SORBITAN TRIOLEATE

PRODUCT IDENTIFICATION

CAS NO. 26266-58-0

 

EINECS NO. 247-569-3
FORMULA C60H108O8
MOL WT. 957.51

H.S. CODE

3402.13

TOXICITY

 

SMILES

Sorbitol, Fatty acid

CLASSIFICATION

SURFACTANTS /

SYNONYMS D-Glucitol, anhydro-, Trioleate; Span 85;
Anhydrosorbitol Trioleate; Sorbitan trioctadecenoate;

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE Cream color flake
MELTING POINT  
BOILING POINT

> 100 C 

SPECIFIC GRAVITY

0.95

SOLUBILITY IN WATER soluble in hot water
SOLVENT SOLUBILITY soluble in mineral oil and ethyl acetae
pH  
VAPOR DENSITY

 

HLB VALUE

1.8

AUTOIGNITION

 

NFPA RATINGS

 

REFRACTIVE INDEX

 

FLASH POINT > 140 C
STABILITY Stable under ordinary conditions

GENERAL DESCRIPTION & APPLICATIONS

Nonionic surfactants are surface active agents which do not dissociate into ions in aqueous solutions, unlike anionic surfactants which have a negative charge and cationic surfactants which have a positive charge in aqueous solution. Nonionic surfactants are more widely used as detergents than ionic surfactants because anionic surfactants are insoluble in many hard water and cationic surfactants are considered to be poor cleaners. In addition to detergency, nonionic surfactants show excellent solvency, low foam properties and chemical stability. It is thought that nonionic surfactants are mild on the skin even at high loadings and long-term exposure. The hydrophilic group of nonionic surfactants is a polymerized alkene oxide (water soluble polyether with 10 to 100 units length typically). They are prepared by polymerization of ethylene oxide, propylene oxide, and butylene oxide in the same molecule. Depending on the ratio and order of oxide addition, together with the number of carbon atoms which vary the chemical and physical properties, nonionic surfactant is used as a wetting agent, a detergent, or an emulsifier. Nonionic surfactants include alcohol ethoxylates, alkylphenol ethoxylates, phenol ethoxylates, amide ethoxylates, glyceride ethoxylates (soya bean oil and caster oil ethoxylates), fatty acid ethoxylates, and fatty amine ethoxylates. Another commercially significant nonionic surfactants are the alkyl glycosides in which the hydrophilic groups are sugars (polysaccharides).

The term sorbitan describes the anhydride form of sorbitol, whose fatty acids are lipophilic whereas sorbitol body is hydrophilic. This bifunctionality in one molecule provides the basic properties useful in cleaners, detergents, polymer additives, and textile industry as emulsifiers, wetting agents, and viscosity modifiers. Sorbitan esters are rather lipophilic (or hydrophobic) surfactants exhibiting low HLB (Hydrophilic-Lipophilic Balance) values; having an affinity for, tending to combine with, or capable of dissolving in lipids (or water-insoluble). While, the ethoxylated sorbitan esters are hydrophilics exhibiting high HLB values; having an affinity for water; readily absorbing or dissolving in water. The type of fatty acid and the mole number of ethylene oxide provides diverse HLB values for proper applications.

HLB numbers describe following characterestics:

<10 : Lipid soluble (or water-insoluble)
>10 : Water Soluble
4-8 : Antifoaming
7-11 : Water-in-oil emulsion
12-16 : Oil-in-water emulsion
11-14 : Good Wetting
12-15 : Good detergency
16-20 : Stabilizing

HLB values of sorbitan compounds are:

Surfactants

HLB Value

CAS RN

Sorbitan hexastearate ethoxylate EO 6 mole

3.0

 

Sorbitan isostearate

4.3

 

Sorbitan laurate

8.6

1338-39-2
Sorbitan monoisostearate ethoxylate EO 20 mole

15.0

66794-58-9
Sorbitan monolaurate ethoxylate EO 20 mole

16.9

9005-64-5
Sorbitan monooleate ethoxylate EO 20 mole

15.0

9005-65-6
Sorbitan monopalmitate ethoxylate EO 20 mole

15.6

9005-66-7
Sorbitan monostearate ethoxylate EO 20 mole

14.9

9005-67-8
Sorbitan monstearate ethoxylate EO 6 mole

9.5

 

Sorbitan oleate

4.3

1338-43-8 

Sorbitan palmitate

6.7

26266-57-9

Sorbitan sesquioleate

4.5

8007-43-0

Sorbitan stearate

4.7

1338-41-6
Sorbitan tetraoleate ethoxylate EO 30 mole

11.5

 

Sorbitan tetraoleate ethoxylate EO 40 mole

12.5

 

Sorbitan tetraoleate ethoxylate EO 6 mole

8.5

63089-86-1
Sorbitan tetrastearate ethoxylate EO 60 mole

13.0

66828-20-4
Sorbitan trioleate ethoxylate EO 20 mole

11.0

9005-70-3

Sorbitan trioleate

1.8

26266-58-0
Sorbitan tristearate ethoxylate EO 20 mole

10.5

9005-71-4

Sorbitan tristearate

2.1

26658-19-5
SALES SPECIFICATION

APPEARANCE

Cream color flake
ACID VALUE
14 max
HYDROXYL VALUE
55 - 70
SAP VALUE

170 - 185

MOISTURE
1.0% max
TRANSPORTATION
PACKING

20kgs in bag

HAZARD CLASS Not regulated
UN NO.  

GENERAL DESCRIPTION OF FATTY ACID

Fatty Acids are aliphatic carboxylic acid with varying length hydrocarbon chains at one end of the chain joined to terminal carboxyl (-COOH) group at the other end. The general formula is CnH2n+1COOH or R-(CH2)n-COOH. Fatty acids are predominantly unbranched and those with even numbers of carbon atoms between 12 and 22 carbons long react with glycerol to form lipids (fat-soluble components of living cells) in plants, animals, and microorganisms. Fatty acids all have common names respectively lilk lauric (C12), MyrIstic (C14), palmitic (C16), stearic (C18), oleic (C18, unsaturated), and linoleic (C18, polyunsaturated) acids. The saturated fatty acids have no double bonds, while oleic acid is an unsaturated fatty acid has one double bond (also described as olefinic) and polyunsaturated fatty acids like linolenic acid contain two or more double bonds. Lauric acid (also called Dodecanoic acid) is the main acid in coconut oil (45 - 50 percent) and palm kernel oil (45 - 55 percent). Nutmeg butter is rich in myristic acid (also called Tetradecanoic acid ) which constitutes 60-75 percent of the fatty-acid content. Palmitic acid(also called Hexadecylic acid ) constitutes between 20 and 30 percent of most animal fats and is also an important constituent of most vegetable fats (35 - 45 percent of palm oil). Stearic acid ( also called Octadecanoic Acid)  is nature's most common long-chain fatty acids, derived from animal and vegetable fats. It is widely used as a lubricant and as an additive in industrial preparations. It is used in the manufacture of metallic stearates, pharmaceuticals, soaps, cosmetics, and food packaging. It is also used as a softener, accelerator activator and dispersing agent in rubbers. Oleic acid (also called octadecenoic acid) is the most abundant of the unsaturated fatty acids in nature.



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