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SODIUM STEARATE

 

CAS NO:822-16-2
EC NO:212-490-5

Sodium stearate is the sodium salt of stearic acid. This white solid is the most common soap. 
Sodium stearate is found in many types of solid deodorants, rubbers, latex paints, and inks. 
Sodium stearate is also a component of some food additives and food flavorings.

Use
Characteristic of soaps, sodium stearate has both hydrophilic and hydrophobic parts, the carboxylate and the long hydrocarbon chain, respectively. These two chemically different components induce the formation of micelles, which present the hydrophilic heads outwards and their hydrophobic (hydrocarbon) tails inwards, providing a lipophilic environment for hydrophobic compounds. The tail part dissolves the grease (or) dirt and forms the micelle. 
Sodium stearate is also used in the pharmaceutical industry as a surfactant to aid the solubility of hydrophobic compounds in the production of various mouth foams.

Production
Sodium stearate is produced as a major component of soap upon saponification of oils and fats. The percentage of the sodium stearate depends on the ingredient fats. Tallow is especially high in stearic acid content (as the triglyceride), whereas most fats only contain a few percent. The idealized equation for the formation of sodium stearate from stearin (the triglyceride of stearic acid) follows:

(C18H35O2)3C3H5 + 3 NaOH → C3H5(OH)3 + 3 C18H35O2Na
Purified sodium stearate can be made by neutralizing stearic acid with sodium hydroxide.

Properties
Chemical formula    C18H35NaO2
Molar mass    306.466 g·mol−1
Appearance    white solid
Odor    slight, tallow-like odor
Density    1.02 g/cm3
Melting point    245 to 255 °C (473 to 491 °F; 518 to 528 K)
Solubility in water    soluble
Solubility    slightly soluble in ethanediol

Sodium stearate is the most common fatty acid salt in today’s soaps. Common sources of the starting material, stearic acid, are vegetable triglycerides obtained from coconut and palm oils and animal triglycerides from tallow. The names stearic and stearate are derived from stéar, the Greek word for tallow.

emulsifier and dispersant in latex paints;
ink thickener;
stabilizer, viscosity enhancer, and dispersant for liquid makeups;
FDA-approved flavor additive;
viscosity modifier in gelled fragrances;
lubricant in polycarbonates and nylons; and
lubricant and de-dusting agent in rubber production.

Sodium stearate is an organic sodium salt comprising equal numbers of sodium and stearate ions. 
Sodium stearate has a role as a detergent. 
Sodium stearate contains an octadecanoate.

Industry Uses    
Anti-adhesive agents
Fillers
Intermediates
Lubricants and lubricant additives
Plasticizers
Process regulators
Processing aids, not otherwise listed
Surface active agents

Consumer Uses    
Adhesives and sealants
Apparel and footwear care products
Arts, crafts, and hobby materials
Food packaging
Laundry and dishwashing products
Non-TSCA use
Personal care products
Plastic and rubber products not covered elsewhere

Industry Processing Sectors
Agriculture, forestry, fishing and hunting
All other basic inorganic chemical manufacturing
All other chemical product and preparation manufacturing
Food, beverage, and tobacco product manufacturing
Petroleum lubricating oil and grease manufacturing
Pharmaceutical and medicine manufacturing
Plastic material and resin manufacturing
Rubber product manufacturing
Soap, cleaning compound, and toilet preparation manufacturing

Sodium stearate is an emulsifier , waterproof and surface-active agent. Sodium stearate is used as accelerator in cosmetics, latex paint and rubber. Sodium stearate can be manufactured with demanded particular size and density, according to production process and industry .

WHAT DOES IT DO?
Given its consistency, sodium stearate is a major constituent of most vegetable-based soaps. In a deodorant, like the ones we make, it has the unique ability to form a structure with other materials like vegetable propylene glycol, glycerin, and propanediol to form a solid stick shape.


HOW IS IT MADE?
Stearic acids may be derived from many sources. Tom’s of Maine derives it from coconut and palm oils. These oils can be split into glycerin and fatty acids, one of which is stearic acid. The stearic acid is isolated and then combined with sodium hydroxide in a saponification process to produce the soap ingredient called sodium stearate.

Derived from edible fats (e.g. coconut, palm), sodium stearate is an incredibly common fatty acid salt.
Sodium stearate can be found in a dry white powder, liquid, pellets, and even wet solids. Sodium stearate can be used to provide rich white lather in personal care products and hardening substances like deodorant.

When in an aqueous solution, it is considered alkaline while in an alcohol solution, it is considered neutral.

Sodium stearate is made by reacting stearic acid with sodium hydroxide. When saponified (i.e. converting fats and oils into soap and alcohol), sodium stearate is produced.

Sodium stearate in skin care is typically used to thicken, lubricate, control viscosity, and keep ingredients from separating.
Sodium stearate is often found in deodorant, toothpaste, soap, makeup, body wash, facial cleanser, shampoo, and hair coloring.

Sodium stearate is also used as a binder and anti-caking agent in food products.

Sodium stearate is an octadecanoic acid sodium salt that can be derived from either animal or vegetable sources.

Sodium stearate is a versatile material used as an emulsifier, dispersant, gelling agent, stabilizer, binder, viscosity modifier and more. 
Sodium stearate is a major component of many soaps, cosmetics and food additives.

Sodium stearate is safe to handle and store under normal conditions. Its powder form presents an explosive hazard, and should only be handled while wearing a respirator. Gloves and other personal protective equipment should be worn at all times, as well as antistatic working shoes.

USES & APPLICATIONS
CASE: Emulsifier and Dispersant in Latex Paints; Additive to Inks
Cosmetics: Stabilizer, Viscosity Enhancer and Dispersant for Liquid Make-Ups
Flavor and Fragrance: Flavor Additive with FDA Approval; Viscosity Modifier in Gelled Fragrances
Food and Beverage: Food Additive with FDA Approval
Personal Care: Emulsion Stabilizer, Gelling Agent, Stabilizer, Binder, Viscosity Modifier, Thickener and Dispersant in StickDeodorants, Liquid and Bar Soaps, Skin Cleansers, Bath and Shower Gels
Plastics: Stabilizer and Plasticizer in the Production of Plastics; Lubricant in Polycarbonates and Nylons
Rubber: Lubricant and De-dusting Agent in Rubber Production
Soaps and Detergents: Emulsion Stabilizer, Gelling Agent, Stabilizer, Binder, Viscosity Modifier, Thickener and Dispersant in Laundry Soaps and Other Cleaning Products

Description    
As the sodium salt of stearic acid, sodium stearate is a highly functional material that can be applied in various fields, especially in cosmetic formulations, where it is effective to stabilize emulsions like lotions, make products thicker, more viscous. 
Sodium stearate is also widely used in the deodorant produce, in which it can serve as a major constituent of soap produced by saponification of oils and fats. Besides, it can be applied in the production of latex paints, rubbers, inks and also a component of some food additives and flavorings.
The purified sodium stearate can be synthesized by neutrallzation reaction of stearic acid and sodium hydroxide.

Description    
Sodium stearate is the sodium salt of stearic acid. This white solid is the most common soap. 
Sodium stearate is found in many types of solid deodorants, rubbers, latex paints, and inks. 
Sodium stearate is also a component of some food additives and food flavorings.

Chemical Properties    
white to off-white powder

Chemical Properties    
Sodium stearate, NaC18H35O2, white solid, soluble, froth or foam upon shaking the water solution (soap), formed by reaction of NaOH and stearic acid (in alcoholic solution) and evaporating. Used as a source of stearate.

Uses    
Sodium Stearate is the sodium salt of stearic acid. 
Sodium stearate functions as a binder, emulsifier, and anticaking agent. 
Sodium stearate is used as a plasticizer in chewing gum base.

Uses    
Characteristic of soaps, sodium stearate has both hydrophilic and hydrophobic parts, the carboxylate and the long hydrocarbon chain, respectively. These two chemically different components induce the formation of micelles, which present the hydrophilic heads outwards and their hydrophobic (hydrocarbon) tails inwards, providing a lipophilic environment for hydrophobic compounds. 
Sodium stearate is also used in the pharmaceutical industry as a surfactant to aid the solubility of hydrophobic compounds in the production of various mouth foams.

Uses    
β-Lactamase inhibitor

Uses    
Pharmaceutic aid (emulsifying and stiffening agent). In glycerol suppositories; also in toothpaste; as waterproofing agent.

Uses    
Sodium stearate is a fatty acid used as a waterproofing agent. 
Sodium stearate is one of the least allergy-causing sodium salts of fatty acids. 
Sodium stearate is non-irritating to the skin.

Production Methods    
Sodium stearate is produced as a major component of soap upon saponification of oils and fats. The percentage of the sodium stearate depends on the ingredient fats. Tallow is especially high in stearic acid content (as the triglyceride), whereas most fats only contain a few percent. The idealized equation for the formation of sodium stearate from stearin (the triglyceride of stearic acid) follows :
(C18H35O2)3C3H5 → C3H5(OH)3 + 3 C17H35CO2Na
Purified sodium stearate can be made by neutralizing stearic acid with sodium hydroxide.

Sodium stearate (C18H35NaO2) is an additive: the sodium “salt” of stearin.

At room temperature, it is a white and fine powder which is one of the major components of soaps.

Anhydrous sodium stearate undergoes phase changes when heated. In particular, from 130 ° C it becomes translucent and flexible. After 200 ° C, it is partially transparent and becomes completely transparent from 265 ° C.

Sodium stearate is a substance used for its surfactant properties, that is to say that it reduces the surface tension of the products in which it is added and thus contributes to the uniform distribution of the product during its use.

Properties :
– Emulsifier
– Stabilizer
– Thickener
– Hardening
– Opacifying

Examples of use :
– In the cosmetics industry, sodium stearate is used to stabilize and thicken mixtures of soaps, deodorants, skin or hair products and gives soaps their white, creamy foam.

– Sodium stearate is present in preparations intended for the chemical and pharmaceutical industry. 
Sodium stearate is found in many finished products like glue sticks.

– Sodium stearate is used as an excipient in galenic pharmacy for its properties: solubilizing, emulsifying, wetting or foaming.

– In the food industry, sodium stearate is an additive which acts as an emulsifier, stabilizer, thickener or even gelling agent. 
Sodium stearate is found in many products such as cake or ice cream mixes.

Sodium stearate is a stabiliser and thickener that helps harden soaps and naked deodorants, allowing a wide variety of shapes and sizes and removing the need for unnecessary packaging and synthetic preservatives. 
Sodium stearate also has opacifying properties that give the foam a creamy white appearance.

A very classic, old-school cleansing agent, a soap (the sodium salt of Stearic Acid). 
Sodium stearate is known for its rich, creamy foam and being quite harsh on the skin. 

Sodium stearate is the sodium salt of stearic acid. This white solid is the most common soap.
Use: Sodium stearate is the sodium salt of stearic acid. 
Sodium stearate is a fine, white powder. 
Sodium stearate is commonly used in paints, rubbers, deodorants, soaps, personal care, ...

Features & Benefits:
Biodegradable
Cleansing Agent
Emulsifying Agent (O/W)
Gelling Agent (aqueous)
Plant Derived / Vegetal Based
Thickener (aqueous)

SODIUM STEARATE is classified as :
Cleansing
Emulsifying
Surfactant
Viscosity controlling

Sodium stearate is a white powdery salt C17H35COONa that is soluble in water, is the chief constituent of some laundry soaps, and is used especially in glycerin suppositories, cosmetics, and some toothpastes

What is it?
The sodium salt of stearic acid (C18H35NaO2), a naturally occurring fatty acid, is used as a pharmaceutical adjuvant in ointments, creams, and suppositories. In lotions it can stabilize an emulsion. 
Sodium stearate is also found in many personal care products like soaps, deodorants, eye shadows, shaving cream, and in some foods and in flavorings. 
Sodium stearate has a long history of safe use in cosmetics and is considered safe for food products by the FDA.

Sodium stearate, the sodium salt of stearic acid (a naturally occurring saturated fatty acid) with the chemical formula C17H35CO2Na. 

Sodium stearate can be used as a binder, emulsifier, and anticaking agent in food. Also, as a major component (an emulsifier) of soap bar, a gelling agent in deodorant, an anionic surfactant in pharmaceuticals and so on.

What is Sodium Stearate Made of?
According to the USP definition, sodium stearate is a mixture composed of (1):

Sodium stearate: not less than 40.0%
Sodium palmitate (C16H31NaO2): it’s content plus sodium stearate, not less than 90.0% 
Small amounts of the sodium salts of other fatty acids

Appearance
White or creamy powder, flake or semi-solid. With an odor of fat when smelt and a feeling of greasy when touched. 

Food
Sodium stearate can be used as a binder, emulsifier, and anticaking agent in food. This ingredient is listed in “Group I” in Europe, where the application fields are wide and the approved usages are “not limited”. Following food may contain it (4):

Table-top sweeteners in tablets
Dried herbs and spices 
Fruit (as a glazing agent)
Nutrient (as a carrier)

Cosmetics
For its lubricating properties and ability to keep emulsions from separating, sodium stearate can be used as a stabilizer and a thickener in the following products:

Deodorants and air fresheners: its gelling ability can help form a structure with other materials like propylene glycol, glycerin, and propanediol to form a solid stick shape.
Cosmetics & personal care products: skincare products, body wash products, toothpaste and so on.

Industrial
A major component in soap.

Sodium stearate is a stabiliser and thickener that helps harden soaps and naked deodorants, allowing a wide variety of shapes and sizes and removing the need for unnecessary packaging and synthetic preservatives. 
Sodium stearate also has opacifying properties that give foam a creamy white appearance.

Characteristic of soaps, sodium stearate has both hydrophilic and hydrophobic parts, the carboxylate and the long hydrocarbon chain, respectively. These two chemically different components induce the formation of micelles, which present the hydrophilic heads outwards and their hydrophobic (hydrocarbon) tails inwards, providing a lipophilic environment for hydrophobic compounds.

Sodium stearate is a salt of stearic acid used as a surfactant (= a substance that reduces the surface tension of a liquid and allows it to foam) in order to aid the solubility of hydrophobic substances in oral medicines.
Sodium stearate makes a drug less hydrophobic and reduces the time it takes to disintegrate.
Sodium stearate is a surfactant that is the sodium salt of stearic acid.
Sodium stearate is a salt of stearic acid used as a surfactant in order to aid the solubility of hydrophobic substances in oral medicines.

Sodium Stearate uses: Flatting and sanding agents in lacquers, coatings and inks. They can be applied in tablet manufacturing. Drying lubricants and dusting agents for rubbers. Catalysts in chemical synthesis, emulsifiers for emulsion polymerization of synthetic rubber, and resin. Used as waterproofing additives and ointments.

Appearance: A white, fine, light powder, greasy to touch

Specifications - Loss on drying: ≤ 2.0%; Free fatty acid: ≤1.2%; Sulphonated ash: 23%-24%; Iodine value: ≤1.0; Granulametry (through 200mesh): ≥95%; Arsenic: ≤3ppm; Mercury: ≤0.5ppm; Heavy Metal lead: ≤10ppm

Sodium Stearate is often used as a gelling agent for deodorant and fragrance sticks, as a component of vegetable-based bar soaps, and as a viscosifier or emulsion stabilizer for creams and lotions.  

Sodium Stearate is also found in shower gels, body washes, colour cosmetics and a host of other personal care products.

Sodium Stearate is typically a white, crystalline powder. 
Sodium Stearate is soluble in water and slighty soluble in ethanedoil. 
Sodium Stearate is derived from Stearic Acid, a byproduct of vegetable oil through the saponification process, and Sodium Salt.

Sodium stearate is the sodium salt of stearic acid. 
Sodium Stearate is a fine, white powder. 
Sodium Stearate is commonly used in paints, rubbers, deodorants, soaps, personal care, and in some food additives and food flavoring products.

Used in adhesives and sealants, laundry and dishwashing products, plastic and rubber products. Used as surface active agents. 
Sodium stearate is the gelling agent for deodrant sticks. Used as waterproofing additives and ointments.

Sodium stearate is an emulsifying agent, surfactant and clean agent.
Sodium stearate is used as an accelerator in cosmetics, latex paints and rubbers.
Sodium stearate is manufactured from the facility and material according to the sector and production process to be used.

Molecular formula: CH 3 (CH 2 ) 16 COONa Properties: white powder, soluble in hot water and ethyl alcohol Main uses Emulsifying agent, dispersing agent, lubricating agent, surface treatment in food, medical, cosmetic, plastic, metalworking and metal cutting fields use as agent and corrosion inhibitor

Applications:
Gelling agent for stick deodorants
Gelling agent for liquids
Gelling agent for shampoo and hair gels
Gelling agent for suppositories
Antistatic agent for polymers
Anionic surfactant

Sodium stearate is a fine white powder or a lumpy solid with a slippery feel, a fatty taste, and water absorption in the air. The aqueous solution is alkaline due to hydrolysis, and the alcohol solution is neutral. 
Sodium stearate is prepared by the interaction of stearic acid and sodium hydroxide. 
Sodium stearate is widely used in the manufacture of cosmetics, detergents, and lubricants. 
Sodium stearate is commonly used in the production of food, ceramics, pharmaceuticals, paper, rubber, glass, fuel, ink, etc. and also used as a waterproofing agent, plastic stabilizer, and adhesive. This article has compiled a large number of uses of hard sodium acid in various industries.
 
Cosmetics

Stearic acid is widely quoted in cosmetics and usually used as an emulsifier and thickener. However, these cosmetics are very sensitive to certain substances that reduce the effectiveness of sodium stearates, such as acids, electrolytes, and cationic surfactants. A mixture of sodium stearate soap and stearic acid glycerin can be used as an emulsifier for cosmetics and pharmaceuticals, and by testing its effects, it has been found that a component of the mixture alone is not obtained. 
Sodium stearate has a protective effect on the skin and can be used in some skin ointments to prevent the solvent component of the cream from damaging the skin. Among emulsifying perfumes and pasty hair dyes, sodium stearate can be used as an emulsifier. 
Sodium stearate soap and polylactic acid, vinyl vinegar plus dyes and pigments can be used to make lipsticks and eye shadow pens. 
Sodium stearate can be used as a thickener and opacifier in shampoos. 
Sodium stearate-based stick cosmetics, including robust flavors (long sticks) and antiperspirant creams used in summer, mainly made of stearic acid soap plus ethanol, taste, and deodorant. Sodium stearate cream is not greasy; its film on the skin is not oily, so it is the basis of many cream products; it will not produce oily luster on the surface.

Detergent

Sodium stearate is the primary raw material for making soaps and is also suitable for the preparation of low foaming or non-foaming detergents ideal for use in washing machines. 
Sodium stearate can also be used to make water, ethanol, isopropanol, mixtures of silicones and soaps, and gel products for cleaning smooth surfaces. Stearic acid can also be used to make cleaning agents that are pyrolyzed from a variety of surfaces. 
Sodium stearate can also be used in preservative and bleaching detergents.

Lubricant

Sodium stearate has many uses in the manufacture of lubricating oils and greases, such as the preparation of lubricants for cold metal forming. Sodium stearate can be added to make lubricants suitable for temperatures up to 750 °C. 
Sodium stearate can also be used to prepare low-flame point hydraulic oils and lubricating oils having a useful viscosity index. 
Sodium stearate can be used together with a copolymer of acrylamide and sodium acrylate to stabilize the cutting fluid of the metal. The addition of sodium stearate also reduces the fluid resistance and initial shear stress of the drilling mud. 
Sodium stearate can be used as a lubricant in the cold pressing of aluminum and aluminum alloys. A mixed oil containing sodium stearate is applied to the surface of the steel to facilitate extrusion and drawing of the material. 
Sodium stearate is common practice to apply zinc phosphate to the surface of the metal before it is immersed in an aqueous solution of sodium stearate and sulfonated tallow. When steel is extruded in an environment of 900 ° C to 1150 ° C, the traditional practice is to use a glass wool or fiberglass liner as a lubricant between the billet and the mold, if sodium stearate is used as a foaming agent, and glass wool As a liner, the adhesion of the glass wool on the surface of the formed metal product is significantly reduced. 
Sodium stearate can create a dry film lubricant with lead disulfide. This lubricant can work more effectively under high-pressure conditions. At the same time, this dry film lubricant is waterproof and easy to use. Mixing sodium stearate, aluminum stearate, and magnesium stearate can produce oils for roller bearings and ball bearings. The composition of the lubricant is hard sodium acid 10%, aluminum stearate 40%, calcium stearate 10%, zinc oxide 15%, talc 5%, mineral oil 10%. Sodium stearate can also be used as a lubricant for the drawing and pressing of wires and is particularly useful in the dry picture of ferrous wires.

Food

Sodium stearate can be used in the processing of pastry cakes in the bakery. The food is brighter in color and more crispy in taste. 
Sodium stearate can also be used as an excipient for the production of fat-free, starch-free, low-glucose corn syrup, as well as a base for the production of chewing gum.

Ceramic products

Mixing sodium stearate, phosphoric acid, sand, and chrome, and magnesia can produce a ceramic glaze with stable rheology. The coating of this ceramic glaze has a lower firing temperature and a thinner thickness, which can be fired — beautiful, lightweight ceramic products. 
Sodium stearate can also increase the mechanical strength of ordinary fineness cement. 
Sodium stearate may also be added to some of the stomata, slow-hardening cement inner and outer wall linings.

Pharmaceutical

Sodium stearate can act as an emulsifier in aqueous emulsions, such as in the preparation of glycerin, olive oil emulsions. Sodium sulfate can also be used to produce stable, high liquefaction temperature castor oil gels that have a significant effect on some skin conditions and that cause dermatitis caused by industrial enzymes and certain chemicals. 
Sodium stearate has an excellent protective effect. 
Sodium stearate can also be used to prepare glycerol suppositories, as well as to make sterilized tablets for use in food processing equipment that control solubility. 
Sodium stearate can also be used in toothpaste and can also be used to treat topical sores and other skin conditions. 
Sodium stearate can also be used as a dry lubricant in tablet forming.


Polymer

Sodium stearate has many applications in the production and processing of polymers and copolymers. Ethyl acrylate and methyl acrylate copolymers in low molecular weight vinegar, ketone and alcohol solutions, when used in combination with sodium stearate, prevent their tendency to flow and make them vicious. The indoleamine is copolymerized with an organic isocyanate in the presence of sodium stearate to form a polyimide foam. The addition of sodium stearate improves the compressive strength and separability of the polyether vinegar mold. 
Sodium stearate can be used to produce anti-static polyethylene. 
Sodium stearate can also be used as a dispersing agent for polyethylene and ethylene acetic acid in water. Polyethylene containing a large amount of catalyst residue can be stabilized by a non-corrosive stabilizer containing sodium stearate as an active ingredient to prevent degradation caused by ultraviolet rays. 
Sodium stearate can also be used to remove catalysts from polymers and can also be used to make fire-resistant ethylene, propylene agglomerates. 

Sodium stearate is also useful in the preparation of microporous polypropylene filaments. Doping sodium stearate soap can produce polyvinyl acetate vinegar particles which prevent agglomeration. 
Sodium stearate can also be used as a component of antioxidants to stabilize the polyisobutylene oxide shape. 

Sodium stearate has been used as a component of non-toxic stabilizers for polyvinyl chloride. The polyvinyl chloride filler with sodium stearate has a function of stabilizing the quality and improving the performance. In the preparation of lead compounds, sodium stearate is also used as a stabilizer. 

Sodium stearate can also react with calcium chloride and zinc chloride in the presence of stearyl alcohol to form a dense metal soap with good breaking strength. 
Sodium stearate can be used as a lubricant and stabilizer in polymers. 
Sodium stearate can be prepared by a continuous process.

Sodium stearate is used in the catalyst system in the cyclopentene reaction for producing urea. 
Sodium stearate is used as an emulsifier in the purification of fatty acid vinegar and para-isopropyl phenol in hot water. 
Sodium stearate can also be used to prevent auto-oxidation of sulfide ore during flotation. 
Sodium stearate is used together with polystyrene for the solidification of charged powder deposits after waste incineration. 
Sodium stearate can be used to stabilize isobutyraldehyde to prevent the formation of terpolymers and as an adjunct for the production of vanadium-free tetrachloride.


IUPAC names
Octadecanoic acid, sodium salt
Sodium Octadecanoate
Sodium octadecanoate
sodium octadecanoate
sodium octadecanoate.
Sodium Stearate
Sodium stearate
sodium stearate
sodium;octadecanoate


SYNONYMS:
212-490-5 [EINECS]
822-16-2 [RN]
MFCD00036404 [MDL number]
Natriumstearat [German] [ACD/IUPAC Name]
Octadecanoic acid sodium salt
octadecanoic acid, sodium salt
Octadecanoic acid, sodium salt (1:1) [ACD/Index Name]
SODIUM OCTADECANOATE
Sodium stearate [ACD/IUPAC Name] [Wiki]
Stéarate de sodium [French] [ACD/IUPAC Name]
stearic acid sodium salt
Stearic Acid, Sodium Salt
Bonderlube 235
Flexichem B
OCTADECANOIC ACID, SODIUM SALT-D35
Prodhygine
sodium and octadecanoate
SODIUM N-OCTADECANOATE
Sodium Stearate NF EP Kosher
sodiumstearate
Steadan 300
Stearic acid 1-monoglyceride

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