Acid ethoxylates

The physical properties of the fatty acid ethoxylates depend on the nature of the fatty acid and even more on ethylene oxide content. As the latter increases, consistencies of the products change from free-flowing Hquids to slurries to firm waxes (qv). At the same time, odor, which is characteristic of the fatty acid, decreases in intensity. Odor and color stabiUty are important commercial properties, particularly in textile appHcations. Oleic acid esters, though possessing good functional properties, cannot be used because they tend to yellow on exposure to heat and air. 

At room temperature, ca 60 wt % ethylene oxide is needed to solubilize the fatty acids. Surface activity of the ethoxylates is moderate and less than that of alcohol or alkylphenol ethoxylates (84). The ethoxylates are low foamers, a useful property in certain appHcations. Emulsification is the most important function. Its importance is reflected in the wide range of lipophilic solubiHties available in the commercial products. Like all organic esters, fatty acid ethoxylates are susceptible to acid and alkaline hydrolysis. 

Eatty acid ethoxylates are used extensively in the textile industry as emulsifiers for processing oils, antistatic agents (qv), softeners, and fiber lubricants, and as detergents in scouring operations. They also find appHcation as emulsifiers in cosmetic preparations and pesticide formulations. Eatty acid ethoxylates are manufactured either by alkaH-catalyzed reaction of fatty acids with ethylene oxide or by acid-catalyzed esterification of fatty acids with preformed poly(ethylene glycol). Deodorization steps are commonly incorporated into the manufacturing process. 

The principal constituents of rosin (qv) are abietic and related acids. Tall oil (qv) is a mixture of unsaturated fatty and aHcycHc acids of the abietic family. Refined tall oil may be high in rosin acids or unsaturated acids, depending on the refining process. Ethoxylates of rosin acids, eg, dehydro abietic acid, are similar to fatty acid ethoxylates in surfactant properties and manufacture, except for thek stabiHty to hydrolysis. No noticeable decomposition is observed when a rosin ester of this type is boiled for 15 min in 10% sulfuric acid or 25% sodium hydroxide (90). Steric hindrance of the carboxylate group associated with the aHcycHc moiety has been suggested as the cause of this unexpectedly great hydrolytic stabiHty. 

PABA 4-aminobenzoic acid p-aminobenzoic acid ethoxylated ethyl 4-aminobenzoic acid (PEG-25 PABA)... 

A soap-based powder can be produced in combination with ester sulfonates. Thirty-five percent of a sodium soap mixture (5% lauric acid, 5% myristic acid, 52% palmitic acid, 21% stearic acid, 12% oleic acid, and 5% linoleic acid) is mixed with 15% sodium a-sulfo palm oil fatty acid methyl ester, 3% lauric acid ethoxylate, 5% sodium silicate, 17% sodium carbonate, 20% Na2S04- 10H2O, and 5% water [79]. 

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. 

Fatty acid esters, 9 142 Fatty acid ester sulfonates, 23 528-529 Fatty acid ethoxylates, 24 149-150 Fatty acid methyl esters (FAME), 12 429 13 26t... 

In order to study the effect of substituents near the hydrolyzable bond, four fatty acid ethoxylates with different degrees of steric hindrance near the ester bond, see Fig. 4, have been synthesized [18]. The homologue pure surfactants were prepared by reacting the appropriate acid chlorides with a large excess of tetra(ethylene glycol) in the presence of pyridine. 

Fig. 4 Four fatty acid ethoxylates with different substituents on the acyl carbon next to the ester bond, i.e., the a-carbon...

The most common nonionic surfactants are those based on ethylene oxide, referred to as ethoxylated surfactants. Several classes can be distinguished alcohol ethoxylates, alkyl phenol ethoxylates, fatty acid ethoxylates, sorbitan ester ethoxylates, fatty amine ethoxylates, and ethylene oxide-propylene oxide copolymers (sometimes referred to as polymer surfactants). Another important class of nonionics are the multihydroxy products such as glycol esters, glycerol (and polyglycerol) esters, glucosides (and polyglucosides), and sucrose esters. Amine oxides and sulfinyl surfactants represent nonionic with a small head group. 

Table 5.4 Typical range of fatty acid ethoxylates ...

Kolb Distribution Ltd Hedipin CFA, PO, PS Fatty acid ethoxylates... 

Lignin has been grafted with ethenylbenzene [43,44] (styrene), 4-methyl-2-oxy-3-oxopent-4-ene [45,46] (methylmethacrylate), 2-propenamide (acrylamide), 2-propene nitrile [47] (acrylonitrile), cationic monomers, anionic monomers, and propenoic acid ethoxylates. An index of compounds listing structure, product name, and trivial name is given in Table 3. Two types of... 

Esters of phosphoric acid form the largest group of non-durable antistats (Fig. 10.1). The alkyl groups are usually derived from fatty acids. Ethoxylated fatty... 

Ethoxylated fatty acids Ethoxylated fatty amide... 

PEG-3 Tridecyl ether phosphate PEG-6 Tridecyl ether phosphate PEG-10 Tridecyl ether phosphate Phosphoric acid, (ethoxylated tridecyl alcohol) esters Poly(oxy-1,2-ethanediyl), a-tridecyl-ra-hydroxy-, phosphate Poly-ethylene glycol (3) tridecyl ether phosphate Polyethylene glycol 300 tridecyl ether phosphate Polyethylene glycol 500 tridecyl ether phosphate Polyoxyethylene (3) tridecyl ether phosphate Polyoxyethylene (6) tridecyl ether phosphate Polyoxyethylene (10) tridecyl ether phosphate Trideceth-3 phosphate Trideceth-6 phosphate Trideceth-10 phosphate. 

It may be noted that fatty acid glycerides and fatty acid ethoxylates are well-known surfactants (72). Thus, the DEAD derivatives may possibly be useftil as surfactants as well, with modified properties. 

Typical enulsifiers used in emulsion polymerization of VC are anirmic emulsifiers like sodium alkyl sulfonates, sodium diaUcyl sulfosucdnates, fatty acid soaps and sodium ethoxy sulfates. Neutral emulsifiers like alltyl phenol ethoxylates and fatty acid ethoxylates are often added during after polymerization in Oder b> increase latex stability. The emulsifiers are not only chosen for control of the particle formation and latex stability during polymerization, but for a number of other reasons like mechanical stability, reactor wall build-up, plastisol formation, heat and colour stability and water resistance of the final product [1]. 

Primarily for toxicity reasons, work has focused on the use of nonionic surfactants, particularly Tweens and Spans. Pouton (20) and Wakericy el al. (21) have screened a range of surfactants, finding that in general molecules with unsat-uraced acyl chains were most efficiem emulsifiers, particularly the oleates with an HLB value of approximately II. The authors also reported that the sorbitan esters and ethoxylated triglycerides such as Tagat TO were more efficient than the fatty acid ethoxylates, possibly due to the polydispersity of the latter. 

Katly acid ethoxylates Nonyl phenol ethoxylate (NPE)... 

Toxicology Overexposure may cause skin and eye irritation inh. of high cone, vapors may be irritating to respiratory tract ing. may cause nausea ethylene oxide (cancer and reproductive hazard) may accumuiate in storage and transport vessels Precaution Incompat. with strong oxidizers Hazardous Ingredients Laurie acid ethoxylate (100%)... 

These include secondary alcohol ethoxylates, tridecyl alcohol ethoxylates, fatty acid ethoxylates, PO-capped ethoxylates and various alcohol propoxylates. 

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