The present invention provides ion-sensitive, water-dispersible polymers. The present invention also provides a method of making ion-sensitive, water-dispersible polymers and their applicability as binder compositions. The present invention further provides fiber-containing fabrics and webs comprisi
The present invention provides ion-sensitive, water-dispersible polymers. The present invention also provides a method of making ion-sensitive, water-dispersible polymers and their applicability as binder compositions. The present invention further provides fiber-containing fabrics and webs comprising ion-sensitive, water-dispersible binder compositions and their applicability in water-dispersible personal care products.
대표청구항▼
What is claimed is: 1. A wet wipe, comprising: a fabric sheet saturated with a wetting composition; wherein the wet wipe has a thickness greater than about 0.25 mm; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of l
What is claimed is: 1. A wet wipe, comprising: a fabric sheet saturated with a wetting composition; wherein the wet wipe has a thickness greater than about 0.25 mm; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has an opacity greater than about 35%. 2. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 3. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 4. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 5. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 6. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 7. The wet wipe of claim 1, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 8. The wet wipe of claim 1, wherein the wet wipe has a thickness greater than about 0.3 mm. 9. The wet wipe of claim 1, wherein the wet wipe has a thickness greater than about 0.4 mm. 10. The wet wipe of claim 1, wherein the wet wipe has a cup crush less than about 40 g. 11. The wet wipe of claim 1, wherein the wet wipe has a cup crush less than about 25 g. 12. The wet wipe of claim 1, wherein the wet wipe has a cup crush less than about 10 g. 13. The wet wipe of claim 1, wherein the wetting composition contains less than about 5 weight percent of organic solvents. 14. The wet wipe of claim 13, wherein the wetting composition contains less than about 3 weight percent of organic solvents. 15. The wet wipe of claim 14, wherein the wetting composition contains less than about 1 weight percent of organic solvents. 16. The wet wipe of claim 13, wherein the wetting composition is substantially free of organic solvents. 17. The wet wipe of claim 1, where in the wetting composition comprises an activating compound at a concentration of at least 1 weight percent based on the weight of the wetting composition. 18. The wet wipe of claim 17, wherein the activating compound comprises a monovalent salt and is present at a concentration of at least 1 weight percent based on the weight of the wetting composition. 19. The wet wipe of claim 18, wherein the activating compound is present at a concentration of from about 1 weight percent to about 10 weight percent based on the weight of the wetting composition. 20. The wet wipe of cIaim 19, wherein the activating compound is present at a concentration of from about 1 weight percent to about 5 weight percent based on the weight of the wetting composition. 21. The wet wipe of claim 20, wherein the activating compound is present at a concentration of about 4 weight percent. 22. The wet wipe of claim 1, wherein the fabric sheet comprises fibrous material and an ion-sensitive binder. 23. The wet wipe of claim 17, wherein the activating compound is sodium chloride. 24. The wet wipe of claim 22, wherein the ion-sensitive binder comprises at least one of an ion-sensitive polymer and a co-binder. 25. The wet wipe of claim 24, wherein the ion-sensitive polymer is formed from (a) at least one of acrylic acid and methcrylic acid, and (b) one or more alkyl acrylates. 26. The wet wipe of claim 24, wherein the ion-sensitive polymer is formed from one or more monomers selected from acrylic acid; 2-acrylamido-2-methyl-1-propanesulfonic acid (AMPS); the sodium salt of 2-acrylamido-2-methyl-1-propanesulfonic acid (NaAMPS); butyl acrylate; and 2-ethylhexyl acrylate. 27. The wet wipe of claim 24, wherein the co-binder is selected from non-crosslinking poly(ethylene-vinyl acetate), non-crosslinking poly(styrene-butadiene), and non-crosslinking poly(styrene-acrylic). 28. The wet wipe of claim 27,wherein the co-binder is non-crosslinking poly(ethylene-vinyl acetate). 29. The wet wipe of claim 17, wherein the wetting composition comprises: about 86 to about 98 weight percent deionized water; about 1 to about 6 weight percent sodium chloride as the activating compound; up to about 2 weight percent of one or more preservatives; up to about 2 weight percent of one or more surfactants; up to about1 weight percent of one or more silicone emulsions; up to about1 weight percent of one or more emollients; up to about 0.3 weight percent of one or more fragrances; up to about 0.5 weight percent of one or more fragrance solubilizers; and up to about 0.5 weight percent of one or more pH adjusters. 30. The wet wipe of claim 29, wherein the wetting composition comprises: about 86 to about 98 weight percent of deionized water; about 1 to about 6 weight percent of sodium chloride as the activating compound; from greater than 0 to about 2 weight percent of one or more preservatives comprising glycerin, iodopropynyl butylcarbamate (IPBC), and dimethyloldimethyl (DMDM) hydantoin; from greater than 0 to about 2 weight percent of a surfactant comprising acyl glutamate; from greater than 0 to about 1 weight percent of one or more silicone emulsions comprising dimethiconol and triethanolamine (TEA) dodecylbenezene sulfonate; from greater than 0 to about 1 weight percent of an emollient comprising PEG-75 Lanolin; from greater than 0 to about 0.3 weight percent of one or more fragrances; from greater than 0 to about 0.5 weight percent of a fragrance solubilizer comprising polysorbate 20; and from greater than 0 to about 0.2 weight percent of a pH adjuster comprising malic acid. 31. The wet wipe of claim 30, wherein the wetting composition comprises: about 92.88 weight percent of deionized water; about 4.00 weight percent of sodium chloride as the activating compound; about 1.00 weight percent of one or more preservatives comprising glycerin, IPBC, and DMDM hydantoin; about 1.00 weight percent of a surfactant comprising acyl glutamate; about 0.50 weight percent of one or more silicone emulsions comprising dimethiconol and TEA dodecylbenezene sulfonate; about 0.25 weight percent of an emollient comprising PEG-75 Lanolin; about 0.05 weight percent of one or more fragrances; about 0.25 weight percent of a fragrance solubilizer comprising polysorbate 20; and about 0.07 weight percent of a pH adjuster comprising malic acid. 32. A wet wipe comprising a fabric sheet saturated with a wetting composition, wherein the fabric sheet comprises fibrous material and an ion-sensitive binder, and wherein the wetting composition contains less than about 5 weight percent of organic solvents; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 33. The wet wipe of claim 32, wherein the fibrous material comprises one or more layers of a woven fabric, a nonwoven fabric, a knitted fabric, or a combination thereof. 34. The wet wipe of claim 32, wherein the fibrous material comprises one or more layers of a nonwoven fabric. 35. The wet wipe of claim 32, wherein the fibrous material comprises fibers having a length of about 15 mm or less. 36. The wet wipe of claim 32, wherein the fibrous material comprises natural fibers, synthetic fibers, or a combination thereof. 37. The wet wipe of claim 32, wherein the fibrous material comprises one or more fibers containing cotton, linen, jute, hemp, wool, wood pulp, viscose rayon, cuprammonium rayon, cellulose acetate, polyester, polyamide, and polyacrylic. 38. The wet wipe of claim 32, wherein the fibrous material comprises wood pulp. 39. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 40. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 41. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 42. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 43. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 44. The wet wipe of claim 32, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 45. The wet wipe of claim 32, wherein the wet wipe has a thickness greater than about 0.25 mm. 46. The wet wipe of claim 32, wherein the wet wipe has a thickness greater than about 0.3 mm. 47. The wet wipe of claim 32, wherein the wet wipe has a thickness greater than about 0.4 mm. 48. The wet wipe of claim 32, wherein the wet wipe has a cup crush less than about 40 g. 49. The wet wipe of claim 32, wherein the wet wipe has a cup crush less than about 25 g. 50. The wet wipe of claim 32, wherein the wet wipe has a cup crush less than about 10 g. 51. The wet wipe of claim 32, wherein the welling composition contains less than about 3 weight percent of organic solvents. 52. The wet wipe of claim 51, wherein the wetting composition contains less than about 1 weight percent of organic solvents. 53. The wet wipe of claim 52, wherein the wetting composition is substantially free of organic solvents. 54. The wet wipe of claim 32, wherein the wet wipe has an opacity greater than about 20%. 55. A wet wipe, comprising: a fabric sheet saturated with a wetting composition; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour, wherein the wetting composition contains less than about 3 weight percent of organic solvents, further wherein the organic solvents do not ensure the in-use tensile strength when the in-use tensile strength is less than about 100 g/in. 56. The wet wipe of claim 55, wherein the fabric sheet comprises fibrous material and an ion-sensitive binder. 57. The wet wipe of claim 56, wherein the fibrous material comprises one or more layers of a woven fabric, a nonwoven fabric, a knitted fabric, or a combination thereof. 58. The wet wipe of claim 56, wherein the fibrous material comprises one or more fibers containing cotton, linen, jute, hemp, wool, wood pulp, viscose rayon, cuprammonium rayon, cellulose acetate, polyester, polyamide, and polyacrylic. 59. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 60. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 61. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 62. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 200 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 63. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 50 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 40% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 64. The wet wipe of claim 55, wherein the wet wipe has an in-use tensile strength of greater than about 300 g/in, a tensile strength of less than about 30 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour and a tensile strength of less than about 20% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour. 65. The wet wipe of claim 55, wherein the wetting composition contains less than about 1 weight percent of organic solvents. 66. The wet wipe of claim 55, wherein the wetting composition is substantially free of organic solvents. 67. The wet wipe of claim 55, wherein the wet wipe has an opacity greater than about 35%. 68. The wet wipe of claim 55, wherein the wet wipe has a thickness greater than about 0.25 mm. 69. The wet wipe of claim 55, wherein the wet wipe has a cup crush less than about 40 g. 70. A wet wipe, comprising: a fabric sheet saturated with a wetting composition containing less than about 5 weight percent of organic solvents; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has an opacity greater than about 35%. 71. A wet wipe, comprising: a fabric sheet saturated with a wetting composition; wherein the fabric sheet comprises fibrous material and an ion-sensitive binder, the ion-sensitive binder comprising at least one of an ion-sensitive polymer and a co-binder; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has an opacity greater than about 35%. 72. A wet wipe, comprising: a fabric sheet saturated with a welling composition; wherein the wet wipe has a thickness greater than about 0.25 mm; wherein the wet wipe has an in-use tensile strength of greater than about 100 g/in, wherein the wet wipe has a tensile strength of less than about 70 g/in after being soaked in water having a concentration of about 10 ppm of one or more multivalent ions for about one hour, wherein the wet wipe has a tensile strength of less than about 60% of the in-use tensile strength after being soaked in water having a concentration of about 200 ppm of one or more multivalent ions for about one hour, wherein the wetting composition may include organic solvents, further wherein the organic solvents do not ensure the in-use tensile strength when the in-use tensile strength is less than about 100 g/in.
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Annis Vaughan R. ; Walker John J. ; Murdock Scott H., Abrasive nonwoven web.
Roby Mark S. (Killingworth CT) Liu Cheng-Kung (Norwalk CT) Bennett Steven L. (Southington CT), Absorbable block copolymers and surgical articles fabricated therefrom.
Hammons John L. (Hamilton OH) Hennessy Shannon J. (Cincinnati OH) Martin ; Jr. Alvin D. (Cincinnati OH), Absorbent article with clean appearance and capacity signal means.
Osborn ; III Thomas Ward (Cincinnati OH) Schmitz Deborah Catherine (West Chester OH) Cree James William (Cincinnati OH) Elder Melisse Noel (Cincinnati OH), Absorbent article with means for directional fluid distribution.
Osborn ; III Thomas Ward ; Schmitz Deborah Catherine ; Cree James William ; Elder Melisse Noel, Absorbent article with means for directional fluid distribution.
Srinivasan Ramesh (Billerica MA) Bottomley James (Andover MA) Coslett W. Andrew (Medfield MA), Absorbent, flushable, bio-degradable, medically-safe nonwoven fabric with PVA binding fibers, and process for making the.
Srinivasan Ramesh (Billerica MA) Bottomley James (Andover MA) Coslett W. Andrew (Medfield MA), Absorbent, flushable, bio-degradable, medically-safe nonwoven fabric with PVA binding fibers, and process for making the.
Yamamoto Motonori,DEX ; Warzelhan Volker,DEX ; Seeliger Ursula,DEX ; Kim Son Nguyen,DEX ; Schumacher Karl-Heinz,DEX ; Hummerich Rainer,DEX ; Beimborn Dieter Bernhard,DEX ; Pagga Udo,DEX, Aqueous dispersion of a biodegradable polyester and its use thereof.
Ma Sheau-Hwa (Chadds Ford PA) Dicker Ira B. (Wilmington DE) Hertler Walter R. (Kennett Square PA), Aqueous dispersions containing ABC triblock polymer dispersants.
Vijayendran Bheema R. (Emmaus PA) Derby Richard (Allentown PA) Gruber Bruce A. (Emmaus PA), Aqueous polyurethane-vinyl polymer dispersions for coating applications.
Das Suryya K. (Fox Chapel Boro. PA) Kilic Soner (Hampton Township ; Allegheny County PA) Jennings Robert E. (New Sewickley Township ; Beaver County PA) Claar James A. (Washington Township ; Westmorel, Aqueous, anionic, amino acrylate coating compositions.
Coquard Jean (Grezieu-La Varenne FR) Sedivy Pierre (Sceaux FR) Ruaud Michel (Ternay FR) Verrier Jean (Boulogne-sur-Seine FR), Bioresorbable surgical articles.
Finch Valerie Victoria (Neenah WI) Glaug Frank Steven (Appleton WI) Olson Christopher Peter (Neenah WI) Ratliff Kathleen Irene (Neenah WI) Sheldon Donald Albert (Appleton WI), Child\s mitt wipe.
Gordon Gregory Charles ; Mackey Larry Neil ; Trokhan Paul Dennis, Cleaning articles comprising a polarphobic region and a high internal phase inverse emulsion.
Barber ; Jr. Loren L. (Lake Elmo MN) Christianson Todd J. (Oakdale MN) Preston Jay B. (St. Paul MN), Coatable thermally curable binder presursor solutions modified with a reactive diluent, abrasive articles incorporating.
Jarrett Peter K. (New Haven CT) Jessup George (Brookfield CT) Rosati Louis (Norwalk CT) Martin Chris (Guildford NY AUX) Maney John W. (Spring Valley NY), Coating for tissue drag reduction.
Jarrett Peter K. (New Haven CT) Jessup George (Brookfield CT) Rosati Louis (Norwalk CT) Martin Chris (Guildford NY AUX) Maney John W. (Spring Valley NY), Coating for tissue drag reduction.
Jackson David Martin ; Mumick Pavneet Singh ; Ono Audrie Tomoko ; Pomplun William Seal ; Wang Kenneth Yin, Coformed dispersible nonwoven fabric bonded with a hybrid system.
Wang Kenneth Y. ; Demeny Leroy M. ; Pomplun William S. ; Mumick Pavneet S. ; Anderson Ralph L. ; Merker Joseph F., Dispersible nonwoven fabric and method of making same.
Roessler Thomas H. (Menasha WI) Cesco-Cancian Annamaria (Appleton WI) Endres Dan D. (Appleton WI) Hanson Paula M. (Appleton WI) Leick Kenneth A. (Appleton WI) Leick Marianne K. (Appleton WI) Werner E, Disposable absorbent article with flushable insert.
Roessler Thomas H. (Menasha WI) Cesco-Cancian Annamaria (Appleton WI) Endres Dan D. (Appleton WI) Hanson Paula M. (Appleton WI) Leick Kenneth A. (Appleton WI) Leick Marianne K. (Appleton WI) Werner E, Disposable absorbent article with flushable insert.
Roessler Thomas H. (Menasha WI) Cesco-Cancian Annamaria (Appleton WI) Endres Dan D. (Appleton WI) Hanson Paula M. (Appleton WI) Leick Kenneth A. (Appleton WI) Leick Marianne K. (Appleton WI) Werner E, Disposable absorbent article with flushable insert.
Roessler Thomas H. (Menasha WI) Cesco-Cancian Annamaria (Appleton WI) Endres Dan D. (Appleton WI) Hanson Paula M. (Appleton WI) Leick Kenneth A. (Appleton WI) Leick Marianne K. (Appleton WI) Werner E, Disposable absorbent article with flushable insert.
Pearlstein Leonard (1441 Waverly Ave. Gladwyne PA 19035) Suskind Stuart P. (Wayne PA), Disposable container for moist paper towels and a method of making the same.
Hirakawa Kiyoshi,JPX ; Tabuchi Izumi,JPX ; Ando Yusuke,JPX ; Yamaguchi Shinji,JPX, Fiber of ethylene-vinyl alcohol copolymer and process for production thereof.
Pall David B. (Roslyn Estates NY) Degen Peter J. (Huntington NY) Gsell Thomas C. (Glen Cove NY) Yanakis Eleni C. (Ridge NY), Fibrous structure and method of manufacture.
Sheldon Donald A. (Outagamie County WI) Stokes Bruce G. (Cherokee County GA) Weber Robert E. (Cobb County GA) Greenman Edwin G. (Cherokee County GA), Heat sealable water dispersible adhesive.
Honeycutt Travis W. (3544 Mill Rd. Gainesville GA 30504) Taylor ; Jr. Robert L. (130 May Glen Way Roswell GA 30076), Hot water soluble packaging materials.
Kauffman Thomas F. (Easton PA) Raykovitz Gary (Flemington NJ) Wagner Lydia (Bedminster NJ) Sharak Matthew (Franklin Park NJ) Paul Charles (Madison NJ), Hydrophilic hot melt adhesives.
Fisher Daniella J. (Cincinnati OH) Osborn ; III Thomas W. (Cincinnati OH) Seymour Mark D. (Cincinnati OH) Kingry Gary W. (Cincinnati OH) Berg ; Jr. Charles J. (Cincinnati OH) Cook Charles D. (Fairfie, Individually packaged sanitary napkin having cleaning wipe packaged therewith.
Pomplun, William S.; Chen, Franklin M.; Dellerman, Paige A.; Johnson, Eric D.; Lindsay, Jeffrey D.; Rivera, Ligia A.; Schick, Kim G.; Schultz, Walter T.; Shah, Varsha K.; Soerens, Dave A.; Wang, Kenn, Ion-sensitive, water-dispersible polymers, a method of making same and items using same.
Ramachandran Ramesh (North Brunswick NJ) Dinunzi Sharon A. (Middlesex NJ), Lubricious polymer blends comprising polyethylene oxide, polyethylene and a polylactone.
Morgan Cheryle I. (6562 Patrick Dr. Dallas TX 75214) Judy Millard M. (5740 Palo Pinto Dr. Dallas TX 75206), Medical sponges and wipes with a barrier impermeable to infectious agents.
Dirk Raymond John (Cleves OH) Ahr Nicholas Albert (Cincinnati OH), Method for making three-dimensional macroscopically-expanded webs having improved functional surfaces.
Heller Jorge (Woodside CA) Penhale Donald W. H. (Menlo Park CA) Ng Steve Y. (San Francisco CA), Method of preparing bioerodible polymers having pH sensitivity in the acid range and resulting product.
Potts David C. (Dunwoody GA) Young George A. (Atlanta GA) Everhart Dennis S. (Alpharetta GA) MacDonald J. Gavin (Decatur GA) Nohr Ronald S. (Roswell GA), Multilayer nonwoven composite structure.
Potts David C. (Dunwoody GA) Young George A. (Atlanta GA) Everhart Dennis S. (Alpharetta GA) MacDonald J. Gavin (Decatur GA) Nohr Ronald S. (Roswell GA), Multilayer nonwoven laminiferous structure.
Lewis Sheldon N. (Willow Grove PA) Haggard Richard A. (Fort Washington PA), Novel methacrylic polymers having condensation-crosslinkable functionality.
Gallagher Francis G. (Wilmington DE) Hamilton Cathy J. (Wilmington DE) Tietz Raymond F. (Wilmington DE), Novel polyesters and their use in compostable products such as disposable diapers.
Bailly Helen (Eagan MN) Luedtke Arthur (Woodbury MN) Pankratz Paul (Lakeville MN) Allen Joy (Jordan MN) Outlaw Tina O. (Inver Grove Heights MN) Fisher Lance K. (Excelsior MN) Sundeen Kelvin D. (Eagan, Perforated, stable, water soluble film container for detersive compositions.
Gallagher Francis G. (Wilmington DE) Shin Hyunkook (Wilmington DE) Tietz Raymond F. (Wilmington DE), Polyester blends and their use in compostable products such as disposable diapers.
Gallagher Francis G. (Wilmington DE) Hamilton Cathy J. (Wilmington DE) Hansen Steven M. (Kinston NC) Shin Hyunkook (Wilmington DE) Tietz Raymond F. (Wilmington DE), Polyesters and their use in compostable products such as disposable diapers.
Gallagher Francis G. (Wilmington DE) Hamilton Cathy J. (Wilmington DE) Hansen Steven M. (Kinston NC) Shin Hyunkook (Wilmington DE) Tietz Raymond F. (Wilmington DE), Polyesters and their use in compostable products such as disposable diapers.
Romesser James A. (Wilmington DE) Shin Hyunkook (Wilmington DE) Tietz Raymond F. (Wilmington DE), Polyesters and their use in compostable products such as disposable diapers.
Kimura Kunio (Ohtsu JPX) Ito Takeshi (Ohtsu JPX) Aoyama Tomohiro (Ohtsu JPX) Uno Keiichi (Ohtsu JPX) Hotta Kiyoshi (Ohtsu JPX) Arichi Minako (Ohtsu JPX), Polymer containing lactic acid as its constituting unit and method for producing the same.
Van Luu Phuong ; Worry Gary ; Marinack Robert J. ; Ostrowski Henry S. ; Bhat Dinesh M., Prewettable high softness paper product having temporary wet strength.
Bijen Jan M. J. M. (Munstergeleen NLX) Jansen Johann J. (Nieuwstadt NLX), Process and apparatus for the manufacture of fiber-reinforced hydraulically bound articles such as cementitious articles.
Farris Richard J. (428 Chesterfield Rd. Northampton (Leeds) MA 01053) Cohen Yachin (3 Manila Street Haifa CA ILX) DeTeresa Steven J. (874 Adams Ave. Livermore CA 94550), Process for fabricating novel compostes based on reinforcement with microfibrillar networks of rigid-rod polymers.
Finch Valerie V. (Neenah WI) Glaug Frank S. (Appleton WI) Olson Christopher P. (Neenah WI) Ratliff Kathleen I. (Neenah WI) Sheldon Donald A. (Appleton WI), Process for making a child\s mitt wipe.
Damrow Paul A. (Walnut Creek CA) Mahoney Robert D. (Danville CA) Beck H. Nelson (Walnut Creek CA) Sonnenschein Mark F. (Antioch CA), Process for making a microporous membrane from a blend containing a poly(etheretherketone)-type polymer, an amorphous po.
Atlas Sheldon M. (211 Central Park West New York NY 10024), Process for producing a shaped article, such as fiber composed of a hydrophobic polymer and a hydrophilic polymer.
Wenzel Wolfgang (Bergisch-Gladbach DEX) Mertens Gnter (Leverkusen DEX) Dieterich Dieter (Leverkusen DEX), Process for the preparation of stable aqueous dispersions of oligourethanes or polyurethanes and their use as coating co.
Pluyter Pieter B. (Utrecht CA NLX) Smith Paul (St. Barbara CA) Van Unen Lambert H. T. (Heerlen NLX) Rutten Hendrikus J. J. (Maastricht NLX), Process of making microporous films of UHMWPE.
Beck Henry N. (Walnut Creek CA) Mahoney Robert D. (Danville CA) Wan Hawk S. (Antioch CA) Chau Chieh-Chun (Midland MI) Finney Timothy M. (Midland MI) Wessling Ritchie A. (Berkeley CA) Kawamoto Jiro (W, Process of making microporous hollow fiber or film membrane of poly(phenylene sulfide) (PPS).
Mahoney Robert D. (Danville CA) Beck H. Nelson (Walnut Creek CA) Lundgard Richard A. (Antioch CA) Wan Hawk S. (Antioch CA) Kawamoto Jiro (Walnut Creek CA) Sonnenschein Mark F. (Antioch CA), Process of making microporous membranes from poly(etheretherketone)-type polymers and low melting point crystallizable p.
Bernstein, Philip; Coffey, James P.; Varker, Alan E.; Arms, John T.; Clark, William D. K.; Goodell, Paul D., Production of a polymeric active composition.
O'Neill ; George J. ; Pacifici ; James G., Radiation crosslinkable polyester and polyesteramide compositions containing sulfonate groups in the form of a metallic.
Glaug Frank S. (Appleton WI) Olson Christopher P. (Neenah WI) Ratliff Kathleen I. (Neenah WI) Sheldon Donald A. (Appleton WI) Finch Valerie V. (Neenah WI) Collier ; IV L. Warren (Roswell GA), Reusable dispenser and a plurality of disposable child mitt wipes contained therein.
Dake ; Timothy William ; Clunie ; James Spence ; Early ; Allen Dale, Skin cleansing product having low density wiping zone treated with a lipophilic cleansing emollient.
Kim Hyo Y. (Kyungki-Do KRX) Hwang Ki H. (Kyungki-Do KRX) Chae Hoon (Kyungki-Do KRX) Sho Soo I. (Seoul KRX) Jun Jung N. (Kungki-Do KRX), Thermoplastic biodegradable resins and a process of preparation thereof.
Goldman Leonard J. (Gainesville FL) Roesch Susan M. (Gainesville FL), Water dispersible formulations and materials and methods for influencing their water dispersibility.
Buckingham Anne Marie (Midland MI) Estes Tara Nicole (Midland MI) Gee Michael Bradley (Midland MI) Selley David Brian (Midland MI) Smith Janet Mary (Bay City MI), Water repellent composition.
Brady Francis (Bethlehem PA) Raykovitz Gary (Flemington NJ) Puletti Paul (Pittstown NJ) Kauffman Thomas (Easton PA) Schoenberg Jules (Scotch Plains NJ), Water sensitive hot melt adhesives for nonwoven applications.
Anderson Stewart C. (Eden Prairie MN) Malmsten Richard (Vadnais Heights MN), Water soluble alcohol based nonwoven binder for water swellable, soluble or sensitive fibers.
Koubek Timothy C. (Clinton NJ) Puletti Paul P. (Pittstown NJ) Wieczorek ; Jr. Joseph (Flemington NJ), Water-borne, water redispersible, laminating adhesives for nonwoven applications.
Koubek Timothy C. (Clinton NJ) Puletti Paul P. (Pittstown NJ) Wieczorek ; Jr. Joseph (Flemington NJ), Water-borne, water redispersible, laminating adhesives for nonwoven applications.
Takeuchi Naohito,JPX ; Konishi Takayoshi,JPX, Water-disintegratable fibrous sheet containing fibers having different fiber lengths and process for producing the same.
Kauffman Thomas F. (Easton PA) Sharak Matthew L. (Franklin Park NJ) Schmidt ; Jr. Robert C. (Green Meadows NJ), Water-sensitive rubber-based hot melt adhesives.
Hansen Michael R. (Seattle WA) Young ; Sr. Richard H. (Federal Way WA), Wet laid fiber sheet manufacturing with reactivatable binders for binding particles to fibers.
Johnson Dale H. (Greer SC) Miller Joseph H. (Greenville SC) Propp Jack H. (Oshkosh WI) Turoski Victor (Neenah WI), Wet wiper natural acid preservation system.
Johnson Dale H. (Greer SC) Miller Joseph H. (Greenville SC) Propp Jack H. (Oshkosh WI) Turoski Victor (Neenah WI), Wet wiper natural acid preservation system.
Garavaglia Arthur E. (Alpharetta GA) MacDonald John G. (Decatur GA) Nohr Ronald S. (Roswell GA) Perkins Cheryl A. (Roswell GA), Wettable polymeric fabrics with durable surfactant treatment.
Viazmensky, Helen; Davis, Martyn Reginald Searle; Riehle, Richard J.; Putnam, Marc Christopher; Goldstein, Joel E.; Ballas, Jerry; Choi, Doeung David, Dispersible articles and methods of making the same.
Lang,Frederick J.; Chang,Yihua; Chen,Franklin M.; Dellerman,Paige A.; Jackson,David M.; Johnson,Eric D.; Lindsay,Jeffrey D.; Mumick,Pavneet S.; Pomplun,William S.; Rivera,Ligia A.; Schick,Kim G.; Schultz,Walter T.; Shah,Varsha K.; Soerens,Dave A.; Wang,Kenneth Y, Ion-sensitive, water-dispersible polymers, a method of making same and items using same.
Amundson, John David; Hendrickson, William A.; Drath, David J.; Rueb, Christopher J.; Finney, John Michael, Microencapsulated delivery vehicle having an aqueous core.
Amundson, John David; Makoui, Kambiz Bayat; Abuto, Frank P.; Jackson, David Martin; Day, Jenny L., Supersaturated solutions using crystallization enthalpy to impact temperature change to wet wipes.
Amundson, John David; Abuto, Frank P.; Clare, Timothy P.; Nelson, Michael Joseph; Milner, James Dell; Joseph, Wael R.; McDonald, Duane Lyle; Velazquez, Herb Flores, Wet wipe dispensing system for dispensing warm wet wipes.
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