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Fatty alcohol , emulsifier

Defoamers (qv) are available in several forms, composed of many different materials. Historically, paste and soHd defoamers were used extensively. Composed of fatty acids, fatty amides, fatty alcohols, emulsifiers (and mineral oil [8012-95-1] in the high soflds paste emulsions), these defoamers required emulsification (brick) or dilution (paste) before use. Liquid defoamers have become the preferred form, insofar as concern about handling and ovemse have been overcome. [Pg.16]

AlfrriCK. [Vista] Fatty alcohols emulsifier, wetting agent, surfactant intermediate lubri t fOT metal loUii oils emollient for cosmetics defbamer. [Pg.16]

CrodacoL [Croda Inc.] Fatty alcohols emulsifier, thickener, (pacifier, emollient, lubricant, structural agent in anhyd. stick systems, hair and skin prods. [Pg.88]

Ocetox. [Witco SA] Ethoxylated fatty alcohol emulsifier, detergent... [Pg.261]

Additives. Because of their versatility, imparted via chemical modification, the appHcations of ethyleneimine encompass the entire additive sector. The addition of PEI to PVC plastisols increases the adhesion of the coatings by selective adsorption at the substrate surface (410). PEI derivatives are also used as adhesion promoters in paper coating (411). The adducts formed from fatty alcohol epoxides and PEI are used as dispersants and emulsifiers (412). They are able to control the viscosity of dispersions, and thus faciHtate transport in pipe systems (413). Eatty acid derivatives of PEI are even able to control the viscosity of pigment dispersions (414). The high nitrogen content of PEIs has a flame-retardant effect. This property is used, in combination with phosphoms compounds, for providing wood panels (415), ceUulose (416), or polymer blends (417,418) with a flame-retardant finish. [Pg.13]

The polymeric latex obtained in a hydrophobic organic solvent is poorly dispersed in water because of the presence of an emulsifier with a low HLB value. For this reason, a wetting agent is added to water or emulsion prior to the dissolution. The wetting agent (a surface active substance with a high HLB value) facilitates the inversion of latex phases to produce a direct type emulsion. Usually, it belongs to oxyethylated alkylphenols, fatty alcohols, or fatty acids. [Pg.69]

Due to their excellent emulsifying properties, sodium alcohol sulfates are used as emulsifiers for cosmetic creams. In particular, cetylstearyl sulfate in combination with fatty alcohols is used as an emulsifier for ointments. [Pg.276]

Amine salts of acrylate ester polymers, which are physiologically acceptable and useful as surfactants, are prepared by transesterifying alkyl acrylate polymers with 4-morpholinethanol or alkanolamines and fatty alcohols or alkoxyl-ated alkylphenols and neutralizing with phosphoric acid. This polymer salt (pH of a 10% aqueous solution = 5.1) was used as an emulsifying agent for oils and waxes [70]. [Pg.565]

The development of monoalkyl phosphate as a low skin irritating anionic surfactant is accented in a review with 30 references on monoalkyl phosphate salts, including surface-active properties, cutaneous effects, and applications to paste and liquid-type skin cleansers, and also phosphorylation reactions from the viewpoint of industrial production [26]. Amine salts of acrylate ester polymers, which are physiologically acceptable and useful as surfactants, are prepared by transesterification of alkyl acrylate polymers with 4-morpholinethanol or the alkanolamines and fatty alcohols or alkoxylated alkylphenols, and neutralizing with carboxylic or phosphoric acid. The polymer salt was used as an emulsifying agent for oils and waxes [70]. Preparation of pharmaceutical liposomes with surfactants derived from phosphoric acid is described in [279]. Lipid bilayer vesicles comprise an anionic or zwitterionic surfactant which when dispersed in H20 at a temperature above the phase transition temperature is in a micellar phase and a second lipid which is a single-chain fatty acid, fatty acid ester, or fatty alcohol which is in an emulsion phase, and cholesterol or a derivative. [Pg.611]

Fatty alcohol and fatty acid ethoxylates are amphiphilic compounds that are commonly used as nonionic surfactants and emulsifiers in many applications, such as cosmetic and care products and in textile fabrication. They serve as antistatic lubricants and viscosity regulators. [Pg.395]

The environmental compatibility of silicone softeners is generally favourable [495,496]. The discussion here concerns only the silicone component of the formulation and not the supporting emulsifying system. For the most part this is nonionic, preferably based on linear ethoxylated fatty alcohols, although alkylphenol ethoxylates are still used in some countries [496]. The salient points regarding the environmental influence of silicones can be summarised as follows ... [Pg.265]

From the various emulsifiers examined, an anionic emulsifier from the sulphonic acid group of polyglycol-ether of fatty alcohol and alkylphenol-polyglycol esters was used. The best results were achieved with the use of alkylphenol-polyglycol ester (Berol EMU27). [Pg.186]

Fatty Acid Esters and Fatty Alcohols Fatty acid esters are obtained by transesterification of triglycerides (vegetable oils) or by esterification of fatty acid with alcohol or polyols. Fatty alcohols are obtained by hydrogenation of esters on metal catalysts. Fatty acid esters and fatty alcohols are useful platform molecules to prepare surfactants, emulsifier, lubricants and polymers. [Pg.62]

In polymer applications derivatives of oils and fats, such as epoxides, polyols and dimerizations products based on unsaturated fatty acids, are used as plastic additives or components for composites or polymers like polyamides and polyurethanes. In the lubricant sector oleochemically-based fatty acid esters have proved to be powerful alternatives to conventional mineral oil products. For home and personal care applications a wide range of products, such as surfactants, emulsifiers, emollients and waxes, based on vegetable oil derivatives has provided extraordinary performance benefits to the end-customer. Selected products, such as the anionic surfactant fatty alcohol sulfate have been investigated thoroughly with regard to their environmental impact compared with petrochemical based products by life-cycle analysis. Other product examples include carbohydrate-based surfactants as well as oleochemical based emulsifiers, waxes and emollients. [Pg.75]

Surfactants and Emulsifiers Derived from Vegetable Oil Based Fatty Alcohols and Fatty Acids... [Pg.86]

Surfactants such as sulfated fatty alcohols may be hydrated to a higher extent than the fatty alcohols alone and thus stabilize o/w emulsions. The eombination of an anionic and a nonionic srrrfactant has proved to be partieularly effeetive, sinee the electrostatic repulsion forces between the ionie surfaetant moleeules at the interface are reduced by the incorporation of nonionic molecules, thus improving the emulsion stability. The combination of cetyl/stearyl sulfate (Lanette E) and eetyl/ stearyl alcohol (Lanette 0) to yield an emulsifying eetyl/stearyl aleohol (Lanette N) is an example of this approach. The polar properties of this srrrfactant mixtrrre are dominant, and o/w creams are formed. In contrast to w/o systems, the stabilizing effect of the surfactant mixtirre is not mainly due to adsorption at the interfaee. Instead, the mixed surfactants are highly hydrated and fonn a lamellar network, whieh is... [Pg.139]

Eccleston GM. Properties of fatty alcohol mixed emulsifiers and emulsifying waxes. In Elorence AT, ed. Materials used in Pharmaceutical Formulation. Oxford Blackwell Scientific Publications, 1984 124-56. [Pg.109]

At a pharmaceutical manufacturing facility in New York, an organoclay-carbon filtration system was installed to treat wastewater contaminated with emulsified white petroleum, stearic acid, fatty acid stearates, fatty alcohols, mineral oils, and oxyethylene ethers and stearates. The system consisted of 159 kg of organoclay and 86 kg of activated carbon. The entire system cost 8000 (D17267S, p. 29). [Pg.407]

Examples of nonionic emulsifiers are polyoxyethylene, polyoxypropylene, fatty alcohol ether, polyethylene (or polypropylene), glycol fatty acid esters, lecithin, lanolin, cholesterol, etc... [Pg.731]

Sulfation is the generation of an oxygen sulfur(IV) bond, where the oxygen is attached to the carbon backbone, in the most controlled manner possible, using some form of sulfur dioxide moiety. When sulfating alcohols, the reaction is strongly exothermic, Examples of feedstocks for such a process include alkenes, alcohols, or phenols. Unlike the sulfonates, which exhibit excellent stability to hydrolysis, the alcohol sulfates are readily susceptible to hydrolysis in acidic media, The sulfation of fatty alcohols and fatty polyalkoxylates has produced a substantial body of commercial detergents and emulsifiers. [Pg.1567]

See other pages where Fatty alcohol , emulsifier is mentioned: [Pg.409]    [Pg.22]    [Pg.409]    [Pg.22]    [Pg.450]    [Pg.451]    [Pg.451]    [Pg.460]    [Pg.322]    [Pg.439]    [Pg.294]    [Pg.300]    [Pg.463]    [Pg.68]    [Pg.642]    [Pg.358]    [Pg.91]    [Pg.199]    [Pg.246]    [Pg.347]    [Pg.79]    [Pg.83]    [Pg.48]    [Pg.450]    [Pg.451]    [Pg.451]    [Pg.460]    [Pg.16]   
See also in sourсe #XX -- [ Pg.174 , Pg.178 ]



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Fatty alcohols

Fatty emulsifier

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