Plasticizers stearic acid

PVC resin BaZn stabihzer Calcium carbonate EVA polymer DOP plasticizer Stearic acid lubricant Titanium dioxide Pigment... 

Lead Dioxide Plasticizers Stearic Acid Total... 

Other constituents may be added to assist in the formation of uniform beads or to influence the use properties of the polymers through plasticization or cross-linking. These include lubricants, such as lauryl or cetyl alcohol and stearic acid, and cross-linking monomers such as di- or trivinylbenzene, diaHyl esters of dibasic acids, and glycol dimethacrylates. 

Both RDX and HMX are substantially desensitized by mixing with TNT to form cyclotols (RDX) and octols (HMX) or by coating with waxes, synthetic polymers, and elastomeric biaders. Most of the RDX made ia the United States is converted to Composition B (60% RDX, 40% TNT, 1 part wax added). Composition A5 (RDX 98.5/stearic acid 1.5) and composition C4 (RDX91/nonexplosive plasticizer) account for the next largest uses. HMX is used as a propellant and ia maximum-performance plastic bonded explosives such as PBX 9401 and PBX N5 and the octols (147—150). 

Examples of plasticizers include adsorbed water and ethylene glycol for vinyl binders, stearic acid and oleic acid for wax binders, glycerine and ethylene glycol for clay bodies, and molten oils and waxes for thermoplastic polymers used in injection mol ding. 

Individual particle surfaces can be lubricated by an adsorbed film that produces a smoother surface and/or decreases interparticle attraction. A plasticized binder may serve this purpose. Forming surfaces can be lubricated by coating with a film of low viscosity Hquid such as water or oil. Die surfaces can also be coated with a solution of stearic acid dissolved in a volatile Hquid that rapidly evaporates to leave a lubricating film. 

Nandanan et al. [35] reported the utilization of linseed oil as an MFA in nitrile rubber vulcanizates. Linseed oil not only acted as a plasticizer but also as the fatty acid component of the activator in the NBR vulcanizates. Use of linseed oil gave appreciable increase in properties like tensile strength, tear resistance, etc. while the viscosity of the compound was marginally lower than that of the control compound (which used di-octyl phthalate as the plasticizer). The vulcanizates containing linseed oil also exhibited increased cure rate as well as reduced leachability compared to the control at a dosage of 2-5 phr. This loading was seen to replace 6 phr DOP and 2 phr stearic acid in conventional NBR vulcanizates thereby reducing compound costs. 

Dampproofing admixtures are formulated to affect the properties of the hardened concrete, and not those of concrete in its plastic state. In the case of materials based solely on calcium and aluminum stearates, stearic acid in solid or emulsion form, bitumens and hydrocarbon resins, there will be no effect on the properties of the plastic concrete with regard to air content, workability, mix design parameters, etc. When water-reducing admixtures or accelerators are included in the formulation, the effect on the concrete will be a function of the particular type of material used (see relevant section). The wax emulsions do appear to have an effect on the properties of the plastic concrete because of the lubrication effect of the very small... 

PVC Formulation and Processing. The following PVC formulation was used throughout this work B. F. Goodrich Co., Geon 101 EP, 100 parts Argus Chemical Co., Mark M, 2.0 parts/lOO parts of resin (p.h.r.) stearic acid, 0.5 p.h.r. total plasticizer. 50 p.h.r. 

ABHERENT. Any substance that prevents adhesion of a material to itself or to another material. It may be in the form of a dry powder (a silicate such as talc, mica, or diatomaceous earth) a suspension (bentonite-water) a solution (soap-water) or a soft solid (stearic acid, tallow waxes). Abherents are used as dusting agents and mold washes in the adhesives, rubber, and plastics industries. Fats and oils are used as abherents in the baking industry. Fluorocarbon resin coatings on metals are widely used on cooking utensils. 

Palmitic add finds use in the production of cosmetics, food emulsifiers, pharmaceuticals, plastics, and soaps. One commercial formulation contains 95% palmitic add, 4% stearic acid, and 1% myristic acid another preparation contains 50% palmitic acid and 50% stearic acid. 

In tabletting, the powder is firmly compressed in a die to be shaped into small cylinders, rings and even beads. In most cases some plasticizing agents are added to the powder (talc, graphite, stearic acid, etc.). One may also use porosity additives (powder of an easily decomposed compound, polymer fibres, etc.). Tabletting is one of the few forming operations which has been studied systematically. 

Fillers have been studied for their effect on the rheological properties of aminoplasts. Investigations of the rheological properties of aminoplasts filled with cellulose diacetate (CDA) wastes and into the effect of minor quantities of plasticizers on the viscosity of compositions have been carried out [12]. With a CDA content increase from 40 to 60% the viscosity of the composition declines. With the introduction into the aminoplasts of a lubricant (stearic acid) containing 50% CDA the viscosity of the compositions also declines. The same is observed when introducing 1-2% of plasticizer (unsaturated PEF). 

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