SODIUM STEARATE
Sodium stearate (IUPAC: Sodium Octadecanoate) is the sodium salt of stearic acid.
This white solid is the most common soap.
CAS no.: 822-16-2
EC / List no.: 212-490-5
Mol. formula: C18H35NaO2
Linear Formula: CH3(CH2)16COONa
Synonyms: Sodium octadecanoate; Octadecanoic acid, sodium salt; Stearic acid, sodium salt
Properties of Sodium Stearate:
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
Flashpoint: 176 °C (349 °F; 449 K)
Applications:
• Soap production: Sodium stearate is used as a surfactant and emulsifier in soap manufacturing.
• Toothpaste: Sodium stearate acts as a thickening agent in toothpaste.
• Cosmetics: It serves as an emulsifier and stabilizer in cosmetic products.
• Plastics: Sodium stearate is a waterproofing agent and plastic stabilizer.
• Food industry: It is used as an emulsifier and stabilizer in food products.
• Pharmaceutical industry: Sodium stearate is an excipient in tablet formulations.
• Health additives: Sodium stearate is used in various health products.
• Other industrial applications: Sodium stearate is used as a lubricant, mold release agent, and thickening agent in various industries.
Sodium stearate is found in many solid deodorants, rubbers, latex paints, and inks.
Sodium stearate is also a component of some food additives and food flavorings.
Sodium stearate is the most common fatty acid salt in today’s soaps.
Common sources of the starting material, such as stearic acid, are vegetable triglycerides obtained from coconut and palm oils and animal triglycerides from tallow.
Sodium stearate is a significant soap component and an additive in other cosmetic products, where it forms solid “stick” shapes.
Preferred IUPAC name: Sodium octadecanoate
Sodium stearate has a wide range of uses.
Applications of Sodium Stearate:
emulsifier and dispersant in latex paints;
ink thickener;
stabilizer, viscosity enhancer, and dispersant for liquid makeup;
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 a sodium salt commonly used as a surfactant and emulsifying agent in the food industry.
The drug interactions with sodium stearate are not well known, but it has been shown to affect fetal bovine serum (FBS) cell viability at concentrations above 10%.
Sodium stearate typically shows a 5–6% thermal expansion per degree Celsius.
It is also used with CO2 flow to produce anhydrous sodium carbonate and sodium bicarbonate.
Sodium stearate can be found in foods such as margarine, shortening, and baking powder.
It also has metabolic effects, such as promoting insulin production and reducing blood sugar levels.
Application in Cosmetics:
Sodium Stearate is a viscosity controller and a texture enhancer widely used in the cosmetic industry.
Sodium Stearate also works as an acceptable cleansing agent in skin care, mixing well with water to wash away dirt residue.
Sodium Stearate can be produced synthetically or derived from animal sources – typically appearing as a smooth white powder in its raw form.
Further, Sodium Stearate has excellent waterproofing qualities and is often added to solid products like stick sunscreens, chapsticks, and bar soaps.
The drawback to sodium stearate is that it can dry extremely on the skin if not formulated properly.
Sodium Stearate is a valuable ingredient in the cosmetic and personal care industry.
It primarily works as a texture enhancer to help formulate quality products.
Decorative cosmetics: Sodium Stearate controls the viscosity and acts as a binder in cosmetic products like foundations, lipsticks, and eyeshadows.
It stabilizes and gives structure to these products, ensuring they maintain their desired consistency and adhere effectively to the skin for long-lasting wear.
Skincare: In skincare, sodium stearate functions as a surfactant and emulsifier.
Sodium Stearate enables the creation of stable emulsions in creams, lotions, and moisturizers, effectively blending water- and oil-based ingredients.
Additionally, its cleansing properties make it a key component in facial cleansers and soaps, helping to remove dirt, oil, and impurities from the skin.
Sodium Stearate is a vegetable-based aqueous thickener and gelling agent, emulsifying agent(o/w), and cleansing agent.
Consists primarily of the sodium salts of saturated C16 & C18 fatty acids.
Multi-functional ingredient with thickening, gelling, and emulsifying properties.
Widely used as a thickener in stick products (e.g., deodorants) and co-emulsifier in creams and lotions.
Sodium stearate is a stabilizer 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.
Use
Sodium stearate has the characteristics of soaps: hydrophilic and hydrophobic parts, carboxylate, and long hydrocarbon chains.
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.
It is also used in the pharmaceutical industry as a surfactant to aid the solubility of hydrophobic compounds in producing various mouth foams.
Production of Sodium Stearate:
Sodium stearate is a significant soap component used to saponify oils and fats.
The percentage of sodium stearate depends on the fats in the ingredients.
Tallow is exceptionally high in stearic acid content (as in triglyceride), whereas most fats only contain a small percentage.
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.
C17H35COOH+NaOH→C17H35COONa+H2O
OTHER NAMES:
SODIUM STEARATE
822-16-2
Sodium octadecanoate
Octadecanoic acid, sodium salt
Flexichem B
Prodhygine
Stearic acid, sodium salt
Stearic acid sodium salt
Bonderlube 235
Stearates
Sodiumstearate
Edenor FHTI
sodium;octadecanoate
Nonsoul sn 15
Sodium stearate, pure
HSDB 5759
UNII-QU7E2XA9TG
QU7E2XA9TG
EINECS 212-490-5
Rhenogran nast 50acmf-ge1858
AI3-19808
Sodium stearate [NF]
MFCD00036404
E-470(I)STEARIC ACID, SODIUM SALT
DTXSID9027318
CHEBI:132109
Sodium stearate (NF)
INS-470(I)STEARIC ACID, SODIUM SALT
INS NO.470(I)STEARIC ACID, SODIUM SALT
SODIUM STEARATE (II)
SODIUM STEARATE [II]
SODIUM STEARATE (MART.)
SODIUM STEARATE [MART.]
C18H35NaO2
Sodium palmitostearate
Prifer 1634
SCHEMBL5773
Octadecanoic acid sodium salt
SODIUM STEARATE [MI]
SODIUM STEARATE [HSDB]
SODIUM STEARATE [INCI]
DTXCID807318
SODIUM STEARATE [VANDF]
CHEMBL1906423
SODIUM STEARATE [WHO-DD]
AKOS028109686
HY-W099570
MCULE-2987899692
Octadecanoic acid, sodium salt (1:1)
NCGC00164255-01
AS-15926
CS-0152212
NS00075639
D05875
D92227
EN300-6763770
A806549
A840275
Q420066
Octadecanoic acid sodium salt;Stearic acid sodium salt
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
硬脂酸钠 [Chinese]