Patent Publication Number: US-4585844-A

Title: Process for preparing acid dyeable acrylonitrile polymer having improved whiteness

Description:
This application is a continuation-in-part of copending application Ser. No. 521,912 filed Aug. 10, 1983, abandoned. 
    
    
     This invention relates to an improved process for preparing polymers of acrylonitrile and N,N-dialkylaminoethylacrylates and methacrylates, optionally containing up to about 13% of a neutral ethylenically unsaturated monomer copolymerizable with acrylonitrile and the acrylate or methacrylate. 
     It is known from U.S. Pat. No. 3,065,211 to prepare copolymers of acrylonitrile and basic comonomers using relatively mild peroxide catalysts selected from the group consisting of hydrogen peroxide, alkyl and aryl hydroperoxides and alkali metal perborates and percarbonates in conjunction with an activator selected from the group consisting of 1-thioglycerol and 1-thiosorbitol. The resulting acid dyeable acrylonitrile polymers can be spun into fibers having improved initial whiteness and whiteness retention as compared to base modified acrylonitrile polymers prepared using ordinary persulfate catalysts and bisulfite activators. 
     It is known from U.S. Pat. No. 2,709,163 that copolymers of acrylonitrile and basic comonomers have improved initial color and color stability when the copolymers contain an amount of mono- or polysulfonic acid sufficient to substantially neutralize the basic comonomer in the copolymer. 
     It is known to use a dialkylaminoethylacrylate or methacrylate such as N,N-diethylaminoethylmethacrylate as a comonomer with acrylonitrile to provide copolymers which can be spun into acid dyeable fibers. However, these fibers have poor color and color stability even when prepared using the relatively mild peroxide catalysts of U.S. Pat. No. 3,065,211 or when neutralized according to U.S. Pat. No. 2,709,163. 
     It has now been found that copolymers of acrylonitrile and dialkylaminoethylacrylates and methacrylates, optionally containing up to about 13% by weight of a neutral comonomer polymerizable with acrylonitrile and the acrylate or methacrylate, having improved color and color stability can be prepared using a peroxy catalyst selected from the group consisting of hydrogen peroxide, alkyl and aryl hydroperoxides, acetyl and triacetone peroxides and alkali metal perborates and percarbonates used in conjunction with an activator selected from the group consisting of 1-thioglycerol, 1-thiosorbitol and thioglycol when the reaction mixture is quenched at the end of the polymerization with a sequestrant for heavy metals and a quenching compound selected from the group consisting of sulfur dioxide, sodium bisulfite and sodium metabisulfite. The function of the SO 2  or sulfite quenching agent is to destroy color-forming precursors along the polymer chain. 
     The alkyl groups contain 1-4 carbon atoms and preferably are methyl or ethyl, most preferably ethyl. Methacrylates are preferred. The preferred basic comonomer is N,N-diethylaminoethyl methacrylate (DEAM). 
     By the term &#34;neutral ethylenically unsaturated monomer&#34;, it is meant those monomers which exhibit neither acidic nor basic reactions. 
     The process of the present invention may be carried out under widely varying conditions using aqueous solutions of the monomers. For example, the polymerization may be carried out in a batch or continuous manner. The monomer concentration in the polymerization medium may vary from about 10% to about 40% by weight, with the preferred concentration being from about 17% to 30% by weight. The amount of catalyst should be in the range from about 0.05% to about 10% by weight, based on the weight of monomers, and preferably from 0.1% to 2% for batch polymerization or for continuous polymerization during steady state conditions when polymer is being collected. For the start-up of a continuous polymerization, the concentration of catalyst is preferably held at a high level and may be gradually reduced over a period of a few hours to a lower concentration within the range just mentioned. The activator concentration is usually from about 0.1% to about 2% by weight, based on the weight of the monomers. The amount of SO 2  or bisulfite quenching agent is at least 10 mol % of the amount of peroxy catalyst used, preferably from 20% to 40%. 
     In carrying out the process of invention, the polymerization vessel should be well agitated. The temperature of the vessel is usually maintained in the range from about 15° C. to about 70° C. and the pH of the polymerization medium is usually adjusted to from about 2 to about 5. It is advantageous to carry out the polymerization in the lower end of this pH range, e.g., 2 to 3, particularly when a sodium bisulfite or sodium metabisulfite quench is being used. Polymers produced by the process of the invention have an intrinsic viscosity in the range from 0.8 to 3.0. 
     The initial color and color stability of the polymers may also be enhanced by using a low catalyst concentration. 
     TESTS 
     Solution Color 
     In the process of dry spinning, the polymer is dissolved in a volatile organic solvent and extruded into an evaporative atmosphere. One of the preferred solvents is N,N-dimethylformamide (DMF). Initial solution color as well as solution color after heating are important characteristics of a polymer to be spun into fibers. In the test, the polymer is dissolved in DMF and the optical density of the solution is measured using a Beckman ACTA II spectrophotometer. 
     Fiber Color 
     Fibers are evaluated for whiteness using a carded pad of staple fibers. Measurements are made on a Hunter Colorimeter Model D25M3 using as a standard of comparison a Hunter standard white MgO plate. The chromaticity dimension &#34;b&#34; measures yellowness. 
     Intrinsic Viscosity 
     Intrinsic viscosity is the limit of the natural logarithm of the ratio of the flow time of a dilute solution of a polymer to solvent flow time as the polymer concentration approaches zero. The measurements are made in DMF at 25° C. 
    
    
     In the examples, all parts are by weight unless otherwise indicated. 
     EXAMPLE 1 
     This example shows the effectiveness of NaHSO 3  for improving polymer and fiber color. 
     The preferred process of the present invention is continuous in an aqueous suspension system as generally taught in U.S. Pat. No. 3,065,211. This is a continuous steady-state redox polymerization in which all ingredients are metered to an agitated jacketed vessel, a representative portion of the contents overflowing constantly. Polymer and unreacted monomers are recovered from the overflowing slurry. The heat of reaction is removed by water circulating through the jacket. 
     The following ingredients are continuously fed: 
     
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               Parts by Weight, per minute                                
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Demineralized water                                                       
                 101.90                                                   
Acrylonitrile    31.80                                                    
Methyl acrylate  2.08                                                     
                               in admixture                               
DEAM             1.42                                                     
H.sub.2 O.sub.2  0.35 dissolved in part of                                
                 H.sub.2 O feed, 1.0% on monomer                          
H.sub.2 SO.sub.4 0.6 dissolved in part of                                 
                 H.sub.2 O feed                                           
Fe++             0.00037 as ferrous ammonium                              
                 sulfate in part of H.sub.2 O feed                        
1-Thioglycerol   0.16 dissolved in part of                                
                 H.sub.2 O feed                                           
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     For test A, NaEDTA (sodium neutralized ethylenediaminetetraacetic acid) is added to the overflowing slurry in excess of that needed to sequester the iron. For test B, in addition to NaEDTA, 10.8 parts by weight per minute of 10% aqueous sodium metabisulfite is added. 
     The reactor has a working capacity up to the continuous overflow of 7700 parts. The residence time is 56 minutes. The temperature is controlled at 50°±2° C. The pH of the reaction mixture is 2.7 to 3.4. The DEAM content of the polymer is about 3.5% by weight. Overall conversion is 65% to 75%. The intrinsic viscosity of the polymer is 1.50 to 1.60. The polymer is removed by filtration, washed with water, again removed by filtration and dried at 110° C. 
     Fibers are obtained by conventional dry spinning and wash drawing to provide a 3 dpf yarn. Fiber color is measured on an air-blended sample of staple cup from the yarns using a Hunter Colorimeter Model D25M3. 
     
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       Sequestering Quenching                                             
Test   Agent        Compound  Fiber &#34;b&#34; Value                             
______________________________________                                    
A      NaEDTA       --        11.9-12.5                                   
B      NaEDTA       NaHSO.sub.3                                           
                              7.2-8.1                                     
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     The use of NaHSO 3  provides a 4-5 unit lower fiber &#34;b&#34; value than fiber made without the NaHSO 3  quenching compound. 
     EXAMPLE 2 
     This example shows the effectiveness of low catalyst concentration for improving fiber color. 
     Polymer is prepared as in Example 1 except that 0.05 parts H 2  O 2  (0.14% based on monomers) is used. In Test A&#39;, as in Test A in Example 1, NaEDTA, in excess of that needed to sequester the iron was added. Test B&#39;, as in B in Example 1, was quenched with 10.8 parts by weight of 10% aqueous sodium metabisulfite in addition to excess NaEDTA. Fibers were dry spun and wash drawn as in Example 1 and the fiber &#34;b&#34; values measured. 
     
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Test         % H.sub.2 O.sub.2 on Monomers                                
                            &#34;b&#34; Value                                     
______________________________________                                    
A (Example 1)                                                             
             1.0            11.9-12.5                                     
A&#39;           0.14           5.7-6.3                                       
B (Example 1)                                                             
             1.0            7.2-8.1                                       
B&#39;           0.14           4.8                                           
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     EXAMPLE 3 
     This example shows the effectiveness of SO 2  in inhibiting color development in acrylic polymers containing basic comonomers and in fibers prepared therefrom. 
     The procedure of Example 1 was repeated adding 13.9 parts by weight per minute of 3.4% aqueous NaEDTA and 16.6 parts by weight per minute 20% aqueous Na 2  S 2  O 5  to the overflow (test C). This test was repeated except 47 parts by weight per minute 0.3% aqueous SO 2  was substituted for the NaHSO 3  solutions (test D). Polymer solution color was determined by dissolving 2.5 g of polymer in 50 ml DMF and measuring the absorbance at 345 nm. Fibers were dry spun and wash drawn as in Example 1 and the fiber &#34;b&#34; values measured. 
     
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      Sequestering                                                        
                 Quenching   Solution                                     
Test  Agent      Compound    Color  &#34;b&#34; Value                             
______________________________________                                    
C     NaEDTA     Na.sub.2 S.sub.2 O.sub.5                                 
                             0.187  9.0                                   
D     NaEDTA     SO.sub.2    0.105  7.7                                   
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     EXAMPLE 4 
     This example shows the effective range of NaHSO 3  for improving color in acrylic polymers prepared with basic comonomers and in fibers prepared therefrom. 
     The polymerization procedure of Example 1 was repeated. In tests A, B and C 14.25 parts by weight per minute of 3.1 wt % aqueous NaEDTA was added to the overflowing slurry to sequester the iron. For test B, 4.68 parts by weight per minute of 20% aqueous sodium metabisulfite was added to consume all unreacted peroxy catalyst. For test C, 1.83 parts by weight per minute of 20% aqueous sodium metabisulfite was added to consume 40% of the unreacted peroxy catalyst. Fibers were dry spun and wash drawn as in Example 1 and the fiber &#34;b&#34; values measured. 
     
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       Sequestering  Quenching                                            
Test   Agent         Compound  &#34;b&#34; Value                                  
______________________________________                                    
A      NaEDTA        --        16.1                                       
B      NaEDTA        NaHSO.sub.3                                          
                               10.4                                       
C      NaEDTA        NaHSO.sub.3                                          
                               10.1                                       
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     EXAMPLE 5 
     This example shows the effective range of SO 2  for improving color in acrylic polymers prepared with basic comonomers. 
     The polymerization procedure of Example 1 was repeated. 
     In tests D, E, and F, 12.22 parts by weight per minute of 3.1 wt. % aqueous NaEDTA were added to sequester the iron. For test D, the conditions of Test C were repeated. For test E, 0.24 parts by weight per minute of SO 2  was added to consume 40% of the unreacted peroxy catalyst. For test F, 0.12 parts by weight per minute of SO 2  was added to consume 20% of the unreacted peroxy catalyst. Polymer solution color was measured by dissolving 2.5 g of polymer in 50 ml DMF and measuring the absorbance at 345 nm. 
     
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       Sequestering  Quenching                                            
Test   Agent         Compound  Solution Color                             
______________________________________                                    
D      NaEDTA        NaHSO.sub.3                                          
                               0.233                                      
E      NaEDTA        SO.sub.2  0.188                                      
F      NaEDTA        SO.sub.2  0.172                                      
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