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Greases preparation

Typical of the sort of data needed to determine whether additives affect the interface is that provided by a study of the influence of n-heptyl compounds on the gel structure of dispersions containing polar solids in nonpolar vehicles (70). The influence of the polar heptyl compounds on the fluidity of dispersions of rutile and a fine silica (HiSil) in a dibasic ester, Plexol 201, is shown in Fig. 7. Apparently, the more polar rutile adsorbs all except the chloride and in these cases thinning results. HiSil has a lower F value and adsorbs only the amine and alcohol preferentially. Greases prepared from the least polar solid, Aerosil, are also least influenced by these additives (or even by more complex ones). Measurements of the solution isotherms for HiSil and Aerosil reveal significant adsorption of heptyl alcohol, but no detectable chloride adsorption in the same concentration range. [Pg.292]

To Grease or Not to Grease Preparation of the Joints Into the Grease Pit... [Pg.375]

GREASE, SODA BASED - A grease prepared from lubricating oil and sodium soap. [Pg.80]

Another impetus to expansion of this field was the advent of World War 11 and the development of the atomic bomb. The desired isotope of uranium, in the form of UF was prepared by a gaseous diffusion separation process of the mixed isotopes (see Fluorine). UF is extremely reactive and required contact with inert organic materials as process seals and greases. The wartime Manhattan Project successfully developed a family of stable materials for UF service. These early materials later evolved into the current fluorochemical and fluoropolymer materials industry. A detailed description of the fluorine research performed on the Manhattan Project has been pubUshed (2). [Pg.266]

The lower molecular weight oils, waxes, and greases of PCTFE can be prepared direcdy by telomerization of the monomer or by pyrolysis of the higher molecular weight polymer (45—54). [Pg.394]

Lithium hydroxide can be used for preparation of numerous lithium salts. The dominant use is the preparation of lithium stearate [4485-12-5], which is added to lubricating greases in amounts up to about 10% by weight. This salt has very low water solubiHty and extends the acceptable viscosity for the grease to both low and high temperatures (see Lubrication and lubricants). Lithium hydroxide is also used in production of dyes (62) and has been proposed as a source of lithium ion for inhibition of alkaH-aggregate expansive reactivity in concrete (63). [Pg.226]

Sulfosahcyhc acid is prepared by heating 10 parts of sahcyhc acid with 50 parts of concentrated sulfuric acid, by chlorosulfonation of sahcyhc acid and subsequent hydrolysis of the acid chloride, or by sulfonation with hquid sulfur trioxide in tetrachloroethylene. It is used as an intermediate in the production of dyestuffs, grease additives, catalysts, and surfactants. It is also useful as a colorimetric reagent for ferric iron and as a reagent for albumin. Table 9 shows the physical properties of sahcyhc acid derivatives. [Pg.290]

Lanolin alcohols are obtained by saponification of purified wool grease, a mixture of high molecular esters that is recovered in wool (qv) scouring. Ethoxylation of purified lanolin alcohols yields a full series of lipophilic and hydrophilic nonionic emulsifiers whose largest use is in cosmetic preparations. Manufacturers include Amerchol, Croda, ICI, Henkel Corporation, Westbrook Lanolin, Witco, and Pulcra, SA. [Pg.252]

Pa.ints, Paints (qv) prepared from poly(vinyl acetate) and its copolymers form flexible, durable films with good adhesion to clean surfaces, including wood, plaster, concrete, stone, brick, cinder blocks, asbestos board, asphalt, tar paper, wahboards, aluminum, and galvani2ed iron (147). Adherence is also good on painted surfaces if the surfaces are free from dirt, grease, and mst. Developments in emulsion polymeri2ation for paint latices have been reviewed (148). [Pg.470]

Salts of Organic Acids. Calcium salts of organic acids may be prepared by reaction of the carbonate hydroxide and the organic acid (9). Calcium lactate [814-80-2] is an iatermediate ia the purification of lactic acid from fermentation of molasses. Calcium soaps, soaps of fatty acids, ate soluble ia hydrocarbons, and are useful as waterproofing agents and constituents of greases (9). [Pg.408]

Hydrogenation. Hydrogenation of castor oil must be carried out at relatively low temperature and pressures to preserve the hydroxy group, functional in the preparation of 12-hydroxystearic acid [106-14-9], C gH O, used for the manufacture of automotive and multipurpose greases (see... [Pg.154]

Surface preparation may be required to remove oxides, moisture, grease, etc. Prior to welding they are removed by mechanical, pickl or degreasing processes, the application of which canbe an addedsouree of variability. [Pg.349]

These are generally reserved for specialist applications, and are in the main more costly than conventional soap-based greases. The most common substances used as nonsoap thickeners are silica and clays prepared in such a way that they form gels with mineral and synthetic oils. Other materials that have been used are carbon black, metal oxides and various organic compounds. [Pg.879]

See other pages where Greases preparation is mentioned: [Pg.149]    [Pg.269]    [Pg.9]    [Pg.294]    [Pg.149]    [Pg.311]    [Pg.318]    [Pg.149]    [Pg.269]    [Pg.9]    [Pg.294]    [Pg.149]    [Pg.311]    [Pg.318]    [Pg.179]    [Pg.191]    [Pg.359]    [Pg.280]    [Pg.479]    [Pg.897]    [Pg.172]    [Pg.533]    [Pg.208]    [Pg.139]    [Pg.545]    [Pg.10]    [Pg.143]    [Pg.242]    [Pg.246]    [Pg.335]    [Pg.354]    [Pg.84]    [Pg.324]    [Pg.353]    [Pg.401]    [Pg.47]    [Pg.359]    [Pg.362]    [Pg.232]    [Pg.948]    [Pg.949]    [Pg.70]    [Pg.1018]    [Pg.1316]   


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