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Isostearic acid is a branched-chain fatty acid, synthetically derived from vegetable oils like oleic acid. Its unique branched structure prevents tight molecular packing, keeping it liquid at room temperature and giving it low viscosity. It is prized for its exceptional oxidative stability, solubility, and compatibility with oils and pigments. This makes it a valuable ingredient in high-performance cosmetics (like sunscreens and makeup for pigment dispersion) and industrial applications (like synthetic lubricants), where it provides a smooth, non-greasy feel and enhances product stability.
Items | Specifications | Results |
Appearance | Amber to brown transparent viscous oily liquid | |
Acid Value (mg KOH/g) | 180~195 | 188 |
Saponification Value (mg KOH/g) | 190~205 | 203 |
cloud point(℃) | 10 | 9 |
Moisture(w/%) | 0.2 | 0.11 |
Non-saponification value | 3 | 3 |
iodine value(g/100g) | 60 ~ 75 | 65 |
dynamic viscosity 25℃ mpa.s | 45 | 45 |
open cup flash point℃ | 170 | 170 |
relative density25℃ | 0.89 | 0.89 |
Conclusion | Products qualified,in line with the relevant requirements. | |
Isostearic Acid is a branched-chain fatty acid. While its name suggests a relationship to stearic acid (a common, straight-chain saturated C18 fatty acid), its unique branched structure gives it significantly different properties, making it highly valuable in specialty chemical formulations.
The prefix "iso-" is the key to understanding this ingredient. Unlike common fatty acids that have straight carbon chains, isostearic acid has a branched chain structure.
Straight-Chain (Stearic Acid): The carbon atoms are linked in a single, long, straight line. This allows the molecules to pack together tightly, resulting in a solid, waxy substance at room temperature.
Branched-Chain (Isostearic Acid): The carbon chain has one or more methyl (CH₃) groups branching off from the main chain. These branches act like "kinks," preventing the molecules from packing together neatly.
This branched structure is what gives isostearic acid its unique and useful physical properties.
Due to its branched configuration, isostearic acid exhibits a combination of properties that are difficult to find in other fatty acids:
Liquid State: It remains a liquid at room temperature, unlike its straight-chain counterparts (stearic and isostearic acid are both C18 acids, but stearic acid is solid). This is a major advantage for formulating products that require a liquid fatty component.
Excellent Solubility & Compatibility: It is soluble in a wide range of organic solvents and, crucially, has good compatibility with many oils, pigments, and organic UV filters. This makes it an excellent dispersant and solvent.
Low Viscosity: Its liquid state and inability to pack tightly mean it has a relatively low viscosity, contributing to a light, non-greasy feel in formulations.
Oxidative Stability: It is a saturated fatty acid, meaning it has no double bonds in its chain. This makes it highly stable against oxidation (rancidity) and degradation from heat or UV light, much more so than unsaturated oils like olive or almond oil.
Emolliency: It acts as an effective emollient, helping to soften and smooth the skin.
Isostearic acid is not typically found in large quantities in nature. It is produced synthetically through a process called isomerization:
A natural, straight-chain, unsaturated fatty acid source (like oleic acid from vegetable oils) is used as a starting material.
Through catalytic reactions, the double bond in the chain is moved, and the straight chain is rearranged into a branched configuration.
These unique properties make isostearic acid a prized ingredient in high-performance products:
Cosmetics & Personal Care: Its most significant use is in cosmetics, especially:
Makeup: Foundations, lipsticks, and mascaras where it helps disperse pigments evenly and provides a smooth, non-greasy application.
Sunscreens: Its excellent solvency helps dissolve organic (chemical) UV filters evenly, improving sunscreen efficacy and texture.
Skin Care: Used in lotions and creams for its emollient properties and stable, light texture.
Deodorants: Helps suspend active ingredients and provides a dry feel.
Industrial Applications:
Lubricants: Used in synthetic lubricants and greases for its low pour point (stays liquid when cold) and thermal stability.
Chemical Synthesis: Serves as a building block for producing other specialty chemicals, such as emulsifiers and metal working fluids.
In summary, isostearic acid is a synthetically modified, branched-chain fatty acid prized for its unique liquid state, oxidative stability, and excellent solvency, making it a key ingredient in high-end cosmetics and industrial lubricants.
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