United States Patent Office

United States Patent Office

United States Patentaw Office ... ber of ether groupings on each molecule. These mix tures, however, if they analyze as containing an average 2,978,421. number of ether groups per molecule greater than one, NITRILE COPOLYMERS AND METHOD OF are capable of producing the insoluble nitrile polymers PREPARING SAME of this invention. Since the efficiency of the polyether cross-linking agent increases with the number of poten John A. Holloway, Cleveland, Ohio, assignor to The tially polymerizable groups on the molecule, it is much B. F. Goodrich Company, New York, N.Y., a corpo preferred to utilize polyethers containing an average of ration of New York - two or more alkenyl ether groupings per molecule. The No Drawing. Filed June 9, 1958, Ser. No. 740,566. 10 polyvinyl polyethers of the polyhydric alcohols within the above broad class are produced by reacting acetylene 9 Claims. (C. 260-17.4) with the polyhydric alcohol (or an alcoholate thereof) in a Reppe-type vinylation synthesis. The polycrotyl ethers of the polyhydric alcohols are also useful although they This invention relates to cross-linked alpha-beta ole 15 do not contain a terminal CHCC group. - finically unsaturated nitrile polymers and more particu Illustrative polyhydric alcohols of the above-described larly pertains to copolymers of alpha-beta olefinically class that may be utilized in the preparation of the poly. unsaturated nitriles and polyalkenyl polyethers of poly alkenyl polyether, cross-linking agent include the butane hydric alcohols and methods for their preparation. triols such as 1,2,3-butane triol, 2,3,4-trihydroxybutyric An object of this invention is the provision of insoluble, 20 acid, the aldotetroses such as erythrose and threose, keto cross-linked polynitriles which are capable of thickening tetroses such as erythrulose; the aldopentoses such as certain non-aqueous polar solvents. Another object is the arabinose, xylose, lyxose, and ribose, ketopentoses such - - provision of methods for preparing these novel cross as araboketose, and xyloketose; aldohexoses such as glu linked polynitriles. These and other objects of this inven cose, galactose, mannose, gulose, idose, talose, allose and tion will become more apparent in the following descrip 25 the like; ketohexoses such as fructose or levulose, sorbose tion and examples. and the like; other sugars including the mono-, di-, tri Copolymers of acrylonitrile and divinyl benzene have and polysaccarides such as sucrose, maltose, lactose and been discussed in the chemical literature (Faserfarsch. raffinose; reduced forms of the above and other sugars . U. Textiltech. 4, 454 (1953). In general the acrylonitrile and polysaccharides such as the so-called "sugar alcohols' divinyl benzene copolymers heretofore known are 30 erythritol, xylitol, mono-, di- and tripentaerythritol, arabi markedly inferior in thickening power in non-aqueous tol, mannitol, iditol, tolitol, sorbitol, inositol, dulcitol polar solvents when compared with the polymers of this and others; the oxidized derivatives of the sugars in which invention. the oxidation has not been carried to the point where the . We have discovered that copolymers of an alpha-beta monosaccharide carbon chain unit is broken such as the . olefinically unsaturated nitrile such as acrylonitrile or 35 mono- and dicarboxylic "sugar acids" including gluconic i. methacrylonitrile and certain polyalkenyl polyethers of acid, glucuronic acid, galactonic acid, galacturonic acids, polyhydric alcohols when copolymerized in the ratio of saccharic acid, mucic and pectic acids and other poly 99.95 to 95 parts of unsaturated nitrile, and from about hydric alcohols of the class described. 0.05 to about 5 parts of said polyalkenyl ether have A preferred class of polyhydric alcohols for use in the . unexpected, thickening power in certain non-aqueous 40 production of the polyalkenyl polyether monomer are polar solvents such as dimethyl formamide, dimethyl known as the monosaccharides and oligosaccharides, the acetamide, dimethyl sulfoxide, N-methyl pyrrolidone, latter are defined as containing from two to four mono gamma butyrolactone, tetrahydrofuran and the like and saccharide units. In addition to the oligosaccharides. others. themselves, their reduction products such as the alcohols, , , As used herein the term "alpha-beta olefinically unsat 45 keto-alcohols and aldo-alcohols and their oxidation prod urated nitrile” is defined to mean an alpha-beta olefin ucts which retain the original saccharide chain such as . ically unsaturated mononitrile having from 3 to 4 carbon the Sugar acids, the keto-acids, the aldo-acids and the like atoms and having a terminal CH-FCC group. can be used. Illustrative saccharides of this class are The polyalkenyl polyethers useful in the production of the monosaccharides, such as glucose, galactose, fructose, the polymers of this invention contain more than one 50 Sorbose, rhamnose, and the like; disaccharides such as . alkenyl ether per molecule and those most useful possess Sucrose, arabinose, maltose, lactose, and the like; tris alkenyl groups in which an olefinic double bond is present. saccharides such as raffinose and others. Of these the attached to a terminal methylene group thusly CHFCC. disaccharide, sucrose, is much preferred because of its They are made by the etherification of a polyhydric 55 ready availability and its ability to produce polyethers . alcohol containing at least 4 carbon atoms and at least 3 of great reactivity with nitrile monomers. - , ... hydroxyl groups. Compounds of this class are readily The polymers of this invention can be made in water . produced, for example, by a Williamson-type synthesis, emulsion, or suspension systems, in bulk or in solvent in which an alkenyl halide, or a mixture of suchhalides, systems with free radical initiators. The most preferred such as allyl chloride, allyl bromide, methallyl chloride, method for preparing the polymers embodied in this in methallyl bromide and others, is reacted with a strongly 60 vention is the aqueous emulsion system because of the alkaline aqueous solution of one or more of the poly high solids obtainable and the relative safety and cheap hydric alcohols. The product of such a synthesis usually ness of this type of system. The product can be isolated as is a complex mixture of polyethers containing varying a granular powder by coagulation, freeze-drying, drum numbers of ether groups on each molecule. Analysis of drying or spray drying techniques.......--- -, such materials, therefore, reveals only the average num Polymerization in an organic liquid which is a solvent 2,978,421. 4. 3 A small portion of the 3% dimethyl formamide gel which for the monomers but a non-solvent for the polymer, or was made from the acrylonitrile-0.1% allyl penta in a mixture of such solvents, in the presence of a solvent erythritol copolymer was spread on a vertical painted soluble catalyst can also be employed. The polymers wood surface and was allowed to stand for a few minutes. resulting from this polymerization technique are usually Subsequent water flushing of the surface removed the obtained as very fine, friable and often fluffy precipitates, gel and paint mixture nicely leaving the clean wood Sur which after solvent removal, seldom require grinding or face exposed. This same procedure was used successfully any other further treatment before use. Suitable solvents on painted metal and glass surfaces. The polymers of for the latter method include benzene, xylene, tetralin, this example were all excellent thickeners for other non hexane, heptane, carbon tetrachloride, methyl chloride, aqueous polar solvents such as gamma-butyrolactone, N ethyl chloride, bromotrichloromethane, and others, and 0. methyl pyrollidone, N,N-dimethyl acetamide and di mixturesPolymerization of these andmay other be carried solvents. out in the presence- of methyl sulfoxide. a free radical catalyst in a closed vessel in an inert at Example II mosphere and under autogenous pressure or artificially induced pressure or in an open vessel under reflux at at 5 The general procedure described in Example I was mospheric pressure. The temperature of the polymeriza used to prepare a series of acrylonitrile-hexaallyl sucrose tion may be varied from 0° C. or lower to 100° C. or (containing an average of about 5.8 allyl groups per Su higher, more preferably from 20 to 90° C., depending crose molecule), copolymers. Mucilages of all of these to a large degree on the molecular weight desired in the polymers were prepared in dimethylformamide and the polymer. Polymerization under reflux at 50 to 100° C. 20 viscosities were determined at the various cross-linking under atmospheric pressure using a free radical catalyst levels. is generally effective in bringing a polymer yield of 75 to Percent Wiscosity in 100% in less than 10 hours, usually in less than 5 hours. Allyl idimethyl Suitable free radical catalysts include peroxygen com Sucrose in Formamide pounds such as sodium, potassium and ammonium per 25 Polymer 3% Polymer sulfates, caprylyl peroxide, benzoyl peroxide, hydrogen Conc. peroxide, pel-argonyl peroxide, cumene hydroperoxides, 0. 2,700 tertiary butyl diperphthalate, tertiary butyl perbenzoate, 0.3 4,140 sodium peracetate, sodium percarbonate, and the like as 0.6 8,600 30 i, 2 6,720 well as azo-bis-diisobutyronitrile and the so-called "redox' type of catalyst, such as a mixture of potassium per sulfate and sodium bisulfite. The polymers of this example made excellent paint re The polymers of this invention are useful thickeners movers when added to dimethyl formamide, gamma for polar non-aqueous solvents. The thickened composi butyrolactone, N-methyl pyrrolidone, N,N-dimethyl acet tions thus formed are excellent gels, which are useful in 35 amide and dimethyl sulfoxide. Methacrylonitrile-allyl removing paint from wood, metal, ceramic and glass sur sucrose copolymers having the above-mentioned cross faces and they are particularly useful for removing paint linking levels were comparable with the acrylonitrile from vertical and overhead surfaces because of their vis allyl sucrose copolymers in their viscosity behavior in cous and adhesive nature. - - dimethyl formamide.

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