1-9 A-D E-G H-M N-P Q-S T-Z

OLEOSORB MO

OLEOSORB MO

CAS NO: 1338-43-8

 

synonyms:
Oleosorb mo;sorbitan oleate;SORBITANMONOLEAT; SORBITAN MONOLEAT; SORBITAN MONOOLEAT; sorbitan monooleate; SORBİTAN MONOLEAT; sorbitane monooleate; sorbitan monoleate; sorbitan mono oleat ; Span 80;Oleosorb mo;Arlacel 80;Sorbitan, mono-(9Z)-9-octadecenoate;NCGC00164240-01;Span 80;DSSTox_CID_7397;DSSTox_RID_78437;DSSTox_GSID_27397;Glycomul O;Sorbitan O;Alkamuls SMO;Armotan MO;Dehymuls SMO;Lonzest SMO;Kosteran O 1;Crill 4;Sorbester P 17;Disponil 100;Montan 80;Newcol 80;Nonion OP80R;Sorgen 40;Sorgen 40A;Montane 80 VGA;Radiasurf 7155;Rheodol AO 10;Atmer 05;1338-43-8;Emasol 410;Emasol O 10;Emasol O 10F;Kemmat S 80;Nikkol SO 10;Nikkol SO-15;Rheodol SP-O 10;Rikemal O 250;SORBITAN OLEATE;Sorbon S 80;Span® 80;Ionet S-80;Emsorb 2500;Sorbitan oleate [INN];S 271 (surfactant);CAS-1338-43-8;Nissan Nonion OP 80R;Anhydrosorbitol monooleate;Monodehydrosorbitol monooleate;Sorbitan monooleic acid ester;CCRIS 710;Sorbitani oleas [INN-Latin];Sorbitan, mono-9-octadecenoate;1,4-anhydro-6-O-[(9Z)-octadec-9-enoyl]-D-glucitol;ML 55F;MO 33F;S-MAX 80;HSDB 5822;Oleate de sorbitan [INN-French];Oleato de sorbitano [INN-Spanish];Sorbitani oleas;EINECS 215-665-4;NSC 406239;Sorbitan, mono-9-octadecenoate, (Z)-;Oleate de sorbitan;Oleato de sorbitano;S 80;Sorbitan esters, mono(Z)-9-octadecenoate;Sorbitane monooleate;G 946;O 250;S 270;1,4-Anhydro-D-glucitol, 6-(9-octadecenoate);D-Glucitol, 1,4-anhydro-, 6-(9-octadecenoate);Mannide monooleate, liquid;Dianhydromannitol monooleate;SCHEMBL4504;Span(R) 80, for GC;UNII-06XEA2VD56;Mannide monooleate, from plant;06XEA2VD56;Oleosorb mo [USAN:NF];CHEMBL1894187;DTXSID6027397;Oleosorb mo. (Compound usually contains also associated fatty acids.);Span(R) 80, nonionic surfactant;1,4-Anhydro-D-glucitol 6-oleate;ZINC8214458;Tox21_113539;Tox21_300389;Oleosorb mo, SAJ first grade;AKOS024431316;NCGC00164240-02;NCGC00254386-01;S0060;J-006443;Span(R) 80, viscosity 1000-2000 mPa.s (20 C);1178544-19-8;122303-50-8;182372-02-7;2060-34-6;258823-36-8;30233-52-4;321711-41-5;39289-74-2;473272-66-1;54693-53-7;57273-95-7;58391-71-2;62340-88-9;73202-24-1;76011-51-3;9015-08-1;1,4-anhydro-6-O-[(9Z)-octadec-9-enoyl]-D-glucitol; Span 80;SMO, Span 80, SorbitanOleate;o250;ml33f;ml55f;mo33f;SPAN 80;ionets80;montan80;sorgen40;armotanmo;glycomulo;Sorbitan, monooctanoate ;PROPYLENE GLYCOL MONOOLEATE ;MONOPALMITOLEIN BUTYL OLEATE 1-OLEOYL-SN-GLYCEROL; SELACHYL ALCOHOL ;Span 80 Food emulgent Polyoxyethylene ;sorbitan monopalmitate; Bitumen emulsifier; Sorbitol; PEG-6; SORBITAN OLEATE,Polyoxyethylene 20 sorbitan oleate,PEG-3 SORBITAN OLEATE OCTYLPHENYLPOLYETHYLENE GLYCOL Sorbitan ;Span 60; EMULSIFIER; Metalaxyl OLEIC ACID-1-13C
EMALEX SPO-100 ;ARLACEL 80 ;BioChemical 1338-43-8 ;SPAN 80; SPAN NO 80 SPAN(R) 80 ;SPAN(TM) 80 ;SORBITANE MONOOLEATE ;SORBITAN OLEATE; Oleosorb mo ;sorbitan (z)-mono-9-octadecenoate Detergents Non-Ionic armotanmo emsorb2500 EmulsifierS80 glycomulo ionets80 ionets-80 liposorbo l;iposorbo-20 ml33f ml55f mo33f mono-9-octadecenoate,(z)-sorbita mono-9-octadecenoate,(Z)-Sorbitan monodehydrosorbitolmonooleate ;montan80 ;nikkolso10; nikkolso15, nikkolso-15; nikkolso-30; nonionop80r; o250 radiasurf7155 ;sorbesterp17 ;SorbitanmonooleateS80 ;sorbitanmonooleicacidester ;sorbitano; sorbons80, sorgen40 ;Nonionic Surfactants Ester Type (Surfactants) Surfactants SPAN(R) 80, FOR GC SPAN (R) 80 HLB-VALUE 4.3 C24H44O6 Sorbitan, mono-(9Z)-9-octadecenoate Sorbitanoleat Span 80 (=Oleosorb mo) ;Ester Type (Surfactants) Functional Materials Nonionic Surfactants Surfactants Oleosorb mo, Span(R) 80 Lonzest(R); SMO Lonzest(R) SMO-EG;alkamuls S/80;alkamuls SMO;1,4-anhydro-D-glucitol 6-(9-octadecanoate);1,4-anhydro-D-glucitol, 6-(9-octadecenoate);1,4-anhydro-dextro-glucitol 6-(9-octadecanoate);anhydrosorbitol monooleate;arlacel 1689;arlacel 481;arlacel 80;armotan MO;crill 4;dehymuls SMO;[2-[(2R,3S,4R)-3,4-dihydroxyoxolan-2-yl]-2-hydroxyethyl] (Z)-octadec-9-enoate;emasol 410;D-glucitol, 1,4-anhydro-, 6-(9-octadecenoate);glycomul O;glycomul O KFG;ionet S-80;kaopan SP-O-10;kemmat S 80;liposorb O;lonzest SMO;lubricit SMO-H;lubricit SMO-VEG;mo-33-F;monemul - 80;monemul - 80Hi;montan 80;montane 80;montane 80 VGA;newcol 80;nikkol SO-10NR;nikkol SO-10V;nissan nonion OP 80R;nonion OP80R;radiasurf 7155;rheodol AO-10V;rheodol SP-O10V;S-MAX 80;sorban AO;sorbirol O;sorbitan mono-(9Z)-9-octadecenoate;sorbitan mono-(Z)-9-octadecenoate;sorbitan mono-oleate;Oleosorb mo;sorbitan monooleic acid ester;sorbitan O;sorbitan, mono-(9Z)-9-octadecenoate;sorbitan, mono-9-octadecenoate, (Z)-;sorbon S 80;ARLACEL 80;EMALEX SPO-100;SORBITANE MONOOLEATE;sorbitan monooctadecanoate;Oleosorb mo;SORBITAN OLEATE;sorbitan (z)-mono-9-octadecenoate;SPAN 60;SPAN 80;SPAN NO 80;SPAN(R) 80;SPAN(TM) 80;armotanmo;emsorb2500;EmulsifierS80;glycomulo;ionets80;ionets-80;liposorbo;liposorbo-20;Arlacel 80;Oleosorb mo;Sorbitan, mono-(9Z)-9-octadecenoate;Sorbitan, mono-9-octadecenoate, (Z)-;Anhydrosorbitol monooleate;Monodehydrosorbitol monooleate;Oleic acid, monosorbitan ester;Sorbitan esters, mono(Z)-9-octadecenoate;Oleosorb mo;Oleosorb mo. (Compound usually contains also associated fatty acids.);Sorbitan monooleic acid ester;Sorbitan oleate;Sorbitan oleate NF;Sorbitan, ester, mono-9-octadecenoate, (Z)-;Sorbitan, mono-9-octadecenoate;Sorbitan, mono-9-octadecenoate, (Z)-;Alkamuls SMO;Arlacel 80,Armotan MO;Atmer 05;CCRIS 710;Crill 4;Dehymuls SMO;Disponil 100;EINECS 215-665-4;Emasol 410;Emasol O 10;Emasol O 10F;Emsorb 2500;G 946;Glycomul O;HSDB 5822;Ionet S-80;Kemmat S 80;Kosteran O 1;Lonzest SMO;ML 33F;ML 55F;MO 33F;Monodehydrosorbitol monooleate;Montan 80;Montane 80 VGA;Newcol 80;Nikkol SO 10;Nikkol SO-15;Nissan Nonion OP 80R;Nonion OP80R;NSC 406239;O 250;Oleate de sorbitan;Oleate de sorbitan [INN-French];Oleato de sorbitano;Oleato de sorbitano [INN-Spanish];Radiasurf 7155;Rheodol AO 10;Rheodol SP-O 10;Rikemal O 250;S 270;S 271 (surfactant);S 80;S-MAX 80;Sorbester P 17;Oleosorb mo;Oleosorb mo. (Compound usually contains also associated fatty acids.);Sorbitan monooleic acid ester;Sorbitan O;Sorbitan oleate;Sorbitan, mono-9-octadecenoate, (Z)-;Sorbitani oleas;Sorbitani oleas [INN-Latin];Sorbon S 80;Sorgen 40;Sorgen 40A;Span 80;UNII-06XEA2VD56;Oleosorb mo (Span 80); Sorbitan oleate; Sorbitan (Z)-mono-9-octadecenoate; Emulsifier S80; [2-[(2R,3S,4R)-3,4-dihydroxytetrahydrofuran-2-yl]-2-hydroxy-ethyl] (Z)-octadec-9-enoate; 1,4-anhydro-6-O-[(9Z)-octadec-9-enoyl]-D-glucitol; [(2R)-2-[(2R,3R,4S)-3,4-dihydroxytetrahydrofuran-2-yl]-2-hydroxy-ethyl] octadec-9-enoate; Oleosorb mo; polyoxyethylene(20) Oleosorb mo; Span 80;Sorbitane monooleate,sorbitan oleate;Oleosorb mo;armotanmo;sorgen40;o250;Oleic acid compound with (2R,3R,4S)-2-((R)-1,2-dihydroxyethyl)tetrahydrofuran-3,4-diol;glycomulo;montan80;(R)-1-((2S,3R,4S)-3,4-Dihydroxytetrahydrofuran-2-yl)-2-hydroxyethyl oleate;ml33f;ml55f;mo33f;Sorbitan oleate;(Oleosorb mo);ionets80;Sorbitan oleate; Sorbitan (Z)-mono-9-octadecenoate;Oleosorb mo, Glycomul O, Sorbitan O, Alkamuls SMO, Dehymuls SMO, Armotan MO, Lonzest SMO, Kosteran O 1, Arlacel 80, Crill 4, Sorbester P 17, Disponil 100, Sorbitan, monooleate, Montan 80, Newcol 80, Nonion OP80R, Sorgen 40, Sorgen 40A, Radiasurf 7155, Montane 80 VGA;9-Octadecenoicacid (9Z)-;Oleic acid compound with (2R,3R,4S)-2-((R)-1,2-dihydroxyethyl)tetrahydrofuran-3,4-diol (1:1);Oleosorb mo;Sorbitan oleate;Span 80;Span 80 (=Oleosorb mo;EMALEX SPO-100;ARLACEL 80;SPAN 80;SPAN NO 80;SPAN(R) 80;SPAN(TM) 80;SORBITANE MONOOLEATE;SORBITAN OLEATE;SORBITAN;Oleosorb mo;SORBITANMONOOLEAT;sorbıtan monooleat;sorbıtanmonooleat;SORBİTAN MONO OLEAT;Oleosorb mo;SORBİTANMONOOLEAT;Oleosorb mo;sorbitan mono oleat;sorbitanmonooleat; SMO; Sorbitan Esters; Span 80; monooleta; sorbitanmonooleat; SORBITANMONOOLEAT; Oleosorb mo; sorbitanmonooleate; sorbıtan monooleat; sorbitanmono; monooleta; sorbitanemonoleat; sorbitanmobnooleta; sorpitanmonooleate; smo; S M O; s m o; sorbitane onooleate; Oleosorb mo; Oleosorb mo; Oleo sorb mo; oleosorb mo; oleo sorb; OLEOSORB MO; OLEOSORBMO; OLEO SORB MO; OLEO SORBMO; oleo sorb mo; Oleosorb mo; Sorbitan monoleate; Oleosorb mo; Sorbitan monoleat; Sorbitane monooleate; Sorbitan mono oleate; CAS NO: 1338-43-8; CAS 1338-43-8

 

 

 

Oleosorb mo

 

Oleosorb mo
Oleosorb mo.svg
Names
IUPAC name
Sorbitan oleate; Span 80
Identifiers
CAS Number
1338-43-8
ECHA InfoCard 100.014.242
E number E494 (thickeners, ...)
UNII 
06XEA2VD56
CompTox Dashboard (EPA)
DTXSID6027397 Edit this at Wikidata
Properties
Chemical formula
C24H44O6
Molar mass 428.610 g·mol-1
Density 0.986 g/mL[1]

 

 

Oleosorb mo
Prepared at the 33rd JECFA (1988), published in FNP 38 (1988) and in
FNP 52 (1992). Metals and arsenic specifications revised at the 55th
JECFA (2000) A group ADI of 0-25 mg/kg bw as the sum of sorbitan
esters of lauric, oleic, palmitic and stearic acids was established at the 26th
JECFA (1982
SYNONYMS INS No. 494
DEFINITION A mixture of the partial esters of sorbitol and its mono- and dianhydrides
with edible oleic acid (R).The constituent in greatest abundance is 1,4-
Oleosorb mo, with lesser abundance of isosorbide monooleate,
sorbitan dioleate and sorbitan trioleate.
C.A.S. number 1338-43-8
Structural formula Contains oleic acid esterified with polyols derived from sorbitol including the
following types:
Assay Saponification of 100 g of the sample yields not less than 28 g and not more
than 32 g of polyols, and not less than 73 g and not more than 77 g of fatty
acids. The polyol content shall be not less than 95% of a mixture of sorbitol,
1,4-sorbitan and isosorbide.
DESCRIPTION Amber-coloured oily viscous liquid, light cream to tan beads or flakes or a
hard, waxy solid with a slight odour
FUNCTIONAL USESEmulsifier, stabilizer
CHARACTERISTICS
IDENTIFICATION
Solubility (Vol. 4) Soluble at temperatures above its melting point in ethanol, ether,
ethylacetate, aniline, toluene, dioxane, petroleum ether and carbon
tetrachloride; insoluble in cold water, dispersible in warm water
Iodine value (Vol. 4) The residue of oleic acid, obtained from the saponification of the sorbitan
monooleate in assay, has a iodine value between 80 and 100 
PURITY
Water (Vol. 4) Not more than 2% (Karl Fischer Method)
Sulfated ash (Vol. 4) Not more than 0.5%
Acid value (Vol. 4) Not more than 8
Saponification value (Vol. 4)
Not less than 145 and not more than 160
Hydroxyl value (Vol. 4) Not less than 193 and not more than 210
Lead (Vol. 4) Not more than 2 mg/kg
Determine using an atomic absorption technique appropriate to the
specified level. The selection of sample size and method of sample
preparation may be based on the principles of the method described in
Volume 4, "Instrumental Methods."
METHOD OF
ASSAY
Transfer about 25 g of the sample, accurately weighed, into a 500-ml roundbottom flask, add 250 ml of alcohol and 7.5 g of potassium hydroxide, and
mix. Connect a suitable condenser to the flask, reflux the mixture for 1 to 2
h, and then transfer to an 800-ml beaker, rinsing the flask with about 100 ml
of water and adding it to the beaker. Heat on a steam bath to evaporate the
alcohol, adding water occasionally to replace the alcohol, and evaporate
until the odour of alcohol can no longer be detected, Adjust the final volume
to about 250 ml with hot water. Neutralize the soap solution with dilute
sulfuric acid (1 in 2), add 10% in excess, and heat, while stirring, until the
fatty acid layer separates. Transfer the fatty acids to a 500-ml separator,
wash with three or four 20-ml portions of hot water to remove polyols, and
combine the washings with the original aqueous polyol layer from the
saponification. Extract the combined aqueous layer with three 20-ml
portions of petroleum ether, add the extracts to the fatty acid layer,
evaporate to dryness in a tared dish, cool, and weigh.
Neutralize the polyol solution with a 1 in 10 solution of potassium hydroxide
to pH 7 using a suitable pH meter. Evaporate this solution to a moist
residue, and separate the polyols from the salts by several extractions with
hot alcohol. Evaporate the alcohol extracts on a steam bath to dryness in a
tared dish, cool, and weigh. Avoid excessive drying and heating.
Assay another 25 g sample by the Sorbitan Ester Content procedure to
determine percent sorbitan ester.

 

 


Oleosorb mo (span 80)
Where is Oleosorb mo (span 80) found?
Oleosorb mo (Span 80) is an emulsifier, thickener, and stabilizer found in food products, household items, and oral pharmaceuticals.
How can you avoid contact with Oleosorb mo (span 80)?
Avoid products that list any of the following names in the ingredients:

 

 

• Alkamuls SMO
• Arlacel 80
• Armotan MO
• Atmer 05
• CCRIS 710
• Crill 4
• Dehymuls SMO
• Disponil 100
• EINECS 215-665-4
• Emasol 410
• Emasol O 10
• Emasol O 10F
• Emsorb 2500
• G 946
• Glycomul O
• HSDB 5822
• Ionet S-80
• Kemmat S 80
• Kosteran O 1
• Lonzest SMO
• ML 33F
• ML 55F
• MO 33F
• Monodehydrosorbitol monooleate
• Montan 80
• Montane 80 VGA
• NSC 406239
• Newcol 80
• Nikkol SO 10
• Nikkol SO-15
• Nissan Nonion OP 80R
• Nonion OP80R
• O 250
• Oleate de sorbitan
• Oleate de sorbitan [INN-French]
• Oleato de sorbitano
• Oleato de sorbitano [INN-Spanish]
• Radiasurf 7155
• Rheodol AO 10
• Rheodol SP-O 10
• Rikemal O 250
• S 270
• S 271 (surfactant)
• S 80
• S-MAX 80
• Sorbester P 17
• Sorbitan O
• Oleosorb mo
• Oleosorb mo. (Compound usually contains also associated fatty acids.)
• Sorbitan monooleic acid ester
• Sorbitan oleate
• Sorbitan, mono-9-octadecenoate, (Z)-
• Sorbitani oleas
• Sorbitani oleas [INN-Latin]
• Sorbon S 80
• Sorgen 40
• Sorgen 40A
• Span 80

 

 

What are some products that may contain Oleosorb mo (span 80)?
Household Products
Liquids/Creams
Shampoo

 

A clinician's point of view.

 

Additional resources and links for Oleosorb mo (span 80).
To submit resources or links, please fill out the submission form at the top of this page.

 

EC Number: 215-665-4

Molecular Formula of Oleosorb mo

C24H44O6

IUPAC Name of Oleosorb mo

[(2R)-2-[(2R,3R,4S)-3,4-dihydroxyoxolan-2-yl]-2-hydroxyethyl] (Z)-octadec-9-enoate

Physical Description of Oleosorb mo

Liquid

 

 


Color of Oleosorb mo

 

AMBER LIQUID

Viscosity of Oleosorb mo

ABOUT 1000 CENTIPOISES

DESCRIPTION AND INGREDIENTS : It is a mixture of partial esters of sorbitol and anhydrides and vegetable oleic acid. It may have free fatty acids and sorbitol, isosorbide esters.

APPEARANCE : Cream yellowish bead solid powders and characteristic smell.

USAGE AREA of Oleosorb mo

 

 

Ø Fine bakery products
Ø Fine bakery products, decoration and coating materials
Ø Baker's yeasts
Ø Oil emulsions
Ø Milk and cream mixtures
Ø Gel marmelades
Ø Tahini halva varieties
Ø Cocoa based candies
Ø Chocolates
Ø Liquid mixtures of fruits and vegetables
Ø Sweets
Ø Sugar based candies
Ø Food supplements

 

Suggested Uses of Oleosorb mo

 

 

. Acts as a lipophilic emulsifier in O/W emulsions, wetting agent for cosmetics and
pharmaceuticals.
. Also acts as a dispersing agent for pigments.
. Functions as a coupling agent in medicants and fillers.

 

 

 


Sorbitan Monoleate is a non-ionic surfactant that can be used to form oil-in-water emulsions and in combination with low HLB surfactants can form water-in-oil emulsions. EPA approved oil spill dispersant.

 

 

 


SMO is a low HLB surfactant suggested for use as a w/o emulsifier or as an o/w emulsifier for use in cosmetic formulations, oil field chemicals, plastics, household products, coatings and textiles. The liquid sorbitan ester explosive grade functions as a low HLB nonionic emulsifier. This product is well suited for a broad number of applications including emulsifier in explosives.

 

It is used as a wetting agent, coupling agent and dispersing agent in various products. In cosmetics, pharmaceutical creams, and various other personal care products, it is used as friction modifier and emulsifier. This clear viscous oily liquid is used for ethoxilation. We at Univenture manufacture SMO as per the client requirement as it is used in various applications like - Pharmaceuticals, Emulsion Polymerization, Foaming Agent in Beverage Mixes, Bakery Food, Pet Food, Cosmetics, Agrochemical, Leather Chemicals, Textile Auxiliaries and in emulsion explosives.

An emulsifier Oleosorb mo is used as a lipophillic non-ionic surfactant, emulsifier, stabilizer for oil based lotions, ointments, in textiles as antistat, lubricant for fabric softener, sweetening agent, food additive, toothpaste, tobacco, toiletries and in cosmetics. It serves as a dispersant in oil field chemicals and as a corrosion Inhibitor. Further, it plays as an important role as excipient and intravenous osmotic diuretic in pharmaceutical fields

Span 80 is light yellow viscose oily liquid. Span 80 is insoluble in water and soluble in organic solvents. It is water/oil type emulsifier, which can be mixed with emulsifier S60 and emulsifier T60. HLB: 4.3.

As emulsifier, solubilizer, stabilizer, softener, anti-static agent etc. suitable for medicine, cosmetics, textiles, paints etc.Used as W/O emulsion explosive, preparation agent of textile, emulgator of artesian well weighted mud and producing of food and cosmetic, dispersant in beaded paint, stabilizer of itanium dioxide, insecticide, wetting agent and emulgator in pesticide, cosolvent of oil production, antirust of slushing oil, lubricant and softening agent of textile and leather.

 

 

Physical Description 
Liquid
Amber-coloured viscous liquid, light cream to tan-coloured beads or flakes or a hard, waxy solid with a slight characteristic odour
Soluble at temperatures above its melting point in ethanol, ether, ethyl acetate, aniline, toluene, dioxane, petroleum ether and carbon tetra-chloride. Insoluble in cold water, dispersible in warm water
VISCOSITY 1000 centipoises

 

 

 

Industry Uses
Agricultural chemicals (non-pesticidal)
Finishing agents
Intermediates
Lubricants and lubricant additives
Pigments
Processing aids, not otherwise listed
Processing aids, specific to petroleum production
Solids separation agents
Solvents (for cleaning and degreasing)
Solvents (which become part of product formulation or mixture)
Surface active agents
metal-working fluid emulsifier

 

 

 

Consumer Uses
Air care products
Automotive care products
Chemical Intermediate and distribution and resales
Cleaning and furnishing care products
Explosive materials
Fabric, textile, and leather products not covered elsewhere
Fuels and related products
Ink, toner, and colorant products
Lubricants and greases
Non-TSCA use
Personal care products
Pet Care/Veterinary
Water treatment products

 

 

 

Oleosorb mo is a food additive with the E number E495.
ACUTE HEALTH EFFECTS
SWALLOWED
! Accidental ingestion of the material may be damaging to the health of the individual.
! Overexposure is unlikely in this form.
! Nonionic surfactants may produce localized irritation of the oral or gastrointestinal lining and induce vomiting and mild diarrhea.
EYE
! There is some evidence to suggest that this material can causeeye irritation and damage in some persons.
! Non-ionic surfactants can cause numbing of the cornea, which masks discomfort normally caused by other agents and leads to corneal
injury.
Irritation varies depending on the duration of contact, the nature and concentration of the surfactant.
SKIN
! The material is not thought to produce adverse health effects or skin irritation following contact (as classified using animal models).
Nevertheless, good hygiene practice requires that exposure be kept to a minimum and that suitable gloves be used in an occupational
setting.
! Repeated exposure may cause skin cracking, flaking or drying following normal handling and use.
! Open cuts, abraded or irritated skin should not be exposed to this material.
! Entry into the blood-stream, through, for example, cuts, abrasions or lesions, may produce systemic injury with harmful effects.
Examine the skin prior to the use of the material and ensure that any external damage is suitably protected.
INHALED
! The material is not thought to produce either adverse health effects or irritation of the respiratory tract following inhalation (as classified
using animal models).
Nevertheless, adverse effects have been produced following exposure of animals by at least one other route and good hygiene practice
requires that exposure be kept to a minimum and that suitable control measures be used in an occupational setting.
CHRONIC HEALTH EFFECTS
! Long-term exposure to the product is not thought to produce chronic effects adverse to the health (as classified using animal models);
nevertheless exposure by all routes should be minimized as a matter of course.
Prolonged or repeated skin contact may cause degreasing with drying, cracking and dermatitis following.

 

 

 

Appearance (Clarity) Clear
Appearance (Colour) Pale yellow
Appearance (Form) Viscous liquid
Acid value max. 10
Saponification value 145 - 160
Water (KF) max. 1%

 

Sorbitan

 

Sorbitan
Sorbitan.png
Names
IUPAC name
(3S)-2-(1,2-Dihydroxyethyl)tetrahydrofuran-3,4-diol
Other names
1,4-anhydrosorbitol
Identifiers
CAS Number
12441-09-7 ☑
3D model (JSmol)
Interactive image
ChemSpider 
none
ECHA InfoCard 100.032.415
PubChem CID
103023
UNII 
6O92ICV9RU ☑
CompTox Dashboard (EPA)
DTXSID00872901 Edit this at Wikidata
SMILES[show]
Properties
Chemical formula
C6H12O5
Molar mass 164.16 g/mol
Appearance colourless solid
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
☒ verify (what is ☑☒ ?)
Infobox references
Sorbitan is a mixture of isomeric organic compounds derived from the dehydration of sorbitol and is an intermediate in the conversion of sorbitol to isosorbide.[1] Sorbitan is primarily used in the production of surfactants such as polysorbates; which are important emulsifying agents, with a total annual demand of more than 10000 tons in 2012.[2]

 

 


Contents
1 Synthesis
2 Surfactant derivatives
2.1 Esters
2.2 Polysorbate
3 References
Synthesis
Sorbitan is produced by the dehydration of sorbitol and is an intermediate in the conversion of sorbitol to isosorbide. The dehydration reaction usually produces sorbitan as a mixture of five- and six-membered cyclic ethers (1,4-anhydrosorbitol, 1,5-anhydrosorbitol and 1,4,3,6-dianhydrosorbitol)[3] with the five-membered 1,4-anhydrosorbitol form being the dominate product. The rate of formation of sorbitan is typically greater than that of isosorbide, which allows it to be produced selectively, providing the reaction conditions are carefully controlled. The dehydration reaction has been shown to work even in the presence of excess water.[4]

 

Sorbitol-Sorbitan-Isosorbid.svg

 

Surfactant derivatives
Esters
Sorbitan esters (also known as Spans) are nonionic surfactants that are used as emulsifying agents in the preparation of emulsions, creams, and ointments for pharmaceutical and cosmetic use. When used alone they produce stable water-in-oil emulsions but they are frequently used with a polysorbate in varying proportions to produce water-in-oil or oil-in-water emulsions or creams with a variety of different textures and consistencies. Sorbitan esters are also used as emulsifiers and stabilisers in food.[5]

 

 

Sorbitan esters (Spans)
Sorbitan monostearate (Span 60, E number: E491)
Sorbitan tristearate (Span 65, E number: E492)
Sorbitan monolaurate (Span 20, E number: E493)

 

 

Polysorbate
Main article: Polysorbate
Ethoxylated sorbitan esters are known as polysorbates (trade name: Tweens). They are an important class of emulsifiers used in a variety of settings, including pharmaceuticals and food.

 

 

E433 - Polyoxyethylene Oleosorb mo
Additive: E433 - Polyoxyethylene Oleosorb mo

 

Functions: Emulsifier, Stabilizer

Polysorbate 80 is a nonionic surfactant and emulsifier often used in foods and cosmetics. This synthetic compound is a viscous, water-soluble yellow liquid. - Wikipedia

 

Risk of overexposure
EFSA evaluation: Scientific Opinion on the re-evaluation of polyoxyethylene sorbitan monolaurate -E 432-, polyoxyethylene Oleosorb mo -E 433-, polyoxyethylene sorbitan monopalmitate -E 434-, polyoxyethylene sorbitan monostearate -E 435- and polyoxyethylene sorbitan tristearate -E 436- as food additives (2015-07-17)

 

 

Moderate risk of over exposureThe European Food Safety Authority (EFSA) has determined that some population groups have a moderate risk of consuming too much E433 - Polyoxyethylene Oleosorb mo.
To evaluate your exposure to the E433 - Polyoxyethylene Oleosorb mo food additive, you can browse our list of products that contain it. See the list of products with E433 - Polyoxyethylene Oleosorb mo below.
Oleosorb mo, ethoxylated
1 - 6.5 moles ethoxylated

 

 

Regulatory process names 3 CAS names 1 IUPAC names 3 Trade names 1 Other names 1 Other identifiers 19 
Print infocardOpen Substance Regulatory Obligations
Substance identity
Help
EC / List no.: 500-019-9

 

CAS no.: 9005-65-6

Mol. formula:

 

formula
Hazard classification & labelling
HelpAccording to the majority of notifications provided by companies to ECHA in CLP notifications no hazards have been classified.

 

PRODUCT NAME: Oleosorb mo (E494) - SMO

 CLASS: Emulsifier

DESCRIPTION AND CONTENT: It is a mixture of partial esters of sorbitol and anhydrides and vegetable oleic acid. It may contain sorbitol, sorbitan, isosorbide esters and free fatty acids.

APPEARANCE: Cream-yellowish bead solid powders. It has a slightly characteristic odor.

RESOLUTION: Insoluble in water.

PURPOSE OF USAGE :

$ 1 · Lipophilic surfactant. It is often used as an intermediate emulsifier with polysorbates. It is also used to change the crystallization of oils

USAGE AREA:

 

1 Oleosorb mo can be used in light pastry products.
2 Oleosorb mo can be used in light pastry products, decoration and coating materials.
3 Oleosorb mo can be used in bread yeast.
4 Oleosorb mo can be used in oil emulsions.
5 Oleosorb mo can be used in milk and cream mixtures.
6 Oleosorb mo can be used in jelly marmalades.
7 Oleosorb mo can be used in tahini halva varieties.
8 Oleosorb mo can be used in cocoa-based confectionery.
9 Oleosorb mo can be used in chocolates.
10 Oleosorb mo can be used in liquid fruit and plant mixtures.
11 Oleosorb mo can be used in desserts.
12 Oleosorb mo can be used in sugar-based confectionery.
13 Oleosorb mo can be used in food supplements.

 

QUANTITY OF USAGE: It is determined by the practitioner according to the intended use and the desired product.

PACKING FEATURE: 25 kg Kraft Bag.

 

Products
123456789
E495 (Sorbitan mono palmitate)
E495 (Sorbitan mono palmitate)
PRODUCT NAME: Sorbitan Monopalmitate (E495) - SMP CLASS: Emulsifier DEFINITION AND CONTENT: Partial esters of sorbitol and herbal oleic acid ...

 

 

E494 (Sorbitan mono oleate) Oleosorb mo
E494 (Sorbitan mono oleate) Oleosorb mo
PRODUCT NAME: Oleosorb mo (E494) - SMO Sorbitan mono oleate
 CLASS: Emulsifier
DESCRIPTION AND CONTENT: Partial esters of sorbitol and anhydrides and vegetable oleic acid.

 

 

Sorbitan Mono Oleat (Oleosorb mo)
Emulsifier. It is used for emulsion of W / O phases. Cream and Lotion (0.2 / -0.5%)

 

 

Sectors in which Oleosorb mo is used
Cosmetics
BB / CC / DD / EE CreamBaby CreamsHand & Body CareGeneral CleaningWet WipesFormulae Used
Wooden FinishTransparent Hair Wax Balance RCFG with SHAVING GELWAX-TRANSPARENT
emulsifier
E494: Sorbitan mono oleate
Span 80

 

 

Source of oleosorb mo:
It is produced from oleic acid and sorbitol, a normal fatty acid of vegetable or animal origin.

 

 

Oleosorb mo Function and Features:
It has emulsifier and stabilizer properties.

 

 

Products:
Oleosorb mo is used in different products.

 

 

Acceptable daily intake from oleosorb mo:
25 mg / kg body weight

 

 

Side effects of Oleosorb mo:
Sorbitan mono oleate is metabolised to sorbitol and oleic acid, which are metabolized without side effects.

 

 

Limitations on the use of Oleosorb mo:
Although mostly vegetable oils are used, the use of animal fats (such as lard) cannot be excluded. Therefore; a number of groups, such as vegetarians, Muslims and Jews who do not eat milk or dairy, as well as meat, should avoid these products. Only manufacturers can give detailed information on the source of fatty acids. Chemically, the fatty acids of vegetable or animal origin are the same.

 

 

Sorbitan Esters
Sorbitan monolaurat
SORBITAN MONOLEAT (Oleosorb mo)
Sorbitan monostearate
Sorbitan sesquioleat
Sorbitan trioleate

 

 

 


Oleosorb mo

 

 

Aniyonik, noniyonik ve amfoterik surfaktantların kombinasyonundan oluşur. Oleosorb mo, Sert yüzey temizliğinde, tekstil ön işlemlerinde ve çamaşır deterjanlarında kullanılır. Oleosorb mo, Hidrojen peroksid bazlı temizlyiciler için uygun bir katkı maddesidir
Oleosorb mo

 

 




HAMMADDE
BİLGİLERİ
Oleosorb mo CAS NUMARASI 1338 - 43 - 8 
Oleosorb mo KİMYASAL FORMÜLÜ C24H44O6
Oleosorb mo MOLEKÜL AĞIRLIĞI 428,50 GR / MOL
TİCARİ İSMİ Oleosorb mo 

ANALİZ
BİLGİLERİ
Oleosorb mo AKTİF
DERECESİ (%) 70
Oleosorb mo PARLAMA
NOKTASI ( C ) 113
Oleosorb mo KAYNAMA
NOKTASI ( C ) 260
Oleosorb mo ERİME
NOKTASI ( C ) ÖLÇÜLMEMİŞTİR
Oleosorb mo PH
ARALIĞI ÖLÇÜLMEMİŞTİR
Oleosorb mo YOĞUNLUĞU 1,1 GR / CM3
Oleosorb mo ÇÖZÜNÜRLÜK SUDA RAHAT ÇÖZÜNÜR. 

 

 

Oleosorb mo


Oleosorb mo FİZİKSEL ÖZELLİKLER VE KULLANILDIĞI ALANLAR
Oleosorb mo FİZİKSEL
GÖRÜNÜMÜ KIVAMLI SIVI
Oleosorb mo RENK ŞEFFAF
Oleosorb mo KOKU KARAKTERİSTİK BİR KOKUSU VAR.
Oleosorb mo TEHLİKE CİLDE TEMASTA BİR İRRİTASYONA NEDEN OLMAZ.
Oleosorb mo DEPOLAMA KOŞULLARI SERİN VE NEM OLMAYAN YERDE VE KAPALI AMBALAJLARDA MUHAFAZA EDİLMELİDİR.

Oleosorb mo KULLANILDIĞI ALANLAR

Oleosorb mo, C24H44O6 kimyasal formüle sahip ve 428,50 GR / MOL kimyasal formülü olan, şeffaf, kendine has bir kokusu olan, kıvamlı sıvı formunda bir hammaddedir.
Oleosorb mo, gıda sanayi başta olmak üzere, farklı endüstriyel ürün üretimlerinde stabilizatör ve emülgatör olarak kullanılır. 
Oleosorb mo, tarım alanında ise, tarımsal ilaçların üretiminde ıslatıcı ve emülsiye edici ajan olarak kullanılır.
Oleosorb mo, hammaddesi dahil olmak üzere, bitki besleme,bitki koruma, insektisitler,fungusitler,akarisidler ve herbasitlere ait hammaddelerin fiziksel ve kimyasal özellikleri,kimyasal formülleri,çözünürlüğü ve kullanıldığı alanlara ait geniş bilgileri TARIM HAMMADDELERİ ANSİKLOPEDİSİ içerisinde bulabilirsiniz.
ETİKETLER: Oleosorb mo nedir, nerede kullanılır, Oleosorb mo kullanımı, Oleosorb mo msds, teknik özellikleri, emülgatörü, emülgatör, kimyasal formülü,molekül ağırlığı, kaynama noktası,donma noktası,erime noktası, Oleosorb mo fiziksel özellikleri,kimyasal özellikleri,herbisit nedir,herbisitlerin zararları,herbisid ile mücadele,herbisit ilaçları,herbisid ilaçları nelerdir, insektisit, insektisitler, insektisid etken maddeleri,fungusit nedir,fungusitler,fungusit ile mücadele,insektisitlerle mücadele yöntemleri,akarisitler,akarisit nedir,herbisit çeşitleri,herbisit hammaddeleri,kimyasalları,herbisit hammadde, Oleosorb mo nasıl çözünür, Oleosorb mo içeren hammaddeler, Oleosorb mo ne kadar kullanılır, nerelerde kullanılır, Oleosorb mo spesifikasyonu,fosforlu gübre yapımı,azotlu gübreler, damlama gübreleri,sıvı yaprak gübreler, NPK gübre,np gübre,iz elementli gübre üretimi,gübre hesaplama,gübre hesaplamaları,gübre bileşimi,kimyasal gübreler, organik gübre yapımı,gübre nedir,sıvı organik gübreler,potasyumlu gübre,sıvı potasyum gübresi yapımı,potasyumlu gübre içeriği,içerik,insektisit ile mücadele yöntemi,herbisit çeşitleri,sıvı kombi gübre yapımı,kalsiyum gübresi,sıvı magnezyum gübre imalatı,gübre formülleri,bitki besleme,bitki koruma gübreler,bitki gelişim düzenleyici gübreler,herbisit nedir,herbitsitlerle mücadele,herbisit ile kültürel mücadele,herbisit ile ilaç mücadelesi,herbisit için etken maddeler,fungusit nedir,fungusitlerle mücadele,kültürel mücadele,ilaç ile mücadele,fungusidin zararları,fungal bitki hastalıklar,bitkilerde fungusitler,fungusit neden olur,fungusit çeşitleri,fungusit etken maddeler,bitki büyüme düzenleyiciler,bitki besleme gübreler,gübre üretimleri,bitki koruma gübreler,bitki koruma ilaçları,bitki gelişim düzenleyicileri,edta şelatlı çinko yapımı,edta şelatlı çinko nasıl yapılır,edta şelatlı bakır, iz element gübre,edta şelatlı mangan,edta şelatlı demir,mikro elementli gübre formülü.

 

 

E494 (Sorbitan mono oleat) Oleosorb mo 
EC Numarası: 215-665-4

 

Moleküler formül

 

C24H44O6
IUPAC Adı
[(2R) -2 - [(2R, 3R, 4S) -3,4-dihidroksioksolan-2-il] -2-hidroksietil] (Z) -oktades-9-enoat

Oleosorb mo Fiziksel tanım
Sıvı

 

 

Oleosorb mo Renk
AMBER SIVI

 

 

Oleosorb mo viskozite
HAKKINDA 1000 CENTIPOISES

Oleosorb mo TANIM VE İÇİNDEKİLER: Oleosorb mo ,Sorbitol ve anhidritlerin kısmen esterleri ile sebze oleik asidinin bir karışımıdır.Oleosorb mo , Serbest yağ asitleri ve sorbitol, izosorbid esterleri olabilir.

 

Oleosorb mo GÖRÜNÜMÜ: Krem sarımsı boncuklu katı tozlar ve karakteristik koku.

 


Oleosorb mo KULLANIM ALANI:
Ø Güzel fırın ürünleri
Ø Güzel fırın ürünleri, dekorasyon ve kaplama malzemeleri
Ø Baker mayaları
Ø Yağ emülsiyonları
Ø Süt ve krema karışımları
Ø Jel marmelades
Ø Tahini helvası çeşitleri
Ø Kakaolu şekerlemeler
Ø Çikolatalar
Ø Meyve ve sebzelerin sıvı karışımları
Ø Tatlılar
Ø Şeker esaslı şekerlemeler
Ø Gıda takviyeleri

 

 

Oleosorb mo Önerilen Kullanım Alanları:
. O / W emülsiyonlarında lipofilik bir emülgatör, kozmetik için ıslatıcı ajan ve
ilaç.
. Ayrıca pigmentler için bir dispersan ajanı görevi görür.
. İlaçlar ve dolgu maddelerinde birleştirme ajanı olarak işlev görür.

Sorbitan Monoleat (Oleosorb mo ), yağ içinde su emülsiyonları oluşturmak için kullanılabilen iyonik olmayan bir yüzey aktif cismidir ve düşük HLB ile birlikte yüzey aktif maddeler su içinde yağ emülsiyonları oluşturabilir. EPA petrol sızıntısı dispersanını onayladı.

 

 

Oleosorb mo bir HLB yüzey aktif madde, bir s / y emülsiyon yapıcı olarak veya kullanılması önerilen bir o / kozmetik formülasyonları, petrol sahalarında kimyasallar, plastik, ev ürünleri, kaplamalar ve tekstil kullanım için emülsiyon yapıcı ağırlık. Oleosorb mo , patlayıcı derecesi düşük bir HLB noniyonik emülgatör olarak işlev görür. Oleosorb mo , patlayıcılardaki emülgatör de dahil olmak üzere çok sayıda uygulama için çok uygundur.

Oleosorb mo ,Çeşitli ürünlerdeki ıslatıcı bir ajan, birleştirme ajanı ve dispersiyon ajan olarak kullanılır. Oleosorb mo; kozmetik, farmasötik kremler ve çeşitli kişisel bakım ürünlerinde, sürtünme düzenleyici ve emülgatör olarak kullanılır. Bu berrak viskoz yağlı sıvı etoksilasyon için kullanılır. İlaç, emülsiyon polimerizasyonu, İçecek Karışımları içinde Köpük Ajan, Fırın Gıda, Hayvan Yemi, Kozmetik, zirai ilaç, Deri Kimyasalları, Tekstil Yardımcı ve emülsiyon patlayıcı - bu gibi çeşitli uygulamalarda kullanılmaktadır olarak Univenture olarak biz müşteri şartının gibi Oleosorb mo üretimi.

 

Bir emülsiyon yapıcı Oleosorb mo antistatik olarak tekstilde, yağ bazlı losyonlar, merhemler bir lipofilik iyonik olmayan yüzey aktif madde, emülgatör, stabilizatör olarak kullanıldığında, yumuşatıcı, tatlandırıcı madde, gıda katkı maddesi, diş macunu, tütün, tuvalet ve kozmetik yağlayıcı. Yağ sahası kimyasallarında ve korozyon önleyicisinde bir dispersan görevi görür. Ayrıca farmasötik alanlardaki eksipiyan ve intravenöz ozmotik diüretik olarak önemli bir rol oynar

Oleosorb mo, açık sarı viskoz yağlı sıvıdır. Span 80 suda çözünmez ve organik çözücüler içinde çözünür. Sulu emülsiyonlaştırıcı S60 ve emülsiyonlayıcı T60 ile karıştırılabilen su / yağ tipi emülgatördür. HLB: 4.3.

 


ÜRÜN ADI : Oleosorb mo (E494)- SMO

 

SINIF : Emülgatör

TANIM VE İÇERİK : sorbitol ve anhidritlerinin kısmi esterleri ile bitkisel oleik asitin bir karışımıdır. Sorbitol,sorbitan, izosorbid esterleri ile serbest yağ asitleri içerebilir.

GÖRÜNÜM: Krem-sarımtrak boncuk katı tozlar. Hafif karakteristik kokuya sahiptir.

ÇÖZÜNÜRLÜK : Suda çözünmez.

KULLANIM AMACI :

$1· Lipofilik yüzey aktif maddesidir. Genellikle polisorbatlarla bir arad emülgatör olarak kullanılır. Aynı zamanda yağların kristalizasyonunu değiştirmek için kullanılır

KULLANIM ALANI:

 

1 Hafif pastacılık ürünlerinde Oleosorb mo kullanılabilir.
2 Hafif pastacılık ürünleri,süsleme ve kaplama maddelerinde Oleosorb mo kullanılabilir.
3 Ekmek mayasında Oleosorb mo kullanılabilir.
4 Yağ emülsiyonlarında Oleosorb mo kullanılabilir.
5 Süt ve krema karışımlarında Oleosorb mo kullanılabilir.
6 Jöle marmelatlarda Oleosorb mo kullanılabilir.
7 Tahin helvası çeşitlerinde Oleosorb mo kullanılabilir.
8 Kakao bazlı şekerlemelerde Oleosorb mo kullanılabilir.
9 Çikolatalarda Oleosorb mo kullanılabilir.
10 Sıvı meyve ve bitki karışımlarında Oleosorb mo kullanılabilir.
11 Tatlılarda Oleosorb mo kullanılabilir.
12 Şeker bazlı şekerlemelerde Oleosorb mo kullanılabilir. 
13 Gıda takviyelerinde kulanılır Oleosorb mo kullanılabilir.

 

KULLANIM MİKTARI : Kullanım amacına ve istenilen ürüne göre uygulayıcı tarafından belirlenir.

AMBALAJ ÖZELLİĞİ : 25 kg Kraft Torba.

 

Ürünler
123456789
E495 (Sorbitan mono palmitat)
E495 (Sorbitan mono palmitat)
ÜRÜN ADI : Sorbitan Monopalmitat (E495)- SMP SINIF : Emülgatör TANIM VE İÇERİK : sorbitol ve anhidritlerinin kısmi esterleri ile bitkisel oleik asitin...

 

 

E494 (Sorbitan mono oleat) Oleosorb mo
E494 (Sorbitan mono oleat)Oleosorb mo
ÜRÜN ADI : Oleosorb mo (E494)- SMO Sorbitan mono oleat
SINIF : Emülgatör 
TANIM VE İÇERİK : sorbitol ve anhidritlerinin kısmi esterleri ile bitkisel oleik asitin.

 

 

Sorbitan Mono Oleat (Oleosorb mo)
Emülgatör. W/O fazlarının emülsyonu için kullanılır. Krem ve Losyon(%0.2/-0.5)

 

 

Oleosorb mo Kullanıldığı Sektörler
KozmetikKullanıldığı Ürünler
BB/CC/DD/EE KremBebek KremleriEl&Vücut BakımıGenel TemizlikIslak MendilKullanıldığı Formüller
Ahşap CilasıŞeffaf Saç Waxı Balance RCFG ileTRAŞ JELİWAX-ŞEFFAFKategori
Emülgatör
E494: Sorbitan mono oleat
Span 80

 

 

Oleosorb mo Kaynağı:
Bitkisel veya hayvansal kökenli normal bir yağ asidi olan oleik asit ve sorbitolden üretilir.

 

 

Oleosorb mo Fonksiyon ve Özellikleri:
Emülgatör ve stabilizör özelliktedir.

 

 

Ürünler:
Farklı ürünler içerisinde Oleosorb mo kullanılır.

 

 

Oleosorb mo dan Kabul edilebilir günlük alım miktarı:
25 mg/kg vücut ağırlığı

 

 

Oleosorb mo Yan etkileri:
Sorbitan mono oleat, yan etkileri olmadan metabolize edilen sorbitol ve oleik asite metabolize edilir.

 

 

Oleosorb mo Kullanımındaki sınırlamalar:
Çoğunlukla bitkisel yağlar kullanılmasına rağmen, hayvansal yağların (domuz yağı gibi) kullanımı dışlanamaz. Bundan dolayı; birtakım gruplar, örneğin, etin yanı sıra süt ve süt ürünleri de yemeyen vejeteryenler, Müslümanlar ve Yahudiler bu ürünlerden uzak durmalıdır. Sadece üreticiler, yağ asitlerinin kaynağı üzerine detaylı bilgi verebilir. Kimyasal olarak, bitkisel veya hayvansal kaynaklı yağ asitleri aynıdır.

 

 

Sorbitan Esterleri
Sorbitan monolaurat
SORBİTAN MONOLEAT (Oleosorb mo)
Sorbitan monostearat
Sorbitan sesquioleat
Sorbitan trioleat

 

 

 

Monooléate de sorbitane

 

Monooléate de sorbitane
Oleosorb mo.svg
Des noms
Nom IUPAC
Oléate de sorbitane; Span 80
Identifiants
Numero CAS
1338-43-8
Carte Info ECHA 100.014.242
Numéro E E494 (épaississants, ...)
UNII 
06XEA2VD56
Tableau de bord CompTox ( EPA )
DTXSID6027397 Modifiez ceci sur Wikidata
Propriétés
Formule chimique
C 24 H 44 O 6
Masse molaire 428,610 g · mol -1
Densité 0,986 g / ml [1]
Sauf indication contraire, les données sont données pour les matériaux dans leur état standard (à 25 ° C [77 ° F], 100 kPa).
Références Infobox
Le monooléate de sorbitane est un additif alimentaire portant le numéro E E494.

 

 

Synonyme:1,4-anhydro-6-O-[(9Z)-octadec-9-enoyl]-D-glucitol; Span 80
Application:A non-ionic surfactant
Numéro CAS:1338-43-8
Masse Moléculaire:428.60
Formule Moléculaire:C24H44O6

 

Les esters de sorbitane forment une classe de tensioactifs non ioniques dérivés du sorbitane par estérification d'une ou plusieurs de ses fonctions alcool ou phénol. Ils sont utilisés comme émulsifiants dans la préparation d'émulsions et de crèmes à usage pharmaceutique et cosmétique. Certains d'entre eux sont également utilisés comme additifs alimentaires. Lorsqu'ils sont utilisés seuls, ils produisent des émulsions stables de type w/O (les plus courants ont une HLB comprise entre 1,8 et 8,6), mais ils sont fréquemment utilisés avec un polysorbate dans des proportions variables pour produire des émulsions w/O ou o/W à volonté avec différentes textures et consistances.

Les esters de sorbitane sont parfois désignés par le nom de marque Span. Six d'entre eux sont utilisés comme additifs alimentaires.

 

Numéro E Nom Formule topologique HLB1
E491 Monostéarate de sorbitane (Span 60) 
Sorbitan monostearate.svg
4,7
E492 Tristéarate de sorbitane (Span 65) 
Sorbitan tristearate.png
2,1
E493 Monolaurate de sorbitane (Span 20) 
Sorbitan monolaurate.svg
8,6
E494 Monooléate de sorbitane (Span 80) 
Oleosorb mo.svg
4,3
E495 Monopalmitate de sorbitane (Span 40) 6,7
E496 Trioléate de sorbitane (Span 85) 1,8

 

 


Identification
Description

 

Formule moléculaire brute : POLYMERE

 

Principaux synonymes
Noms français :

 

 

ETHOXYLATED ANHYDROSORBITOL MONO-OLEATE
ETHOXYLATED Oleosorb mo
Mono-oléate de polyoxyéthylènesorbitanne
POLYETHYLENE GLYCOL Oleosorb mo
POLYOXYETHYLENE SORBITANNE MONOOLEATE
SORBITAN, MONO-9-OCTADECENOATE, POLY(OXY-1,2-ETHANEDIYL) DERIVS., (Z)-
SORBITAN, MONO-9-OCTADECENOATE, POLY-1,2-ETHANEDIYL, DERIVS.
SORBITAN, MONOOLEATE POLYOXYETHYLENE DERIV.
SORBITAN, MONOOLEATE, POLYOXYETHYLENE DERIVS.
Utilisation et sources d'émission
Fabrication de produits pharmaceutiques, fabrication de cosmétiques

 

Oleosorb mo

 

Il consiste en une combinaison de tensioactifs anioniques, non ioniques et amphotères. Oleosorb mo est utilisé dans le nettoyage des surfaces dures, les prétraitements textiles et les détergents à lessive. Oleosorb mo est un additif approprié pour les nettoyants à base de peroxyde d'hydrogène
Oleosorb mo
 
Oleosorb mo ZONES UTILISÉES
 
Oleosorb mo est une matière première sous la forme d'un liquide visqueux avec une formule chimique C24H44O6 et une formule chimique de 428,50 GR / MOL, avec une odeur transparente et distinctive.
Oleosorb mo est utilisé comme stabilisant et émulsifiant dans différents produits industriels, notamment dans l'industrie alimentaire.
Oleosorb mo est utilisé en agriculture comme agent mouillant et émulsifiant dans la production de produits agrochimiques.
Vous pouvez trouver des informations détaillées sur les propriétés physiques et chimiques, les formules chimiques, la solubilité et les domaines d'utilisation des matières premières de la nutrition des plantes, de la protection des plantes, des insecticides, des fongicides, des acaricides et des herbicides, y compris Oleosorb mo dans la rubrique AGRICULTURAL RAW MATERIALS ENCYCLOPEDIA.
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Oleosorb mo Zones d'utilisation recommandées:
. Émulsifiant lipophile dans les émulsions H / E, agent mouillant pour les cosmétiques et
médicaments.
. Il agit également comme agent dispersant pour les pigments.
. Travailler comme agent de liaison dans les médicaments et les chargesvoit lev.
 
Le monoléate de sorbitane (Oleosorb mo) est un surfactant non ionique qui peut être utilisé pour créer des émulsions eau-dans-huile, et avec un faible HLB, les surfactants peuvent former des émulsions huile-dans-eau. Dispersant de déversement d'hydrocarbures approuvé par l'EPA.

 

 

Oleosorb mo est un tensioactif HLB, un émulsifiant sans ou une formulation cosmétique recommandée pour être utilisée, émulsifiant le poids pour une utilisation dans les produits chimiques, plastiques, produits ménagers, revêtements et textiles dans les champs pétrolifères. Oleosorb mo agit comme un émulsifiant non ionique HLB faiblement explosif. Oleosorb mo est bien adapté à de nombreuses applications, y compris les émulsifiants dans les explosifs.
 
Oleosorb mo est utilisé comme agent mouillant, agent de couplage et agent dispersant dans divers produits. Oleosorb mo; Utilisé comme régulateur de friction et émulsifiant dans les cosmétiques, les crèmes pharmaceutiques et divers produits de soins personnels. Ce liquide huileux visqueux clair est utilisé pour l'éthoxylation. En tant qu'Univenture, nous fabriquons Oleosorb mo comme exigence du client car il est utilisé dans diverses applications telles que les médicaments, la polymérisation en émulsion, l'agent de mousse dans les mélanges de boissons, les aliments de boulangerie, l'alimentation animale, les cosmétiques, les pesticides, les produits chimiques pour le cuir, les textiles auxiliaires et les explosifs en émulsion.

 

Un émulsifiant Oleosorb mo utilisé dans les textiles, les lotions à base d'huile, les onguents comme tensioactif non ionique lipophile, émulsifiant, stabilisant, adoucissant, édulcorant, additif alimentaire, dentifrice, tabac, toilette et lubrifiant cosmétique. Il agit comme dispersant dans les produits chimiques des champs pétrolifères et comme inhibiteur de corrosion. Il joue également un rôle important en tant qu'excipient et diurétique osmotique intraveineux dans les domaines pharmaceutiques.

Oleosorb mo est un liquide huileux visqueux jaune clair. Le Span 80 est insoluble dans l'eau et se dissout dans les solvants organiques. Il s'agit d'un émulsifiant de type eau / huile qui peut être mélangé avec l'émulsifiant aqueux S60 et l'émulsifiant T60. HLB: 4.3.

 


NOM DU PRODUIT: Oleosorb mo (E494) - SMO

 

 CLASSE: Emulsifiant

DESCRIPTION ET CONTENU: C'est un mélange d'esters partiels de sorbitol et d'anhydrides et d'acide oléique végétal. Il peut contenir du sorbitol, du sorbitan, des esters d'isosorbide et des acides gras libres.

APPARENCE: Poudres solides de couleur crème jaunâtre. Il a une odeur légèrement caractéristique.

RÉSOLUTION: Insoluble dans l'eau.

OBJECTIF D'UTILISATION:

1 $ · Tensioactif lipophile. Il est souvent utilisé comme émulsifiant intermédiaire avec des polysorbates. Il est également utilisé pour modifier la cristallisation des huiles

ZONE D'UTILISATION:

 

1 Oleosorb mo peut être utilisé dans les pâtisseries légères.
2 Oleosorb mo peut être utilisé dans les produits de pâtisserie légers, les matériaux de décoration et de revêtement.
3 Oleosorb mo peut être utilisé dans la levure à pain.
4 Oleosorb mo peut être utilisé dans les émulsions d'huile.
5 Oleosorb mo peut être utilisé dans les mélanges de lait et de crème.
6 Oleosorb mo peut être utilisé dans les marmelades de gelée.
7 Oleosorb mo peut être utilisé dans les variétés de tahini halva.
8 Oleosorb mo peut être utilisé dans les confiseries à base de cacao.
9 Oleosorb mo peut être utilisé dans les chocolats.
10 Oleosorb mo peut être utilisé dans des mélanges liquides de fruits et de plantes.
11 Oleosorb mo peut être utilisé dans les desserts.
12 Oleosorb mo peut être utilisé dans les confiseries à base de sucre.
13 Oleosorb mo peut être utilisé dans les compléments alimentaires.

 

 

 

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