Patent Publication Number: US-4923940-A

Title: Polycarboxylic acids with higher thickening capacity and better clarity

Description:
This application is a divisional application of Ser. No. 157,685, filed Feb. 19, 1988. 
    
    
     Polymers of unsaturated carboxylic acids and salts thereof are well known. These polymers include homopolymers and copolymers which contain up to 10 weight percent of other copolymerizable monomers. Typical monomers include acrylic acid, methacrylic acid, maleic acid or its anhydride, itaconic acid, and the like. U.S. Pat. No. 2,798,053, for instance, discloses copolymers of acrylic acid with small amounts of polyalkenyl polyether crosslinkers which are gel-like and, especially in the form of their salts, can absorb large quantities of water or solvents with subsequent substantial increase in volume. U.S. Pat. Nos. 3,940,351 and 4,062,817 describe polymers of an unsaturated carboxylic acid and at least one acrylic or methacrylic ester wherein the alkyl groups contain 1 to 30 carbon atoms. Such polymers are also effective thickening agents, even in the presence of substantial amounts of inorganic salts. U.S. Pat. Nos. 3,915,921 and 4,066,583 disclose preparation of same or similar polymers in similar systems. 
     U.S. Pat. No. 4,267,103 discloses polymers of unsaturated carboxylic acids or salts thereof in various solvents wherein more than 1% by weight of the carboxyl groups are neutralized. Such polymers have molecular weight greater than 500 and up to several million, but generally, in the range of 10,000 to one million. Such polymers are also effective thickening agents. 
     U.S. patent application entitled, &#34;Polycarboxylic Acids With Small Amount of Residual Monomer&#34; bears Ser. No. 17,966 and was filed Feb. 24, 1987 now U.S. Pat. No. 4,758,641. That case discloses polymerization of a partially neutralized acrylic acid, or a like monomer, in the presence of acetone or a lower alkyl acetate reaction medium and in the presence of initiator selected from lauroyl peroxide and peroxydicarbonates whereby a polymer is obtained with a low level of unreacted monomer. 
     SUMMARY OF THE INVENTION 
     Polymers of a monounsaturated carboxylic acid of 3 to 5 carbon atoms, or its water-soluble salt, are prepared by polymerizing one or more of such monomers with up to about 15% of one or more of other copolymerizable monomers in the presence of a reaction medium that is a mixture of an organic solvent with a hydrocarbon solvent, also in the Presence of an effective amount of a crosslinker and an initiator. Such polymers have a higher thickening property and better clarity, when measured in water when compared to polymers prepared in individual solvents alone. Such polymers can have a low level of unreacted monomers of less than 0.2%, in a preferred embodiment. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The polymers prepared in a mixed reaction medium have higher viscosities, in presence of or absence of salt, when viscosity of a mucilage is measured, which is important in thickening applications where higher viscosity is translated into a higher thickening capacity. Such polymers prepared in a mixed reaction medium also have better clarity, which is especially essential in preparation of clear products such as hair gels, certain shampoos, and cosmetic products. The low level of unreacted monomers in the polymers prepared in the presence of a mixed reaction medium is also important especially in applications such as cosmetics and pharmaceuticals, where toxicity of ingredients is closely monitored and only ingredients which meet stringent requirements are used. Viscosity of the 0.2% mucilage in absence of salt, prepared in a mixed solvent is greater than 15,000 cps, preferably in excess of 20,000 cps. The 0.2% mucilage is prepared by adding 0.2% of the polymer described herein in water and measuring viscosity thereof after the polymer dissolves or disperses in the water and pH adjusted to 7 to 8 with 18% sodium hydroxide solution. In the presence of 1% sodium chloride salt, the 1% mucilage viscosity is greater than 5,000 cps, preferably greater than 8,000 cps. Gel clarity is measured as the percent transmission of light at 420 mm using a Brinkman colorimeter and should be better than 80%, preferably better than 85% transmittance. Viscosity referred to herein is Brookfield viscosity measured with an RVT model at 20 rpm at room temperature. 
     The polymers of this invention include homopolymers and copolymers. At least 85%, preferably at least 90% of the monomers are selected from the principal monomers selected from monounsaturated monocarboxylic and dicarboxylic acids and salts thereof. The secondary monomers or comonomers comprise up to 15% by weight, preferably up to 10%, such as 1 to 10% of the monomer mix. Molecular weight of such polymers is greater than about 100,000 and up to several million, preferably about one-half million to about three million weight average molecular weight. 
     The principal monomers are selected from olefinically unsaturated monocarboxylic and dicarboxylic acids and salts thereof containing 3 to 5 carbon atoms, preferably monocarboxylic acids, salts and anhydrides thereof. Suitable monomers in this class include acrylic acid, methacrylic acid, ethacrylic acid, alpha-chloroacrylic acid, alpha-cyano acrylic acid, itaconic acid, maleic acid and maleic anhydride. In this class of monomers, acrylic acid, methacrylic acid, maleic acid, and maleic anhydride are preferred because of generally lower cost, ready availability, and ability to form superior polymers. Acrylic acid is most preferred in this class of monomers. 
     The secondary monomers or comonomers are selected from monomers which contain at least one terminal CH 2  ═C&lt; or vinylidene group. Such comonomers include acrylic esters which are represented by the formula ##STR1## wherein R is an alkyl group containing 1 to 30 carbon atoms. This group of comonomers includes the acrylic acid esters with aliphatic groups wherein R contains 1 to 30, preferably 10 to 20 carbon atoms. In these comonomers, R&#39; is hydrogen or a lower alkyl, preferably hydrogen or methyl group. Examples of the aliphatic acrylic esters include decycl acrylate, isodecyl acrylate, lauroyl acrylate, stearyl acrylate, behenyl acrylate, melissyl acrylate, methyl acrylate, ethyl acrylate, propyl acrylate, isopropyl acrylate, n-butyl acrylate, isobutyl acrylate, n-hexyl acrylate, heptyl acrylate, octyl acrylate, ethyhexyl acrylate, and the corresponding methacrylates. 
     Other suitable monomers can also be used as secondary comonomers. These include acrylamidosulfonic acids; acrylic nitriles such as acrylonitrile; acrylic amides such as acrylamide; N-alkylol amides such as N-methylol acrylamide; alpha olefins of 2 to 12 carbon atoms such as ethylene and propylene; dienes such as butadiene and piperylene; ethylidene norbornene and dicyclopentadiene; vinyl esters such as vinyl acetate and vinyl benzoate; vinyl aromatics such as styrene; vinyl and allyl ethers and ketones such as vinyl methyl ether and vinyl ketone; vinyl nitriles; cycloalkyl acrylates; vinyl halides and vinylidene halides such as vinyl chloride and vinylidene chloride; and other comonomers described in cols. 4 and 5 of U.S. Pat. No. 4,267,103. 
     The polymers may be crosslinked with any polyfunctional vinylidene monomer containing at least two terminal CH2═C&lt; groups, including for example, butadiene, isoprene, divinyl benzene, divinyl naphthalene, allyl acrylates and the like. A particularly useful crosslinking monomer for use in preparing the copolymers, if one is employed, is a polyalkenyl polyether having more than one alkenyl ether grouping per molecule. The most useful of these possess alkenyl groups in which an olefinic double bond is present attached to a terminal methylene grouping, CH 2  ═C&lt;. Efficiency of the polyether crosslinking agent increases with the number of potentially polymerizable groups on the molecule. It is preferred to utilize polyethers containing an average of two or more alkenyl ether groupings per molecule. Typical crosslinking agents are allyl pentaerythritol, allyl sucrose, allyl acrylate, allyl methacrylate, trimethylolpropane diallyl ether, diallyl ethers of polyether diols with molecular weight of 50 to 1000, 1,6-hexanediol diacrylate, trimethylolpropane triacrylate, pentaerythritol triacrylate, tetramethylene diacrylate, ethylene diacrylate, triethylene glycol dimethacrylate, and the like. Crosslinking of the polymers provides improved ability for the copolymers to swell. 
     The polymeric mixtures described herein contain up to about 5% by weight of a crosslinking monomer, based on the total weight of the monomer charge plus other monomers, if present, and more preferably, 0.1 to 2.0% by weight. To obtain good clarity, it is recommended that allyl pentaerythritol crosslinker be used at a level of 0.1 to 1.4%, preferably 0.2 to 1.2%; allyl acrylate be used at a level of 0.1 to 0.8%, preferably 0.2 to 0.7%; allyl sucrose be used at a level of 0.1 to 1.4%, preferably 0.2 to 1.0%, and trimethylol propane diallylether be used at a level of 0.4 to 2.5%, preferably 0.6 to 2.0%. Good clarity herein is defined as clarity exceeding 80%, preferably exceeding 85% transmittance. 
     The reaction media for solvents which are suitable herein are preferably liquid at room temperature of 22° C., or at least one is a liquid so that it can solubilize the other. The reaction media are mixtures of one or more organic solvents with one or more hydrocarbons. The organic solvents contemplated herein include ketones, esters, ethers, and saturated alcohols. The esters are especially selected from lower alkyl acetates containing 1 to 6, preferably 2 to 4, carbon atoms in the alkyl group. 
     Specific examples of suitable organic reaction solvents include ethyl acetate, butyl acetate, methyl acetate, isopropyl acetate, propyl acetate, methyl ethyl ketone, butyl propionate, cyclohexanone, and other non-halogenated organic solvents. Particularly suitable herein are ketones of 3 to 6 carbons, and esters of 2 to 4 carbons, and saturated alcohols of 1 to 12 carbons which have a solubility parameter in the range of about 8 to 15, especially 9 to 11. U.S. Pat. No. 4,267,103 discloses some of the organic solvents suitable herein at bottom of col. 6 and col. 7. This patent is incorporated herein by reference. 
     The hydrocarbon solvents which are mixed with the organic solvents in the preparation of a mixed reaction medium include straight-chain, branched-chain, and cyclic aliphatics which contain 4 to 12, preferably 5 to 9, carbon atoms. Specific examples of hydrocarbon solvents suitable herein include alkanes, cycloalkanes, and aromatics, such as pentanes, hexanes, heptanes, octanes, cyclohexane, cycloheptane, and non-benzene aromatic solvents such as toluene, xylene, and other non-halogenated hydrocarbon solvents. Benzene is excluded. 
     The organic solvents and hydrocarbon solvents can be premixed and the mixed reaction medium can be used in the polymerization reaction. The organic solvents and the hydrocarbon solvents can also be added separately to a reaction mixture and polymerization reaction can be carried out thereafter. Whether the components of the reaction medium are premixed or are added separately to a reaction mixture is immaterial as long as the polymerization reaction is carried out in the presence of at least one organic solvent and at least one hydrocarbon solvent. The relative weight ratio of at least one organic solvent to at least one hydrocarbon solvent can be in the range of 95/5 to 1/99, Preferably 80/20 to 5/95, and especially 2:1 to 1:2. The amount of reaction medium or mixed solvent will normally be in excess of the monomer or monomers to be polymerized and the proportion may vary from at least 1% by weight of monomer(s) and 99% reaction medium to 50% monomer(s) and 50% reaction medium. The concentration of the monomer(s) is normally 10 to 25% by weight in the reaction medium. 
     Amount of water in the reaction medium should be as low as possible since if water is allowed to exceed about 3% in the reaction medium, the reaction mass becomes a solid, rubbery mass, which is undesirable. Preferable water content in the solvent mixtures is 0.5% or less and particularly, less than 0.1%. 
     Polymerization of the monomer in the reaction medium is usually carried out in the presence of a free radical initiator in a closed vessel in an inert atmosphere and under autogenous pressure or artificially-induced pressure, or in an open vessel under reflux at atmospheric pressure under an inert blanket. Temperature of the polymerization may be varied between 0° and 100° C., preferably about 40° to 85° C., and more preferably 45° to 60° C. or 70° to 80° C., depending on the type of initiator selected. Suitable free radical initiators are those which will convert essentially all of the monomer to polymer at the reaction temperature. Examples of such free radical initiators include di (2-ethylhexyl) peroxydicarbonate, di(sec-butyl) peroxydicarbonate, di(isopropyl) peroxydicarbonate, di(cyclohexyl) peroxydicarbonate, di(cetyl) peroxydicarbonate, di(n-propyl) peroxydicarbonate, lauroyl peroxide, and other like peroxides and peroxydicarbonates. The di(2-ethylhexyl) peroxydicarbonate is especially effective at a reaction temperature of 45° to 60° C. whereas lauroyl peroxide is especially effective at a reaction temperature of 70° to 80° C. Amount of the initiator is generally less than 2%, preferably 0.1 to 1%, by weight based on the weight of the monomer charge. 
     This process can be carried out and the desired properties attained without partial neutralization of the carboxyl monomer, however, the invention herein can be carried out with partial acid neutralization. Partial neutralization herein means neutralization up to 10% of the carboxylic acid groups in the carboxyl monomer neutralized. 
     The invention is further demonstrated by the following examples which show the higher thickening property and improved clarity obtained by the polymers prepared in a mixed reaction medium containing at least one organic solvent and at least one hydrocarbon solvent. Most of the organic solvents and the hydrocarbon solvents have been used in the past as reaction media for polymerizing acrylic acid polymers but not in combination with each other which produces unexpected results. 
     EXAMPLE 1 
     This example demonstrates the improved viscosity obtained when a mixed solvent is used as compared to a single solvent. 
     Acrylic acid was polymerized in a 2-liter jacketed glass reactor equipped with a reflux condenser and a circulation water bath for temperature control. The reaction mixture contained 1320 grams of a reaction medium, 180 grams of acrylic acid, 5.18 grams of anhydrous potassium carbonate, and 2.16 grams of allyl pentaerythritol crosslinker. Mixed reaction media were used although for comparative purposes, single reaction media were used in certain runs. The 5.18 grams of anhydrous potassium carbonate was effective in neutralizing 3% of the carboxyl groups on the acrylic acid to a potassium salt. 
     The reactor was then sparged with nitrogen for 30 minutes and 0.9 gram of di(2-ethylhexyl) peroxydicarbonate initiator dissolved in the reaction medium was added over a period of the reaction time. The contents of the reactor were heated to 50° C. and the polymerization reaction was continued for six hours. The product was then dried overnight in a ROTO-VAP drier at 95°-105° C. and 27 inches of mercury. Viscosity of the resulting dried polymer was then evaluated by measuring viscosity of the 0.2% and 0.5% mucilages in water at pH of 7.3 to 7.8. The pH adjustment was done with 18% sodium hydroxide solution. The 0.2% mucilage contained 0.2% polyacrylic acid product in water whereas the 0.5% mucilage contained 0.5% of the polyacrylic acid product. The viscosity was determined with an RVT model Brookfield viscometer rotated at 20 rpm. Viscosity results for the various runs employing ethyl acetate or cyclohexane as reaction media, or mixtures of the two, is given in Table I, below, where amounts are given in grams, unless otherwise indicated: 
     
                       TABLE I                                                     
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Run      Cyclo-   Ethyl      Acrylic                                      
                                    Cross-                                
No.      hexane   Acetate    Acid   linker                                
______________________________________                                    
1        66       1254       180    1.80                                  
2        396      924        180    1.80                                  
3        528      792        180    1.80                                  
4        607.2    712.8      180    1.80                                  
5        792      528        180    1.80                                  
6        1056     264        180    1.80                                  
7        1254     66         180    1.80                                  
8        0        1320       180    2.16                                  
9        1320     0          180    1.80                                  
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Run                 Mucilage Viscosity, cps                               
No.  Initiator      0.2%      0.5%                                        
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1    0.90            7,300    53,500                                      
2    0.90           17,700    44,100                                      
3    0.90           19,900    49,700                                      
4    0.90           27,400    52,500                                      
5    0.90           24,300    52,000                                      
6    0.90           24,200    46,500                                      
7    0.90           16,400    33,300                                      
8    0.90           8,900     46,000                                      
9    0.90           10,100    24,200                                      
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     It should be apparent from the above results that mixed solvents yield polymers that, in the form of mucilages, have substantially higher viscosities than for polymers prepared in a single solvent. 
     EXAMPLE 2 
     This example demonstrates the use of n-hexane and ethyl acetate as mixed solvents in the polymerization of acrylic acid homopolymer. 
     A series of polymerizations were conducted in mixed reaction media of n-hexane and ethyl acetate pursuant to the procedure set forth in Ex. 1 using allyl pentaerythritol crosslinker and di(2-ethylhexyl) peroxydicarbonate initiator. Recipes and viscosity results are given in Table II, below, where amount are given in grams, unless otherwise indicated: 
     
                       TABLE II                                                    
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Run      n-       Ethyl      Acrylic                                      
                                    Cross-                                
No.      hexane   Acetate    Acid   linker                                
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1        1335     0          165    1.65                                  
2        1068     267        165    1.65                                  
3        801      534        165    1.65                                  
4        667.5    667.5      165    1.65                                  
5        534      801        165    1.65                                  
6        267      1068       165    1.65                                  
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Run                 Mucilage Viscosity, cps                               
No.  Initiator      0.2%      0.5%                                        
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1    0.825          4,000     18,500                                      
2    0.825          22,500    66,000                                      
3    0.825          17,500    54,000                                      
4    0.825          27,000    65,000                                      
5    0.825          22,000    50,000                                      
6    0.825          16,300    49,000                                      
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     EXAMPLE 3 
     This example demonstrates the use of mixed solvents in the polymerization of acrylic acid polymer and mucilage viscosities and clarity of the resulting acrylic polymer. 
     Acrylic acid was polymerized at 50° C. pursuant to the procedure in Ex. 1 in a mixed reaction medium containing 720.9 grams of ethyl acetate and 614.1 grams of cyclohexane, and in the presence of 1.155 grams of allyl acrylate crosslinker and 0.825 gram of di(2-ethylhexyl) peroxydicarbonate initiator. The other parameters were the same as in Ex. 1. The 0.2% and 0.5% mucilages prepared in water with the resulting polyacrylic acid had respective viscosities of 27,500 cps and 49,000 cps and respective clarity of 93.9% and 90.1%. 
     EXAMPLE 4 
     This example demonstrates the use of mixed solvents at different polymerization temperatures. 
     A series of polymerizations were conducted at 45° C., 55° C., and pursuant to the procedure of Ex. 1. A fixed recipe was employed with a mixed reaction medium containing 720.9 grams of ethyl acetate and 614.1 grams of cyclohexane, 1.98 grams of allyl pentaerythritol crosslinker and 0.495 grams of di(2-ethylhexyl) peroxydicarbonate initiator. The resulting polymers had the mucilage viscosities in cps and clarity, given in the following table: 
     
                       TABLE IV                                                    
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Reaction    Mucilage Viscosity and Clarity                                
Temp. °C.                                                          
            0.2%    Clarity   0.5%  Clarity                               
______________________________________                                    
45          26,500  82.0%     81,000                                      
                                    84.0%                                 
55          24,300  92.3%     56,000                                      
                                    93.6%                                 
60          18,800  90.2%     51,500                                      
                                    91.6%                                 
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     EXAMPLE 5 
     This example demonstrates the use of mixed solvents at different degrees of neutralization of the acrylic acid polymers. 
     A series of polymerizations were run pursuant to the procedure set forth in Ex. 1 but varying degree of neutralization of acrylic acid. The variables were the same as in Ex. 1. Amounts of anhydrous potassium carbonate in runs #1, #2, and #3 were 0.86 grams, 2.59 grams, and 5.18 grams, respectively. Results of mucilage viscosities in cps are given in Table V below along with residual acrylic acid (AA) monomer in parts per million (ppm) : 
     
                       TABLE V                                                     
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       % Acrylic Acid                                                     
                   Mucilage  Viscosity                                    
                                     Residual                             
Run No.                                                                   
       Neutralized 0.2%      0.5%    AA                                   
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1      0.5         23,700    45,700  939                                  
2      1.5         22,700    35,600  790                                  
3      3.0         18,000    24,200  235                                  
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     EXAMPLE 6 
     This example demonstrates the use of allyl acrylate, allyl sucrose, allyl methacrylate, and trimethylolpropane diallylether as crosslinking monomers. 
     Polymerization procedure of Ex. 1 was followed here using 165 grams acrylic acid, a mixed solvent of 720.9 grams of ethyl acetate and 614.1 grams of cyclohexane, 0.825 gram di(2-ethylhexyl) peroxydicarbonate (EHP) initiator, with a reaction time of 6 hours and polymerization temperature of 50° C. The contraction &#34;phm&#34; represents weight parts per 100 parts of acrylic acid in the recipe. Results of viscosity and clarity given in parentheses are set forth in Table VI, below: 
     
                       TABLE VI                                                    
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Crosslinker Type &amp; Clarity                                                
        Allyl     Allyl     Allyl                                         
Mucilage                                                                  
        Sucrose   Acrylate  Methacrylate                                  
                                     TMPDAE*                              
Visc., cps.                                                               
        1.0 phm   0.6 phm   0.79 phm 1.50 phm                             
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0.2%    16,500    21,000     9,350   12,700                               
        (83)      (95.3)    (62.1)   (90.1)                               
0.5%    54,000    36,700    64,000   23,000                               
        (82.5)    (95.5)    (57.5)   (95.6)                               
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 *TMPDAE is trimethylol propane diallylether.                             
 
    
     For the 0.2% mucilage, viscosity for the poly(acrylic acid) using 1.0 phm of allyl sucrose was 16,500 cps, for 0.6 phm allyl acrylate it was 21,000 cps, for 0.79 phm of allyl methacrylate it was 9,350 cps, and for 1.50 phm of trimethylolpropane diallylether it was 12,700 cps. For the 0.5% mucilages, the viscosities were much higher, as expected. 
     EXAMPLE 7 
     This example demonstrates the use of stearyl methacrylate as comonomer in polymerizing acrylic acid copolymer and thickening capacity of the resulting copolymer in the presence of salt. 
     Following procedure set forth in Ex. 1, 160.05 grams (97% by weight) of acrylic acid was polymerized with 4.95 grams (3% by weight) stearyl methacrylate in a mixed solvent of 720.9 grams of ethyl acetate and 614.1 grams of cyclohexane. Also used were 0.5775 gram of allyl acrylate crosslinker and 0.495 gram of di(2-ethylhexyl) peroxydicarbonate initiator. Polymerization temperature was 50° C. and reaction time was 6 hours. The resulting viscosities in the presence of the indicated amounts of sodium chloride are given in Table VII, below: 
     
                       TABLE VII                                                   
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Amount of     Viscosity of                                                
                         Viscosity of                                     
NaCl          1% Mucilage                                                 
                         2% Mucilage                                      
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  0%          25,000 cps 35,000 cps                                       
1.0%          10,500 cps 32,000 cps                                       
3.0%           1,900 cps 16,000 cps                                       
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     With 0% of sodium chloride in the 1% mucilage of the acrylic acid/stearyl methacrylate copolymer, viscosity was 25,000 cps which decreased to 10,500 cps when amount of sodium chloride of 1.0% was present in the mucilage. 
     EXAMPLE 8 
     This example demonstrates the use of the mixed solvent of iso-octane and ethyl acetate. 
     Amount of iso-octane was 660 grams and amount of ethyl acetate was also 660 grams. Acrylic acid in amount of 180 grams was polymerized to a homopolymer pursuant to the procedure of Ex. 1 using 1.80 grams of allyl pentaerythritol crosslinker and 0.90 gram of di(2-ethylhexyl) peroxydicarbonate initiator. Reaction time was 6 hours and reaction temperature was 50° C. Viscosity of the 0.2% mucilage was 27,400 cps and viscosity of the 0.5% mucilage was 85,000 cps. 
     EXAMPLE 9 
     This example demonstrates the use of a solvent mixture of cyclohexane and methyl ethyl ketone. Polymerization in methyl ethyl ketone as the sole solvent results in precipitation of lumpy and rubbery polymer. Polymerization was carried out pursuant to the procedure of Ex. 1 using the following recipe: 
     cyclohexane: 924 grams 
     methyl ethyl ketone: 396 grams 
     acrylic acid: 180 grams 
     allyl pentaerythritol: 1.8 grams 
     EHP initiator: 0.9 grams 
     The following 0.2% and 0.5% mucilage viscosities and % transmittance were obtained: 
     
         ______________________________________                                    
0.2%          10,700 cps                                                  
                        94.9%                                             
0.5%          19,500 cps                                                  
                        91.8%                                             
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     The solvent mixture of 924 grams cyclohexane and 396 grams of methyl ethyl ketone, was on a 70/30 weight ratio basis. 
     EXAMPLE 10 
     This example demonstrates the use of n-butyl acetate alone as a solvent in run #1 and a mixture of n-butyl acetate and n-hexane as a solvent mixture in run #2 in polymerizing acrylic acid at 50° C. and in a polymerization period of 6 hours in each instance. 
     
         ______________________________________                                    
               Run #1  Run #2                                             
______________________________________                                    
n-butyl acetate  1,320     660                                            
n-hexane         0         660                                            
acrylic acid     180       180                                            
potassium carbonate                                                       
                 5.18      0                                              
allyl pentaerythritol                                                     
                 1.80      1.80                                           
crosslinker                                                               
EHP initiator    0.90      0.90                                           
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     Data on mucilage viscosity is given below: 
     
         ______________________________________                                    
                cps                                                       
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0.2% mucilage     5,890  14,400                                           
0.5% mucilage     7,350  23,700                                           
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     Data on clarity in terms of % transmittance is given below: 
     
         ______________________________________                                    
0.2% mucilage     99.6%   97.0%                                           
0.5% mucilage     98.2%   95.5%                                           
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     Residual acrylic acid monomer in run #1 was 0.239% and 0.146% in run #2. 
     EXAMPLE 11 
     This example demonstrates polymerization carried out at 72.8° C. in a mixed solvent using lauroyl peroxide initiator. 
     
         ______________________________________                                    
            Run #1   Run #2   Run #3                                      
______________________________________                                    
acrylic acid, grams                                                       
              195        225      250                                     
cyclohexane, grams                                                        
              600.3      586.5    572.7                                   
ethyl acetate, grams                                                      
              704.7      688.5    672.3                                   
allyl acrylate, grams                                                     
              0.975      1.125    1.275                                   
lauroyl peroxide, grams                                                   
              0.975      1.125    1.275                                   
reaction temp., °C.                                                
              72.8       72.8     72.8                                    
reaction time, hrs.                                                       
              6          6        6                                       
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     The viscosities for the 0.2% mucilages and the 0.5% mucilages for the runs is given below: 
     
         ______________________________________                                    
           cps                                                            
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0.2% mucilage                                                             
             21,000      22,000  17,500                                   
0.5% mucilage                                                             
             51,500      66,000  62,000                                   
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     The solvent mixture was on 46/54 weight ratio basis.