Ethylene-acrylic acid

Ionomer resins consisting of ethylene—methacrylic acid copolymers partially neutralized with sodium or zinc were commercially introduced in 1964 by Du Pont under the Sudyn trademark (1). More recently, a similar line of products, sold as Hi-Mdan resins, has been commercialized by Mitsui—Du Pont in Japan. lolon ionomeric resins, based on ethylene—acrylic acid, are produced by Exxon in Belgium. Ionomers containing about 1 mol % of carboxylate groups are offered by BP in Europe as Novex resins. Low molecular weight, waxy Aclyn ionomers are produced and sold by AHiedSignal. [Pg.404]

During processing at elevated temperatures, normal precautions are needed to prevent accidental bums. Sudyn ionomers have U.S. Food and Dmg Administration clearance for food contact. Information about ionomers can be found in the articles Ethylene Acrylic acid and derivatives and Methacrylic acid and derivatives. [Pg.408]

Ethylene-acrylic acid ester copolymerisate, EEA, shows high heat resistance and high elasticity at low temperatures. [Pg.1075]

Ethylene-acrylic acid copolymer neutralized with amines such as triethanol amine or N-methyl diethanol amine enhances anti-settling properties [1198, 1554]. [Pg.9]

We can incorporate short chain branches into polymers by copolymerizing two or more comonomers. When we apply this method to addition copolymers, the branch is derived from a monomer that contains a terminal vinyl group that can be incorporated into the growing chain. The most common family of this type is the linear low density polyethylenes, which incorporate 1-butene, 1-hexene, or 1-octene to yield ethyl, butyl, or hexyl branches, respectively. Other common examples include ethylene-vinyl acetate and ethylene-acrylic acid copolymers. Figure 5.10 shows examples of these branches. [Pg.111]

We make polyethylene resins using two basic types of chain growth reaction free radical polymerization and coordination catalysis. We use free radical polymerization to make low density polyethylene, ethylene-vinyl ester copolymers, and the ethylene-acrylic acid copolymer precursors for ethylene ionomers. We employ coordination catalysts to make high density polyethylene, linear low density polyethylene, and very low density polyethylene. [Pg.288]

Ethylene-acrylic acid copolymers are converted to ethylene ionomers in a separate, postpolymerization reaction. [Pg.288]

Emulsion paints are based on aqueous synthetic resin dispersions, which afford a lacquer-like paint film. The resin dispersions which are commonly used by the paint industry contain water as the carrier phase. A large number of such dispersions are available, based on different resins such as poly(vinyl acetate), which may be employed as a copolymer with vinyl chloride, maleic dibutyl ester, ethylene, acrylic acid esters, polyacrylic resin, and copolymers of the latter with various monomers, as well as styrene-butadiene or poly(vinyl propionate). These disper-... [Pg.159]

The interaction of the polymer with the filler is promoted by the presence of reactive functionality in the polymer, capable of chemical reaction or hydrogen bonding with the functionality, generally hydroxyl, on the surface of the filler. Thus, carboxyl-containing polymers, e.g. ethylene-acrylic acid copolymers and maleic anhydride- and acrylic acid-grafted polyethylene and polypropylene interact readily with fillers. [Pg.469]

Strandfoam, developed by Dow, is said to be an easy to shape polyolefin foam consisting of thousands of joined strands of foam. The structure is said to improve cushioning and insulation properties and may replace some open cell PU applications. The process is briefly described and utilises ethylene-acrylic acid in a PE carrier. DOW EUROPE SA... [Pg.107]

Poly (methyl methacrylate) was also subjected to mechanical reaction in a vibrating mill in common solvent for several monomers (ethylene, acrylic acid and its esters, acrylonitrile and styrene) at temperatures from —196 to 20° C (22). The formation of macroradicals and their reactions were followed by EPR (electron paramagnetic resonance). The macroradicals reacted with vinyl monomers at temperatures less than —100° C, while quinones underwent reaction as low as —196° C. The same experiments were performed also with polystyrene and polybutylenedimethacrylate. The radicals from polystyrene were more reactive than those from poly(methyl methacrylate). [Pg.12]

Polybutylene dimethacrylate Ethylene Acrylic acid Methylacrylate Acrylonitrile Styrene Butylene dimethacrylate... [Pg.23]

Hirano et al. [150, 151] immobilized several peptides, RGDS, on ethylene-acrylic acid copolymer (EAA, acrylic acid content 20 wt%) film by reacting the amino-terminal of the peptide with the carboxylic acid of the copolymer with the aid of a water-soluble carbodiimide, to form EAA-co-NH-RGDX. Their objective was to examine effect of the fourth residue, X, on the cell-attachment activity of the tetrapeptide, RGDX, where X is S, V and T. They also examined the activity of RGD, YIGSR and YIGSR-NH2 for comparison. The cell lines used were ovary CHO-K1 cell (Chinese hamster), kidney NRK cell... [Pg.38]

QX 2375.0 Ethylene-acrylic acid random copolymer Dow Chemical Co. [Pg.151]

Primacor (Series) Ethylene acrylic acid copolymers (12) Dow... [Pg.147]

Acrylic Acid and Acrylates. Acrylic acid and acrylates may be produced commercially by the Reppe reaction of acetylene.76,184-187 However, the industrial significance of these processes has diminished since acetylene is no longer a viable source and was replaced by ethylene. Acrylic acid and acrylates are now produced by propylene oxidation (see Section 9.5.2). [Pg.385]

Ionomers have been synthesized from reaction of tin II and tin IV metal halides and organostannane halides through reaction with an ethylene-acrylic acid copolymer. Mass spectral, infrared spectral, and elemental analysis results are consistent with the formation of tin-containing ionomers. The products all exhibit "ionomer-like" properties and soften below 150 C, many softening below 50 C. [Pg.155]

The pre-ionomer was used as received ethylene/acrylic acid copolymer, acrylic acid content 20%, Scientific Polymer Products, Inc., Ontario, NY ... [Pg.157]

The acid content of the ethylene/acrylic acid copolymer was determined using a potentiometric titration employing standardized sodium hydroxide. [Pg.157]

The ethylene acrylic acid copolymer is sold as containing 20 % (by weight) acrylic acid. Experimentally it was found to contain 22.9 % acrylic acid corresponding to about 10 % of the units being acrylic acid. [Pg.159]

Considerable evidence exists indicating that the acidity of an oxide surface can vary according to the pretreatment. For example, Finlayson and Shah [12] used flow microcalorimetry to characterize the oxidized surfaces of three aluminum specimens that had received different pretreatments. They found that the surface chemistry of the three samples was considerably different but was dominated by Lewis base sites in all cases. The peel strength of ethylene/acrylic acid copolymers laminated against the substrates increased as the basicity of the substrate and the acrylic acid content of the co-polymer increased. [Pg.244]

Similar mechanical data for a series of ionomers derived from a single ethylene—acrylic acid copolymer have appeared (13) (Table 3). Comparison of the data from Tables 2 and 3 shows that the substitution of acrylic acid for methacrylic acid has only minor effects on properties. [Pg.405]

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