Abstract:
Packaging materials made from water-soluble nylons are disclosed, that readily contain materials such as caustic chemicals and upon exposure to water dissolve to provide for the release of the chemical into an aqueous environment. The materials are made from select polyether diamines and select aliphatic dicarboxylic acids.

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
     This application claims the benefit of U.S. Provisional Application No. 60/380,380, filed May 14, 2002 
    
    
     FIELD OF THE INVENTION 
     This invention relates to packaging made from water-soluble nylon compositions and suitable for containing materials of interest. More particularly, this invention relates to such packaging that adequately contains the material until deposited into water, after which the material is released into an aqueous environment, and processes for the manufacture thereof. 
     BACKGROUND OF THE INVENTION 
     Stringent environmental regulations on chemical emissions and concern for worker exposure to chemicals have intensified the effort to eliminate emissions and minimize physical contact with sensitive materials. There is also a similar desire to limit exposure of consumers to aggressive and corrosive chemicals from a public health perspective. One approach to minimize this exposure during handling of chemicals is the use of pre-packaged unit doses using water-soluble packaging materials. Applications for unit dose packaging are convenient and limit the exposure of the user to different types of chemicals (such as laundry, dishwater or other detergents, pesticides, agriculture chemicals, bleaches, and the like). Presently, partially hydrolyzed polyvinylalcohol (PVA) is used for a number of these applications. However, PVA has limited chemical resistance and thermal stability and is not amenable to film formation by melt extrusion processes such as film casting from melt or blown film extrusion. A combination of moisture and elevated temperatures or the presence of acids and bases can catalyze the hydrolysis of the acetate groups which results in reduced solubility in cold water. For the same reason PVA also has poor shelf life and its solubility in water is adversely affected by storage time and conditions. There is a need for a polymeric composition that is consistently water-soluble to suit these applications. 
     Water-soluble polymers are either natural (biopolymers) or man-made. To be water-soluble these polymers are highly polar in nature. A large number of functional groups are used to impart polarity and, in turn, water-solubility to various polymers. Functional groups such as amines, hydroxyl, sulfonic acids, and carboxylic acids and their salts are commonly used to solubilize polymers. However, it is not uncommon for the reactive functional groups such as acids and amines to react with other acids and bases that they come in contact with during end-use, and this leads to changes in properties such as solubility. For an extensive review of this subject see “Water-Soluble Polymers”, Encyclopedia of Polymer Science &amp; Engineering, Volume 17, pages 730–784, Second Edition, John Wiley &amp; Sons (1989). 
     There is a long-felt need in the field for the development of a polyamide-based composition for such applications. Nylons are well known for their strength, toughness, abrasion resistance, lubricity, and chemical resistance. The use of nylons in basic packaging applications is widespread because of the aforementioned properties. See generally, Kohan, M. I., “Nylon Plastics Handbook”, Hanser/Gardner Publications, Inc., 1995, pages 514, 540, &amp; 568–569. However their adaptation towards applications requiring solubility in water to date has not been particularly effective. 
     The patent literature includes various teachings regarding water-soluble nylons. U.S. Pat. No. 4,895,660 describes water-soluble sulfonated aromatic polyamides and polyureas that are cross-linked tonically with multi-valent metals for membranes, coatings, and adhesives. Japanese Patent Application 56-93704 describes a photosensitive composition comprising a water-soluble polyamide containing sodium sulfonate groups, a polymerizable unsaturated compound, and a sensitizer for printing plate applications. Japanese Patent Application 98007903A claims the use of alcohol-water solutions of nylons commonly known as PA66, PA46, PA6, and PA12 with a water-soluble methoxymethylated nylon, and thiocyanate salts in alcohol-water solvent as wiper blade coatings to improve performance and durability of the blades. U.S. Pat. Nos. 4,323,639 and 5,688,632 are both directed to water-soluble copolyamides containing polyether segments of 150 to 1500 molecular weight. These polyether-amide segments are obtained from polyether diamines and aliphatic dicarboxylic acids. These water-soluble polyamides are used in conjunction with photopolymerizable compound and a photoinitiator for printing plate applications. 
     It is well known in organic chemistry that ethers are relatively chemically unreactive compared to functionalities such as acids, amines, and hydroxyls. A water-soluble polyamide containing polyoxyethylene segments for water solubility would possess chemical inertness and thermal stability. These two characteristics would be advantageous in shaped-article production such as extrusion, blow-molding, and injection molding operations. However, up to now there has been no report in the literature on the use of water-soluble nylons containing polyoxycthylene segments for packaging and container applications and as a polymeric binder for tablets and briquettes. 
     It is an object of the present invention to provide a water-soluble nylon that can be incorporated into unit-dose packaging applications containing any of a variety of materials. It is a further object of the present invention to provide such materials that retain their integrity under ambient conditions and when immersed in water predictably solubilize and thereby release the contained material into aqueous solution. A feature of the present invention is its utility both as a packaging material (as envelopes, pouches and the like) and as a binder (for tablets, briquettes and the like). It is an advantage of the present invention that chemicals suitably packaged with materials described herein are not placed in contact with or only minimally contact persons handling the packaging. A further advantage of the present invention is its suitability for any of a number of conventional molding applications, including blow molding. These and other objects, features and advantages of the present invention will become better understood upon having reference to the description of the invention herein. 
     SUMMARY OF THE INVENTION 
     There is disclosed and claimed herein a packaging material comprising a water-soluble polyamide with a solubility in water at 23 C of at least 1.0 weight percent and derived from the reaction of adipic acid and ether diamines with a molecular weight of 148 to 396 and represented by the general formulas
 
H 2 N—R 1 —O—R 2 —O—R 1 —NH 2 
 
wherein R 1  and R 2  are either —CH 2 —CH 2 — or —CH 2 —CH 2 —CH 2 —;
 
H 2 N—R 1 (—O—CH 2 —CH 2 —) X O—R 1 —NH 2 
 
wherein R 1  is either —CH 2 —CH 2 — or —CH 2 —CH 2 —CH 2 — and X has an average value of 2 to 6; and mixtures thereof.
 
     Those of skill in the art will appreciate that R 1 &#39;s in the above formula are usually the same but can be different. 
     Moreover, the packaging materials disclosed and claimed herein and described in the processes also disclosed and claimed herein preferably have water soluble polyamides with a relative viscosity of less than 50 (and most preferably between 10 and 35). The solubility in water of such polyamides is at a rate such that a 5–10 mil film formed of this material will dissolve preferably in less than an hour (and preferably in less than 30 minutes). 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Copolyamides of the above polyamide with other polyamide-forming comonomers can also be used herein. These other nylon forming comonomers may be incorporated provided these comonomers do not adversely affect the water solubility of the resulting polyamide. These added comonomers may include other polyamide forming comonomers such as lactams, polyether diamines, polyether diacids, alkylene diamines, and alkylene dicarboxylic acids. The solubility in water of these nylons is influenced not only by the amount of the polyetherdiamines and the nature of the dicarboxylic acids but the molecular weight as well. Additives such as heat and UV stabilizers, anti-oxidants, plasticizers, lubricants, and catalyst may be used if desired to enhance the properties of the polymer or aid the polymerization process. Those having skill in the art to which this invention pertains will readily appreciate how much and in what manner these additives may be incorporated. 
     The water-soluble packaging articles disclosed herein may be fashioned in any of a variety of forms including without limitation films, bags, pouches, bottles, and jars, and as a binder for water-soluble tablets and briquettes and similar applications. In the latter application, the binder on exposure to water disintegrates, thereby providing for a release of the previously bound material into water. 
     There is also disclosed and claimed herein processes for the manufacture of these various packaging materials. The polyamide described above is formed as a film. The film is then shaped into a container suitable for placement of the chemical or other material of interest to be contained. Once the material is deposited into the container, the container is sealed to retain the material within it. Those having skill in this field will readily appreciate the various techniques for film formation, and container shaping and sealing. 
     Another process disclosed and claimed herein pertains to the manufacture and use of these polyamides as binders for tablets, briquettes and the like. The material to be packaged is presented, after which the polyamide is interspersed therewithin. The resulting product is shaped into a solid formation of interest. Formative techniques for the tablets and briquettes are again well understood by those having skill in this field, and generally include the initial development of a paste or slurry and subsequently removing the water and/or applying pressure to provide a solidified material. Prior to solidification the material can be shaped in designs and configurations of interest. 
     EXAMPLES 
     Preparation of the Nylon Resins 
     The nylon polymerization was carried out using standard nylon polymerization process that is well-known in the art (See Kohan, M. I., “Nylon Plastics Handbook” Hansen/Gardner Publications, Inc. [1995] pages 17–20 &amp; 34–45). As is well known in the art, the stoichiometry of the ingredients was determined and controlled using pH measurements. The molecular weight during polymerization, as indicated by relative viscosity (RV), was controlled by controlling pH, use of atmospheric, nitrogen, or vacuum finishing after pressure reduction. Usually, the molten polymer is quenched in water and then cut into pellets. However, because these nylons are water-soluble the molten polymer is either allowed to cool under ambient conditions or dropped onto a bed of ground dry ice for cooling. 
     Testing 
     The relative viscosity in formic acid (RV) of an 8.4% solution was determined at 25 C using a Brookfield Viscometer. 
     The solubility in room temperature water (22 C) at 10% concentration was determined by mixing 10 weight percent of the polymer with 90 weight percent demineralized water and stirring at room temperature. The solution was allowed to sit at room temperature and the solution was observed for any sign of precipitation. 
     Comparative Example A 
     In a beaker provided with a stirrer, 300 ml. of demineralized water and 222.0 g of triethyleneglycol diamine (H 2 N—CH 2 —CH 2 —O—CH 2 —CH 2 —O—CH 2 —CH 2 —NH 2 ) were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 345.0 g dodecanedioic acid. An additional 200 ml of de-mineralized water was added. When all the dodecanedioic acid was dissolved the pH was adjusted to 7.15 by addition of 4.1 g of triethyleneglycol diamine (TEGD). The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 21.0″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 270 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 15.7. 
     Using the same procedure (but with minor variations in temperature, vacuum and hold time as appropriate by those of skill in the art, to obtain the desired molecular weight) as Comparative Example A, Comparative Examples B and C were prepared using the appropriate ingredients. Results are shown below. 
     
       
         
               
               
               
               
               
             
           
               
                   
               
               
                 SAMPLE 
                 COMPOSITION 
                 CATALYST 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                 Comparative 
                 TEGD, 9  
                 None 
                 14.9 
                 Insoluble 
               
               
                 Example C 
               
               
                 Comparative 
                 TEGD, 10 
                 None 
                 13.3 
                 Insoluble 
               
               
                 Example B 
               
               
                 Comparative 
                 TEGD, 12 
                 None 
                 15.7 
                 Insoluble 
               
               
                 Example A 
               
               
                   
               
             
          
         
       
     
     Example 1 
     In a beaker provided with a stirrer, 300 ml. of de-mineralized water and 444.0 g of TEGD were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 438.0 g of adipic acid. An additional 100 ml of de-mineralized water was added. When all the adipic acid was dissolved the pH was adjusted to 7.25 by addition of 7.2 g of TEGD. The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 19.5″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 270 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 12.9. 
     Example 2 
     In a beaker provided with a stirrer, 1997.0 g of de-mineralized water and 740.0 g of TEGD were mixed with stirring. To the mixture was added slowly 730.0 g of adipic acid. When all the adipic acid was dissolved 0.37 g of sodium hypophosphite monohydrate (SHP monohydrate) was added. The pH of the salt solution was 7.10. An 830.0 g portion of the salt was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then held at atmospheric conditions for 20 minutes. At the end of 20 minutes the batch temperature was 255 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan with ground dry ice. The polymer had an RV of 14.0. 
     Example 3 and Example 4 were prepared under the same procedure as Example 2 with the exception that vacuum was used for the finishing step. The results are shown below. 
     
       
         
               
               
               
               
               
             
           
               
                   
               
               
                 SAMPLE 
                 COMPOSITION 
                 CATALYST (1) 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                 Example 1 
                 TEGD, 6 
                 None 
                 12.9 
                 Soluble 
               
               
                 Example 2 
                 TEGD, 6 
                 210 ppm 
                 14.0 
                 Soluble 
               
               
                 Example 3 
                 TEGD, 6 
                 349 ppm 
                 20.5 
                 Soluble 
               
               
                 Example 4 
                 TEGD, 6 
                 210 ppm 
                 22.8 
                 Soluble 
               
               
                   
               
               
                 (1) Sodium hypophosphite monohydrate 
               
             
          
         
       
     
     Examples 1 to 4 and Comparative Examples A, B, and C demonstrate that the incorporation of ether amine segments in the polymer alone is not sufficient to achieve water solubility. The proper selection of the dicarboxylic acid structure is necessary to obtain water soluble nylons. 
     Example 5 
     In a beaker provided with a stirrer, 300 ml of de-mineralized water and 278.2 g of TEGD were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 274.5 g of adipic acid. When the adipic acid has dissolved, 269.0 g of caprolactam solution with an 81.86 weight percent concentration was added. The pH was then adjusted to 7.35 by addition of 4.1 g of TEGD. The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 22.0″ to 22.5″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 268 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 17.7. The results are shown below. 
     
       
         
               
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                 MOLE 
                   
                   
                   
               
               
                 SAMPLE 
                 COMPOSITION 
                 RATIO 
                 CATALYST (1) 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                 Example 5 
                 TEGD, 6/6 
                 50/50 
                 None 
                 17.7 
                 Soluble 
               
               
                 Example 6 
                 TEGD, 6/6 
                 50/50 
                 349 ppm 
                 25.6 
                 Soluble (2) 
               
               
                 Example 7 
                 TEGD, 6/6 
                 70/30 
                 None 
                 15.3 
                 Soluble 
               
               
                 Example 8 
                 TEGD, 6/6 
                 80/20 
                 None 
                 14.1 
                 Soluble 
               
               
                 Comparative 
                 TEGD, 6/6 
                 40/60 
                 None 
                 19.0 
                 Insoluble 
               
               
                 Example D 
               
               
                   
               
               
                 (1) Sodium hypophosphite monohydrate 
               
               
                 (2) Soluble but went to solution much slower than Example 5 
               
             
          
         
       
     
     Examples 5, 6, 7, 8, and Comparative Example D illustrate that the ratio of comonomers affect the solubility of the copolymers in water. Example 5 and Example 6 also demonstrate that the RV (molecular weight) of the polymer also affects the rate of solution. The higher molecular weight results in slower dissolution rate. 
     Examples 9 to 11 and Comparative Examples E, F, G and H 
     Using the same procedure as in previous examples, and controlling RV as previously discussed herein various copolymers with nylon 66, 46, and 2-methylpetamethylenediamine, 6 were prepared. The results are shown below. 
     
       
         
               
               
               
               
               
               
             
               
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                 MOLE 
                   
                   
                   
               
               
                 SAMPLE 
                 COMPOSITION (1) 
                 RATIO 
                 CATALYST (2) 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 Example 9 
                 TEGD,6/6,6 
                 90/10 
                 None 
                 14.1 
                 Soluble 
               
               
                 Comparative 
                 TEGD, 6/6, 6 
                 80/20 
                 None 
                 15.5 
                 Insoluble 
               
               
                 Example E 
               
               
                 Comparative 
                 TEGD, 6/6, 6 
                 70/30 
                 152 ppm 
                 16.5 
                 Insoluble 
               
               
                 Example F 
               
               
                 Example 10 
                 TEGD, 6/2MPMD, 
                 70/30 
                 None 
                 15.1 
                 Soluble 
               
               
                   
                 6 
               
               
                 Comparative 
                 TEGD, 6/2MPMD, 
                 65/35 
                 None 
                 17.7 
                 Insoluble 
               
               
                 Example G 
                 6 
               
               
                 Example 11 
                 TEGD, 6/4, 6 
                 70/30 
                 None 
                 9.4 
                 Soluble 
               
               
                 Comparative 
                 TEGD, 6/4, 6 
                 50/50 
                 None 
                 10.5 
                 Insoluble 
               
               
                 Example H 
               
               
                   
               
               
                 (1) 2MPMD stands for 2-methylpentamethylenediamine 
               
               
                 (2) Sodium hypophosphite monohydrate 
               
             
          
         
       
     
     Examples 9, 10, 11, and Comparative Examples E, F, G, and H illustrate again that the solubility in water of copolymers is dependent on the type and amount of comonomer used. 
     Example 12 
     In a beaker provided with a stirrer, 500 ml of demineralized water and 264.0 g of 1,2-bis(gamma-aminopropoxy) ethane (H 2 N—CH 2 —CH 2 —CH 2 —O—CH 2 —CH 2 —O—CH 2 —CH 2 —CH 2 —NH 2 ) were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 219.0 g of adipic acid. When the adipic acid has dissolved the pH was adjusted to 7.12 by adding 26.0 g of 1,2-bis(gamma-aminopropoxy) ethane (BGAE) and 5.0 g of adipic acid. . Those having skill in the art will readily appreciate that different grades of BGAE (and as described later, POE-DPA 220) are available, and these have differing levels of monoamines and triamines associated with them. However these byproducts have minor effects in adjusting the pH level so that the pH of interest is readily attained. This may have an effect on the polymerization process, and some adjustments to this process may be necessary to achieve the desirable molecular weight, again as is well appreciated by the person of skill. The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 21–22″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 258 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 7.7. 
     Example 13 
     In a beaker provided with a stirrer, 500 ml of de-mineralized water, 246.4 g of BGAE, and 82.0 g of caprolactam solution with an 82.68 weight percent concentration were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 204.4 g of adipic acid. When the adipic acid has dissolved the pH was adjusted to 7.09 by adding 19.5 g of BGAE. The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 21″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 264 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 8.7. 
     Comparative Example I 
     In a beaker provided with a stirrer, 500 ml of de-mineralized water, 211.2 g of BGAE, and 164.0 g of caprolactam solution with an 82.68 weight percent concentration were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 175.2 g of adipic acid. When the adipic acid has dissolved the pH was adjusted to 7.15 by adding 12.0 g of BGAE. The solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then subjected to 18–19″ of vacuum for 60 minutes. At the end of 60 minutes the batch temperature was 264 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan. The polymer was allowed to cool to room temperature. The polymer had an RV of 10.7. The results are shown below. 
     
       
         
               
               
               
               
               
             
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                 MOLE 
                   
                   
               
               
                 SAMPLE 
                 COMPOSITION (1) 
                 RATIO 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 Example 12 
                 BGAE, 6 
                   
                 7.7 
                 Soluble 
               
               
                 Example 13 
                 BGAE, 6/6 
                 70/30 
                 8.7 
                 Soluble 
               
               
                 Comparative 
                 BGAE, 6/6 
                 50/50 
                 10.7 
                 Insoluble 
               
               
                 Example I 
               
               
                   
               
               
                 (1) BGAE is an acronym for 1,2-bis(gamma-aminopropoxy) ethane 
               
             
          
         
       
     
     Examples 12, 13, and Comparative Example I show that replacement of TEGD with BGAE also affords a water-soluble polyamide. Furthermore, copolymers of BGAE,6 behaves similarly with the copolymers of TEGD,6. 
     Example 14 
     In a beaker provided with a stirrer, 300 ml of de-mineralized water and 176.0 g of POE-DPA220 were mixed and heated to 60–70 C with stirring. This diprimary amine has the following structure (H 2 N—CH 2 —CH 2 —CH 2 —[polyoxyethylene]—CH 2 —CH 2 —CH 2 —NH 2 ) where the polyoxyethylene unit is (O—CH 2 —CH 2 —O—CH 2 —CH 2 —O) and has a molecular weight of 220. To the mixture was added slowly 116.8 g of adipic acid. The pH of the solution was 6.9. To the solution was then added 0.074 g of sodium hypophosphite monohydrate. The salt solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then held at atmospheric pressure for 20 minutes. At the end of 20 minutes the batch temperature was 249 C. The autoclave was then pressured with nitrogen and forced out of the autoclave and into a pan of dry ice. The polymer had an RV of 7.8 and was soluble in water at room temperature. 
     Comparative Example J 
     In a beaker provided with a stirrer, 200 ml of de-mineralized water and 88.0 g of POE-DPA220 were mixed and heated to 60–70 C with stirring. To the mixture was added slowly 58.4 g of adipic acid. The pH of the solution was adjusted to 6.72 by addition of 5.0 g of POE-DPA220. To the solution were added 117.6 g of a caprolactam solution with a concentration of 74.69 weight percent, 186.8 g of nylon 6,6 salt with a concentration of 31.35 weight percent, and 0.88 g of sodium hypophosphite monohydrate. The salt solution was then introduced into a 3,785 ml autoclave where the solution was heated slowly until the pressure in the autoclave reached 250 psig. At this point, steam was slowly vented while heating was continued. When the batch temperature reached 225 C, the steam venting was increased so as to lower the pressure to atmospheric pressure in 45 minutes but at a rate such that the batch temperature would continue to increase as it was being concentrated. The polymer was then held at atmospheric pressure for 18 minutes. At the end of 18 minutes the batch temperature was 260 C. The autoclave was then pressured with nitrogen and forced out of the autoclave into a pan of dry ice. The polymer had an RV of 12.5. 
     Using the same procedure as Comparative Example J and controlling RV as previously described herein, Comparative Examples K and L were prepared using POE-DPA514 (molecular weight of 514) and POE-DPA1114 (molecular weight of 1114). The results are shown below. 
     
       
         
               
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                 SALT WT. 
                   
                   
                   
               
               
                 SAMPLE 
                 COMPOSITION (1) 
                 RATIO 
                 CATALYST 
                 RV 
                 SOLUBILITY 
               
               
                   
               
             
             
               
                 Comparative 
                 POE-DPA220, 6/6, 6/6 
                 50/20/30 
                 0.30 wt. % 
                 12.5 
                 Insoluble 
               
               
                 Example J 
               
               
                 Comparative 
                 POE-DPA514, 6/6, 6/6 
                 50/20/30 
                 0.30 wt. % 
                 15.9 
                 Insoluble 
               
               
                 Example K 
               
               
                 Comparative 
                 POE-DPA1114, 6/6, 
                 50/20/30 
                 0.29 wt. % 
                 16.4 
                 Insoluble 
               
               
                 Example L 
                 6/6 
               
               
                   
               
             
          
         
       
     
     Comparative Examples J, K, and L are polymers containing polyether amines and are described in U.S. Pat. Nos. 4,323,639 and 5,688,632 as water-soluble. These comparative examples show that the water-soluble nylon described in the U.S. Pat. Nos. 4,323,639 and 5,688,632 are not water soluble and are not useful for the purposes of this invention. 
     Examples 15 to 30 
     The solubility of films in 23 C and 50 C water were determined on compression molded films of TEGD,6 homopolymers and TEGD,6/6 copolymers. A 2″×2″ sample of the film was attached to a 2″×2″ window cut into an aluminum sheet. This was then immersed in 1000 ml of well-stirred water maintained at 23 C and 50 C. The time it takes for the film sample to start disintegrating and the time it takes to completely dissolve are observed and recorded. Results are shown below: 
     
       
         
               
               
               
               
               
               
               
               
               
             
               
               
               
               
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                   
                   
                 FILM 
                   
                 TIME TO 
                   
                   
               
               
                   
                   
                 MOL 
                   
                 THICKNESS 
                 WATER 
                 DISINTEGRATE 
                 TIME 
               
               
                 SAMPLE 
                 COMPOSITION 
                 RATIO 
                 RV 
                 (mils) 
                 TEMP (C.) 
                 (sec) 
                 TO DISSOLVE (sec) 
                 COMMENTS 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 Example 15 
                 TEGD, 6/6 
                 50/50 
                 19.8 
                 4.8 
                 50 
                 13 
                 77 
                 Solution was clear. 
               
               
                 Example 16 
                 TEGD, 6/6 
                 50/50 
                 15.4 
                 5.2 
                 50 
                 12 
                 68 
                 Solution was clear. 
               
               
                 Example 17 
                 TEGD, 6/6 
                 50/50 
                 25.6 
                 5.2 
                 50 
                 14 
                 71 
                 Solution was clear. 
               
               
                 Example 18 
                 TEGD, 6/6 
                 50/50 
                 15.2 
                 4.8 
                 50 
                 15 
                 93 
                 Solution was clear. 
               
               
                 Example 19 
                 TEGD, 6/6 
                 76.5/23.5 
                 16.0 
                 5.3 
                 50 
                 15 
                 65 
                 Solution was clear. 
               
               
                 Example 20 
                 TEGD, 6 
                   
                 12.9 
                 5.2 
                 50 
                 11 
                 44 
                 Solution was clear. 
               
               
                 Example 21 
                 TEGD, 6 
                   
                 14.0 
                 5.3 
                 50 
                 18 
                 55 
                 Solution was clear. 
               
               
                 Example 22 
                 TEGD, 6 
                   
                 20.5 
                 5.1 
                 50 
                 20 
                 63 
                 Solution was clear. 
               
               
                 Example 23 
                 TEGD, 6/6 
                 50/50 
                 19.8 
                 4.9 
                 23 
                 41 
                 121 
                 Solution was clear. 
               
               
                 Example 24 
                 TEGD, 6/6 
                 50/50 
                 15.4 
                 5.8 
                 23 
                 34 
                 109 
                 Solution was clear. 
               
               
                 Example 25 
                 TEGD, 6/6 
                 50/50 
                 25.6 
                 5.2 
                 23 
                 32 
                 196 
                 Water became 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 26 
                 TEGD, 6/6 
                 50/50 
                 15.2 
                 5.8 
                 23 
                 32 
                 145 
                 Solution was clear. 
               
               
                 Example 27 
                 TEGD, 6/6 
                 76.5/23.5 
                 16.0 
                 4.7 
                 23 
                 27 
                 152 
                 Solution was clear. 
               
               
                 Example 28 
                 TEGD, 6 
                   
                 12.9 
                 5.9 
                 23 
                 40 
                 178 
                 Solution was clear. 
               
               
                 Example 29 
                 TEGD, 6 
                   
                 14.0 
                 4.5 
                 23 
                 30 
                 143 
                 Solution was clear. 
               
               
                   
                   
                   
                   
                   
                 // 
               
               
                 Example 30 
                 TEGD, 6 
                   
                 20.5 
                 5.9 
                 23 
                 45 
                 178 
                 Solution was clear. 
               
               
                   
               
             
          
         
       
     
     The results above demonstrate the excellent water solubility of the films. The solubility at 50 C is significantly better than at 22 C. The results of Example 25 on the 50/50 copolymer with the highest RV demonstrate that solubility is adversely affected by increasing molecular weight. This is a confirmation of the results of Example 6. 
     Examples 31 to 48 
     The various polymers in Examples 31 to 48 were prepared using the same procedures already illustrated in Examples 1 to 14 and Comparative Examples A to L but with minor variations in temperature, vacuum and hold time as explained earlier. Films of these polymers were then prepared and their solubility in water were determined as in Examples 15 to 30. The results are tabulated below: 
     
       
         
               
               
               
               
               
               
               
               
               
             
               
               
               
               
               
               
               
               
               
             
           
               
                   
                   
               
               
                   
                   
                   
                   
                 FILM 
                   
                 TIME TO 
                 TIME TO 
                   
               
               
                   
                   
                 MOLE 
                   
                 THICKNESS 
                 WATER 
                 DISINTEGRATE 
                 DISSOLVE 
               
               
                   
                 COMPOSITION 
                 RATIO 
                 RV 
                 (mils) 
                 TEMP (C.) 
                 (sec) 
                 (sec) 
                 COMMENTS 
               
               
                   
                   
               
             
             
               
                   
               
             
          
           
               
                 Example 31 
                 BGAE, 6/TEGD, 6/6 
                 40/20/40 
                 32.0 
                 3.3 
                 23 
                 21 
                 101 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 32 
                 BGAE, 6/POE-DPA220, 
                 40/20/40 
                 20.8 
                 2.6 
                 23 
                 12 
                 59 
                 Solution slightly 
               
               
                   
                 6/6 
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 33 
                 BGAE, 6/TEGD, 6/6 
                 40/20/40 
                 20.4 
                 5.2 
                 23 
                 41 
                 256 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 34 
                 BGAE, 6/TEGD, 6/6 
                 55/25/20 
                 18.7 
                 4.7 
                 23 
                 38 
                 145 
                 Solution was clear. 
               
               
                 Example 35 
                 BGAE, 6/POE-DPA220, 6 
                 50/50 
                 12.7 
                 6.4 
                 23 
                 50 
                 241 
                 Solution was clear. 
               
               
                 Example 36 
                 BGAE, 6/POE-DPA220, 6/ 
                 45/40/15 
                 13.6 
                 5.5 
                 23 
                 29 
                 357 
                 Solution was clear. 
               
               
                   
                 TEGD, 6 
               
               
                 Example 37 
                 BGAE, 6/POE-DPA220, 
                 45/45/10 
                 13.5 
                 6.0 
                 23 
                 38 
                 401 
                 Solution was clear. 
               
               
                   
                 6/6 
               
               
                 Example 38 
                 POE-DPA220, 6/TEGD, 6 
                 90/10 
                 12.8 
                 4.4 
                 23 
                 27 
                 82 
                 Solution was clear. 
               
               
                 Example 39 
                 POE-DPA220, 6/BGAE, 6 
                 90/10 
                 14.9 
                 5.1 
                 23 
                 31 
                 111 
                 Solution was clear. 
               
               
                 Example 40 
                 BGAE, 6/TEGD, 6/6 
                 40/20/40 
                 32.0 
                 3.8 
                 50 
                 8 
                 139 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 41 
                 BGAE, 6/POE-DPA220, 
                 40/20/40 
                 20.8 
                 5.7 
                 50 
                 10 
                 95 
                 Solution slightly 
               
               
                   
                 6/6 
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 42 
                 BGAE, 6/TEGD, 6/6 
                 40/20/40 
                 20.4 
                 4.5 
                 50 
                 27 
                 69 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 43 
                 BGAE, 6/TEGD, 6/6 
                 55/25/20 
                 18.7 
                 5.8 
                 50 
                 22 
                 54 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 44 
                 BGAE, 6/POE-DPA220, 6 
                 50/50 
                 12.7 
                 5.6 
                 50 
                 16 
                 59 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 45 
                 BGAE, 6/POE-DPA220, 6/ 
                 45/40/15 
                 13.6 
                 6.7 
                 50 
                 17 
                 109 
                 Solution slightly 
               
               
                   
                 TEGD,6 
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 46 
                 BGAE, 6/POE-DPA220, 
                 45/45/10 
                 13.5 
                 6.8 
                 50 
                 14 
                 140 
                 Solution slightly 
               
               
                   
                 6/6 
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 47 
                 POE-DPA220, 6/TEGD, 6 
                 90/10 
                 12.8 
                 5.4 
                 50 
                 5 
                 32 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                 Example 48 
                 POE-DPA220, 6/BGAE, 6 
                 90/10 
                 14.9 
                 5.6 
                 50 
                 13 
                 38 
                 Solution slightly 
               
               
                   
                   
                   
                   
                   
                   
                   
                   
                 cloudy. 
               
               
                   
               
             
          
         
       
     
     Examples M to T 
     Films were prepared and the solubility was determined as in Examples 15 to 30. The results are shown below: “Mostly dissolved” means a breakdown of material as observed, but part of the material did not dissolve. 
     
       
         
               
               
               
               
               
               
               
               
             
               
               
               
               
               
               
               
               
             
           
               
                   
               
               
                   
                   
                   
                   
                 FILM 
                   
                 TIME TO 
                   
               
               
                   
                   
                 MOL 
                   
                 THICKNESS 
                 WATER 
                 DISINTEGRATE 
                 TIME TO 
               
               
                 SAMPLE 
                 COMPOSITION 
                 RATIO 
                 RV 
                 (mils) 
                 TEMP (C.) 
                 (sec) 
                 DISSOLVE (hr) 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 Comparative 
                 TEGD,6/6, 6 
                 80/20 
                 15.5 
                 7 
                 23 
                 71 
                 &gt;5 
               
               
                 Example M 
               
               
                 Comparative 
                 TEGD, 12 
                   
                 15.7 
                 6.2 
                 23 
                 No change in 3 hr. 
                 No change in 3 hr. 
               
               
                 Example N 
               
               
                 Comparative 
                 BGAE, 6/6 
                 70/30 
                 14.4 
                 5.2 
                 23 
                 94 
                 &gt;5 
               
               
                 Example O 
               
               
                 Comparative 
                 BGAE, 6 
                   
                 13.8 
                 6.1 
                 23 
                 1190 
                 &gt;5 
               
               
                 Example P 
               
               
                 Comparative 
                 TEGD, 6/6, 6 
                 80/20 
                 15.5 
                 5.5 
                 50 
                 16 
                 Mostly dissolved 
               
               
                 Example Q 
                   
                   
                   
                   
                   
                   
                 in 5.2 hr. 
               
               
                 Comparative 
                 TEGD, 12 
                   
                 15.7 
                 5.9 
                 50 
                 No change in 3 hr. 
                 No change in 3 hr. 
               
               
                 Example R 
               
               
                 Comparative 
                 BGAE, 6/6 
                 70/30 
                 14.4 
                 6.2 
                 50 
                 24 
                 Mostly dissolved 
               
               
                 Example S 
                   
                   
                   
                   
                   
                   
                 in 4 hrs. 
               
               
                   
                   
                   
                   
                   
                   
                   
                 Completely 
               
               
                   
                   
                   
                   
                   
                   
                   
                 dissolved at 
               
               
                   
                   
                   
                   
                   
                   
                   
                 room 
               
               
                   
                   
                   
                   
                   
                   
                   
                 temperature 
               
               
                 Comparative 
                 BGAE, 6 
                   
                 13.8 
                 5.8 
                 50 
                 No change in 3 hr. 
                 No change in 3 hr. 
               
               
                 Example T 
               
               
                   
               
             
          
         
       
     
     The results above show that solubility alone is not sufficient criterion for packaging applications. The rate of dissolution is much more important for the intended packaging applications. 
     It will be readily apparent that any number of variations and modifications to the subject matter disclosed herein can be made, and are contemplated as within the scope and purview of the invention herein.