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Zinc 2-ethylhexanoate

Activators. Activators are chemicals that increase the rate of vulcanization by reacting first with the accelerators to form mbber soluble complexes. These complexes then react with the sulfur to achieve vulcanization. The most common activators are combinations of zinc oxide and stearic acid. Other metal oxides have been used for specific purposes, ie, lead, cadmium, etc, and other fatty acids used include lauric, oleic, and propionic acids. Soluble zinc salts of fatty acid such as zinc 2-ethylhexanoate are also used, and these mbber-soluble activators are effective in natural mbber to produce low set, low creep compounds used in load-bearing applications. Weak amines and amino alcohols have also been used as activators in combination with the metal oxides. [Pg.237]

Typically, solid stabilizers utilize natural saturated fatty acid ligands with chain lengths of Cg—Clg. Zinc stearate [557-05-1], zinc neodecanoate [27253-29-8], calcium stearate [1592-23-0], barium stearate [6865-35-6], and cadmium laurate [2605-44-9] are some examples. To complete the package, the solid products also contain other solid additives such as polyols, antioxidants, and lubricants. Liquid stabilizers can make use of metal soaps of oleic acid, tall oil acids, 2-ethyl-hexanoic acid, octylphenol, and nonylphenol. Barium bis(nonylphenate) [41157-58-8], zinc 2-ethylhexanoate [136-53-8], cadmium 2-ethylhexanoate [2420-98-6], and overbased barium tallate [68855-79-8] are normally used in the liquid formulations along with solubilizers such as plasticizers, phosphites, and/or epoxidized oils. The majority of the liquid barium—cadmium formulations rely on barium nonylphenate as the source of that metal. There are even some mixed metal stabilizers supplied as pastes. The U.S. FDA approved calcium—zinc stabilizers are good examples because they contain a mixture of calcium stearate and zinc stearate suspended in epoxidized soya oil. Table 4 shows examples of typical mixed metal stabilizers. [Pg.550]

Zinc 2-ethylhexanoate was prepared in refluxing toluene from the reaction of 2-ethylhexanoic acid with zinc oxide. The lead salt was prepared in methanol by the reaction of lead acetate with 2-ethylhexanoic acid. The reaction of barium oxide with 2-ethylhexanoic acid in toluene provided the barium salt. [Pg.18]

Hexanoic acid 1-Hexanok acid n-Hexanoic acid. See Caproic acid Hexanoic acid, 2-ethyl-, cobalt (2+) salt See Cobalt octoate Hexanoic acid, 2-ethyl-, hexadecyl ester. See Cetyl octanoate Hexanoic acid, 2-ethyl-, zinc salt See Zinc 2-ethylhexanoate Hexanol 1-Hexanol Hexan-1-ol n-Hexanol. See Hexyl alcohol 6-Hexanolactone. Seee-Caprolactone monomer 1-Hexanol, 2-ethyl. See2-Ethylhexanol 1-Hexanol, 2-etl l-, acrylate. See Octyl aciylate 1-Hexanol, 2-etl -, phosphate. SeeTrioclyl phosphate 1-Hexanol, 2-etl -, sebacate. See Dioctyl sebacate... [Pg.1140]

Zinc octadecanoate. See Zinc stearate Zinc octoate. See Zinc 2-ethylhexanoate Zincoid. See Zinc oxide Zinc orthophosphate. See Zinc phosphate... [Pg.1425]

Cobalt, Cobalt acetate (ous) Cobalt linoleate (ous) Cobalt naphthenate (ous) Cobalt octoate. Cobalt sulfate (ous) Cobalt tallate Copper linoleate Copper naphthenate. Copper octoate. Copper tallate Erucic acid, 2-Ethylhexolc add. Iron linoleate Iron naphthenate. Iron octoate Iron tallate Lead linoleate Lead naphthenate. Lead octoate. Lead tallate. Lithium drier Magnesium stearate Manganese acetate (ous) Manganese linoleate Manganese naphthenate Manganese octoate Manganese tallate. Menhaden oit Naphthenic add. Nickel octoate Nuact NOPB Prifrac 2990 Rosin-, Sorbitan tallate Strontium drier. Zinc 2-ethylhexanoate Zinc naphthenate Zinc tallate. Zirconium octoate... [Pg.1509]

BSrostab L 233. See Zinc 2-ethylhexanoate Barqual 50-28, Barquat 50-65, Barquat 80-... [Pg.391]

Harcat Zinc 22. See Zinc 2-ethylhexanoate Harcat Zinc Naphthenate. See Zinc naphthenate Hardened Taiiow Fatty Acid, 45 Hardened Taiiow Fatty Acid, 51". See Tallow acid Hard hydrocarbon. See Asphalt, oxidized Hard paraffin. See Paraffin Harlem oil. See Cade oil Haro Chem ALG, Haro Chem ALMD-2. See Aluminum distearate... [Pg.1968]

Hexanoic acid, 2-ethyl-, zinc salt. See Zinc 2-ethylhexanoate... [Pg.2021]

Octhilinone. See 2-n-Octyl-4-isothiazolin-3-one Octic acid. See Caprylic acid Octoate Z Liq., Octoate Z Solid. See Zinc 2-ethylhexanoate... [Pg.2932]

Poiypiasdone iNF-10, Poiypiasdone XL, Poiypiasdone XL-10. See Crospovidone Poiypiastoi 10. See Pentaerythrityl stearate Poiypiastoi 23. See Zinc 2-ethylhexanoate Poiypiate 90, Poiypiate 852, Poiypiate P, Poiypiate P01. See Kao I i n PoiypoilQ. See Polypropylene Poly (polytetrahydrofuran carbonate) diol. See Polyether-polycarbonate diol Polypropene. See Polypropylene Polypropylene CAS 9003-07-0... [Pg.3541]

Stabilizer C. See N,N -Diphenylthiourea Stabilizer l-FF. See 2-Phenyl indole Stabioi CA 580 i. See Calcium stearate Stabioi CA 1362. See Calcium behenate Stabioi CA 1733. See Calcium stearate Stabioi ZN 592 i. See Zinc stearate Stabioi ZN 1500. See Zinc 2-ethylhexanoate Stabiand . See Hydrogenated soybean oil Stabiec iDC 52, Stabiec iDC 85. See Lecithin Stabrom 909. See Bromine Stabyien 30. See Acrylates/vinyl isodecanoate crosspolymer... [Pg.4173]

Struktoi T.M.Q. Powd.] Struktoi T.M.Q.. See 2,2,4-Trimethyl-1,2-dihydroquinoline polymer Struktoi TR121. See Oleamide Struktoi TR 131. See Erucamide Struktoi TR 354. See Carbon black Struktoi ZEH. See Zinc 2-ethylhexanoate Struktoi Zinc Stearate. See Zinc stearate Struktoi ZP1014. See Zinc peroxide Struvite. See Magnesium ammonium phosphate, hexahydrate Strychnidin-10-one, 2,3-dimethoxy- Strychnine, 2,3-dimethoxy-. See Brucine STS. See Sodium toluenesulfonate Sorbitan tri stearate... [Pg.4225]

Zinc di-2-ethylhexoate. See Zinc 2-ethylhexanoate Zinc dihexyl dithiophosphate CAS 7282-28-2... [Pg.4749]

Zinc ethene-1,2-bisdithiocarbamate. See Zineb Zinc ethide Zinc ethyl. See Diethyl zinc Zinc ethylenebis (dithiocarbamate). See Zineb Zinc 2-ethylhexanoate CAS 136-53-8... [Pg.4751]

Behenic acid Dicatechol borate, di-o-tolyl guanidine salt Zinc 2-ethylhexanoate activator, phosphate solutions Zinc oxide activator, phosphor Erbium oxide Terbium activator, plastics Triallyl trimellitate activator, potting... [Pg.4790]

Turpentine Urea-formaldehyde resin Wheat (Triticum vulgare) starch 3-(2-Xenolyl)-1,2-epoxypropane Xylene Zein Zinc acetate Zinc ammonium chloride Zinc dibenzyl dithiocarbamate Zinc dibutyidithiocarbamate Zinc diethyidithiocarbamate Zinc 2-ethylhexanoate Zinc formaldehyde sulfoxylate Zinc laurate Zinc nitrate Zinc phosphate Zinc rosinate Zinc sulfide Zineb... [Pg.4800]

Perchloric acid Phosphomolybdic acid Phosphorus oxychloride Phosphorus pentachloride Phosphorus trichloride y-Picoline Polyphosphoric acid Potassium silicate Rhodium Selenium Selenium dioxide Silica gel Silver oxide (ous) Sodium borohydride Sodium silicate Strontium carbonate Sulfur dioxide Tantalum Tellurium Tetraisopropyl di (dioctylphosphito) titanate Titanocene dichloride Trichloromethylphosphonic acid Tristriphenylphosphine rhodium carbonyl hydride Tungsten carbide Vermiculite Ytterbium oxide Zinc chloride Zinc dust Zinc 2-ethylhexanoate Zirconium potassium hexafluoride... [Pg.4937]

Magnesium hcinoleate Magnesium stearate Manganese caprylate Manganese linoleate Manganese naphthenate Manganese oleate Manganese tallate Zinc 2-ethylhexanoate Zinc naphthenate Zinc neodecanoate... [Pg.5130]

Octoate Z Solid Polyplastol 23 Stabiol ZN 1500 Struktol ZEH Zinc 2-ethylhexanoate 136-60-7 Benciol B BUB... [Pg.6120]

Barium tallate overbase, 30 Barium bis(nonylphenate), 20 Zinc 2-ethylhexanoate, 15 Diphenyl decylphosphite, 30 Dibenzoylmethane, 5 Barium stearate, 25 Cadmium laurate, 50 Bisphenol A, 5 Pentaerythritol, 20 Zinc stearate, 15 Calcium stearate, 15 Tris(nonylphenyl) phosphite, 30 Epoxidized soya oil, 40... [Pg.3661]

Natural rubber invariably contains fatty acids which have an activating effect in accelerated sulphur vulcanisation systems. This type of activator is absent in synthetic polyisoprenes and must be added in sufficient quantity (1 -5-2 0 phr) to ensure full crosslink development. Alternative activators of a similar chemical nature, such as zinc stearate or zinc 2-ethylhexanoate, have been used at lower levels (see Section 7). [Pg.248]

Duda et al. [41] have investigated the kinetics of ROP of lactones of different ring sizes by using a nonenzymatic (zinc-2-ethylhexanoate/butyl alcohol) system at 100 °C, and compared the results to those with enzymatic methods. The decreasing order of rates for nonenzymatic methods showed a reverse trend to that of enzymatic polymerization. The 17-membered lactone was most reactive towards enzymatic polymerization, a fact attributed to thermodynamic factors in chemical polymerization, while the hydrophobicity of the large-ring lactones was seen as the major contributory factor for enzymatic polymerization. The introduction of an a-methyl substituent reduced the polymerizability of 13- and 16-membered lactones, and a reduction in monomer conversion as well as M was observed [59]. [Pg.295]


See other pages where Zinc 2-ethylhexanoate is mentioned: [Pg.1086]    [Pg.550]    [Pg.678]    [Pg.696]    [Pg.730]    [Pg.1423]    [Pg.1424]    [Pg.1424]    [Pg.1465]    [Pg.61]    [Pg.2895]    [Pg.5130]    [Pg.5376]    [Pg.5731]    [Pg.43]    [Pg.245]    [Pg.107]    [Pg.221]    [Pg.762]    [Pg.58]    [Pg.107]    [Pg.256]    [Pg.24]    [Pg.292]   
See also in sourсe #XX -- [ Pg.762 ]




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Ethylhexanoate

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