zinc). These soaps are not water-soluble and specific types are used in lubricating greases, gel thickeners,and in paints as dryers and flatting agents. Napalm is an aluminum soap.

Uses

According to an ancient Roman legend, soap got its name from Mount Sapo, where animals were sacrificed. Rain washed a mixture of melted animal fat or tallow and wood ashes down into the clay soil along the Tiber River. It was found that this clay mixture cleaned the washed clothes with much less effort.
The term soap is a class name for the sodium and potassium salts of fatty acids. These fatty acids were found in animal fats and in plant oils such as coconut oil, palm oil, olive oil, castor oil, or cottonseed oil.
Soaps are manufactured from a renewable source. The triglycerides (or triesters of fatty acids) are the raw material for the production of soap. The triglycerides occur widely in plants and animals. Tallow and coconut oil are the principal fatty materials in soap making in the United States. The palm oils, palm kernel oil, and their derivatives are used in soap manufacture in many other parts of the world.
Greases, obtained from hogs and smaller domestic animals, are the second most important source of glycerides of fatty acids. Coconut oil has long been important in soap making. The soap from coconut oil is firm and lathers well. It contains a large amount of the desired glycerides of lauric and myristic acids [1-6].
The soap maker represents one of the larger consumers of chemicals, especially caustic soda, salt, soda ash, caustic potash, sodium silicate, sodium bicarbonate, and trisodium phosphate. Builders are inorganic chemicals added to soap. In particular, tetrasodium pyrophosphate and sodium tripolyphosphate were usually effective soap builders [1-6].

Definition

(1) The water-soluble reaction product of a fatty acid ester and an alkali (usually sodium hydroxide), with glycerol as by-product. For the reaction, see saponification. A soap is actually a spe- cific type of salt, the hydrogen of the fatty acid being re

Definition

One of a number of sodium or potassium compounds of fatty acids that are commonly used to improve the cleansing properties of water. Soap was the earliest known DETERGENT. It is made by first reacting vegetable oils and animal fats with a strong solution of sodium or potassium hydroxide to produce organic acids, such as octadecanoic acid. The soap is then precipitated out as the salt, e.g. sodium octadecanoate, by adding excess sodium chloride. In water, soap molecules break up to produce ions, which are responsible for the cleansing properties.

Synthesis

1. 500g of waste grease, 200g of purified water, 71g of caustic soda, 100g of refined salt, and 750g of hot water are used as raw materials to make the product by salting method. Firstly, mix caustic soda and pure water and cool it slightly.
2. Heat the waste grease to about 80C. When the caustic soda solution and grease are at the same temperature, mix them and stir.
3. During the stirring process, heat the soap while continuing to stir without interruption, and the soap will begin to change shape. Keeping the stirring at a high temperature of about 80C allows the soap to undergo a rapid saponification reaction.
4, when stirring to become a grain by grain with a little transparent state of the soap particles, you can stop stirring, but the temperature can not be changed.
5, the pre-prepared 750g of boiling water, the refined salt dissolved, and then the hot brine, add just now has been prepared in the soap particles.
6, brine mixed in, while continuing to heat to maintain the previous high temperature, while stirring very well, will find that the soap and water began to separate. Salt analysis will separate the glycerin, pigment, protein and other impurities in the soap, can get a very high purity of soap.
7, keep turning and stirring, so that the brine and soap better mix evenly penetrate into every corner of the soap. Keep stirring for about ten minutes, then set them aside to cool naturally. Be careful to stir gently to avoid splashing hot water.
8. Mix the solution and let it sit overnight. You can see that the soap will float in the upper layer, the lower layer is mixed with glycerin and other impurities in the brine.
9, take out the upper layer of soap, dry, after the crusher can be made into soap powder, can also be used directly.

SOAP(8029-38-7)Related Product Information

• Tosylmethyl isocyanide
• Benzyl isocyanide
• PHENYLSELENOL
• Cupric acetylacetonate
• TRIS(2,2,6,6-TETRAMETHYL-3,5-HEPTANEDIONATO)EUROPIUM(III)
• 1,1,3,3-TETRAMETHYLBUTYL ISOCYANIDE
• SALCOMINE
• DICHLORO(ETHYLENEDIAMINE)PLATINUM(II)
• Tris(2,4-pentanedionato)chroMiuM(III)
• Ethyl isocyanoacetate
• TERT-BUTYL ISOCYANIDE
• Ferric acetylacetonate
• 2,4-PENTANEDIONE, SILVER DERIVATIVE
• N-BUTYLISOCYANIDE
• TRIS(2,2,6,6-TETRAMETHYL-3,5-HEPTANEDIONATO)DYSPROSIUM(III)
• COBALT(II) ACETYLACETONATE
• METHYL ISOCYANOACETATE
• TALL OIL FATTY ACIDS, TRIETHANOLAMINE SOAP)