A method for treating a substrate is described. In accordance with one aspect, the method includes applying a polymer coating to a substrate, and bringing the polymer coating into contact with a heated surface in a pressure nip while the coating is still in a wet state. Optionally the polymer coatin
A method for treating a substrate is described. In accordance with one aspect, the method includes applying a polymer coating to a substrate, and bringing the polymer coating into contact with a heated surface in a pressure nip while the coating is still in a wet state. Optionally the polymer coating may include a crosslinkable material, and a crosslinking agent may be used to promote crosslinking. The polymer coating replicates the heated surface. A product produced in accordance with the described method is also disclosed. The product is characterized by having subsurface voids within the coating.
대표청구항▼
1. A process for treating a substrate, comprising the steps of: applying to the substrate a film of an aqueous polymer solution, the film having an exposed outer film surface; andimmobilization of the aqueous polymer solution by bringing the aqueous polymer solution into contact with a heated surfac
1. A process for treating a substrate, comprising the steps of: applying to the substrate a film of an aqueous polymer solution, the film having an exposed outer film surface; andimmobilization of the aqueous polymer solution by bringing the aqueous polymer solution into contact with a heated surface so as to form voids having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the film and substantially all of the voids are formed wholly encapsulated within the film, andwherein the step of immobilization includes at least partially drying the aqueous polymer solution. 2. The process of claim 1, wherein the film is in contact with the heated surface for a time interval selected from one of the group consisting of less than about 3 seconds, less than about 2 seconds, and less than about 0.5 seconds. 3. The process of claim 1, wherein the film of aqueous polymer solution is in contact with the heated surface for less than about 3 seconds and wherein the heated surface has a temperature above about 150° C. 4. A process for treating a substrate, comprising the steps of: applying to the substrate a film of an aqueous polymer solution, the film having an exposed outer film surface,immobilization of the aqueous polymer solution by bringing the aqueous polymer solution into contact with a heated surface so as to form voids having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the film and substantially all of the voids are formed wholly encapsulated within the film, andwherein the step of immobilization includes at least partially drying the aqueous polymer solution. 5. The process of claim 4, wherein the film is in contact with the heated surface for a time interval selected from one of the group consisting of less than about 3 seconds, less than about 2 seconds, and less than about 0.5 seconds. 6. The process of claim 4, wherein the film of aqueous polymer solution is in contact with the heated surface for less than about 3 seconds and wherein the heated surface has a temperature above about 150° C. 7. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface,wherein the first coating includes a water soluble polymer and a release agent,bringing the film into contact with a heated surface in nip,the nip having a nip dwell time, a nip local pressure, and a nip average pressure, whereby during a first portion of the nip dwell time, the nip local pressure increases and the film undergoes heating with substantially no vapor formation, and during a second portion of the nip dwell time, the nip local pressure decreases and voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating, andat least partially drying the film. 8. The process of claim 7, wherein the nip dwell time has a range of values selected from one of the group consisting of between about 1 millisecond and about 60 milliseconds, between about 4 milliseconds and about 25 milliseconds, and between about 6 milliseconds and about 10 milliseconds. 9. The process of claim 7, wherein the nip average pressure is in a range selected from the group consisting of between about 70 psi to about 700 psi and between about 150 psi to about 550 psi. 10. The process of claim 7, wherein the heated surface is at a temperature above about 150° C. 11. The process of claim 7, wherein the aqueous polymer solution contains essentially no elastomeric material. 12. The process of claim 7, wherein the substrate includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid. 13. The process of claim 7, wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent. 14. The process of claim 7, wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate. 15. The process of claim 7, further comprising the step of applying a second coating after at least partially drying the film. 16. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface,bringing the film into contact for less than about 3 seconds with a heated surface having a temperature above about 150° C.,wherein the contact comprises a nipped contact with the heated surface,wherein the nipped contact has a nip local pressure associated therewith,wherein the nipped contact comprises a first duration during which the nip local pressure increases and the film undergoes heating with substantially no vapor formation, and a second duration during which the nip local pressure decreases and voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surfacewherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating. 17. The process of claim 16, wherein the first coating includes a water soluble polymer. 18. The process of claim 16, wherein the first coating contains a release agent. 19. The process of claim 16, wherein the first coating contains essentially no elastomeric material. 20. The process of claim 16, wherein the aqueous polymer solution comprises at least about 60% water soluble polymer by dry weight, and up to 10% release agent by dry weight. 21. The process of claim 16, wherein the nipped contact has a dwell time and the dwell time is selected from one of the group consisting of between about 1 millisecond to about 60 milliseconds, between about 4 milliseconds to about 25 milliseconds, and between about 6 milliseconds to about 10 milliseconds. 22. The process of claim 16, wherein the nipped contact has a nip average pressure associated therewith, wherein the nip average pressure is between about 70 psi to about 700 psi. 23. The process of claim 16, further comprising the step of at least partially drying the film. 24. The process of claim 16, wherein the first coating includes a surface with a Sheffield Smoothness in a range selected from one of the group consisting of less than about 200 units and less than about 150 units. 25. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface,wherein the first coating includes a water soluble polymer and a release agent,immobilization of the film by bringing it into contact for less than about 3 seconds with a heated surface with a temperature above about 150° C. so as to cause voids to form having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating, andwherein the step of immobilization includes at least partially drying the film. 26. The process of claim 25, wherein the aqueous polymer solution contains essentially no elastomeric material. 27. The process of claim 25, wherein the substrate includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid. 28. The process of claim 25, wherein the water soluble polymer includes a cross linkable polymer. 29. The process of claim 25, wherein the first coating further comprises a cross linking agent, wherein the cross linking agent comprises at least one of borax, borates, aldehydes, ammonium salts, calcium compounds, and derivatives thereof. 30. The process of claim 25, wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent. 31. The process of claim 25, wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate. 32. The process of claim 25, wherein the release agent includes at least one of wax, petroleum wax, vegetable wax, animal wax, synthetic wax, fatty acid metal soap, metal stearates, long chain alkyl derivatives, fatty esters, fatty amides, fatty amines, fatty acids, fatty alcohols, polymers, polyolefins, silicone polymers, fluoropolymers, natural polymers, fluorinated compounds, fluorinated fatty acids, and combinations thereof. 33. The process of claim 25, further comprising the step of applying a second coating after at least partially drying the film. 34. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface, wherein the first coating includes a water soluble polymer and essentially no elastomeric material;immobilization of the film by bringing it into contact for less than about 3 seconds with a heated surface with a temperature above about 150° C. so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating, andwherein the step of immobilization includes at least partially drying the film. 35. The process of claim 34, wherein the substrate includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid. 36. The process of claim 34, wherein the water soluble polymer includes a cross linkable polymer. 37. The process of claim 34, wherein a cross linking agent is included in the first coating or applied to the first coating, before the film is brought into contact with the heated surface. 38. The process of claim 34, wherein the cross linking agent comprises at least one of borax, borates, aldehydes, ammonium salts, calcium compounds, and derivatives thereof. 39. The process of claim 34, wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent. 40. The process of claim 39, wherein the release agent includes at least one of wax, petroleum wax, vegetable wax, animal wax, synthetic wax, fatty acid metal soap, metal stearates, long chain alkyl derivatives, fatty esters, fatty amides, fatty amines, fatty acids, fatty alcohols, polymers, polyolefins, silicone polymers, fluoropolymers, natural polymers, fluorinated compounds, fluorinated fatty acids, and combinations thereof. 41. The process of claim 34, wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate. 42. The process of claim 34, further comprising the step of applying a second coating after at least partially drying the film. 43. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface,immobilization of the film by bringing it into contact for less than about 3 seconds with a heated surface with a temperature above about 150° C. so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface of the film,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating,wherein the step of immobilization includes at least partially drying the film,wherein the exposed outer film surface after drying has a Sheffield Smoothness of less than about 300 units. 44. The process of claim 43, wherein the film is in contact with the heated surface for a time selected from one of the group consisting of less than about 2 seconds and less than about 0.5 seconds; wherein the substrate comprises a web or a sheet and includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid;wherein the aqueous polymer solution includes a cross linkable polymer and essentially no elastomeric material;wherein a cross linking agent is included in the first coating or applied to the first coating, before the film is brought into contact with the heated surface; wherein the cross linking agent comprises at least one of borax, borates, aldehydes, ammonium salts, calcium compounds, and derivatives thereof;wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent; wherein the release agent includes at least one of wax, petroleum wax, vegetable wax, animal wax, synthetic wax, fatty acid metal soap, metal stearates, long chain alkyl derivatives, fatty esters, fatty amides, fatty amines, fatty acids, fatty alcohols, polymers, polyolefins, silicone polymers, fluoropolymers, natural polymers, fluorinated compounds, fluorinated fatty acids, and combinations thereof;wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate;wherein the first coating surface has a Sheffield Smoothness selected from one of the group consisting of less than about 200 units and less than about 150 units;the process further comprising the step of applying a second coating after at least partially drying the film, wherein the second coating includes at least one of pigments, binders, and fillers. 45. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface, wherein the first coating includes a water soluble polymer, a release agent, and essentially no elastomeric material,immobilization of the film by bringing it into contact for less than about 3 seconds with a heated surface with a temperature above about 150° C. so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating,wherein the step of immobilization includes at least partially drying the film,wherein the exposed outer film surface after drying has a Sheffield Smoothness of less than about 300 units. 46. The process of claim 45, wherein the film is in contact with the heated surface for a time selected from the group consisting of less than about 2 seconds and less than about 0.5 seconds; wherein the substrate comprises a web or a sheet and includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid;wherein the water soluble polymer includes a cross linkable polymer;wherein a cross linking agent is included in the first coating or applied to the first coating, before the film is brought into contact with the heated surface;wherein the cross linking agent comprises at least one of borax, borates, aldehydes, ammonium salts, calcium compounds, and derivatives thereof;wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent which includes at least one of wax, petroleum wax, vegetable wax, animal wax, synthetic wax, fatty acid metal soap, metal stearates, long chain alkyl derivatives, fatty esters, fatty amides, fatty amines, fatty acids, fatty alcohols, polymers, polyolefins, silicone polymers, fluoropolymers, natural polymers, fluorinated compounds, fluorinated fatty acids, and combinations thereof;wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate;wherein the first coating surface has a Sheffield Smoothness selected from one of the group consisting of less than about 200 units or less than about 150 units;the process further comprising the step of applying a second coating after at least partially drying the film, wherein the second coating includes at least one of pigments, binders, and fillers. 47. A process for treating a substrate, comprising the steps of: providing a cellulosic substrate,applying to the substrate a film of aqueous polymer solution, the film having an exposed outer film surface, wherein the aqueous polymer solution comprises at least about 60% water soluble polymer by dry weight, and up to 10% release agent by dry weight,immobilization of the aqueous polymer solution by bringing it into contact for less than about 3 seconds with a heated surface with a temperature above about 150° C. so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the film and substantially all of the voids are formed wholly encapsulated within the film, andwherein the step of immobilization includes at least partially drying the aqueous polymer solution. 48. A process for treating a substrate, comprising the steps of: applying to the substrate a film of an aqueous polymer solution, the film having an exposed outer film surface,bringing the film into contact with a heated surface in a nip,the nip having a nip dwell time, a nip local pressure, and a nip average pressure, whereby during a first portion of the nip dwell time, the nip local pressure increases and the film undergoes heating with substantially no vapor formation, and during a second portion of the nip dwell time, the nip local pressure decreases and voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the film and substantially all of the voids are formed wholly encapsulated within the film, andat least partially drying the film. 49. The process of claim 48, wherein the nip dwell time has a range of values selected from one of the group consisting of between about 1 millisecond and about 60 milliseconds, between about 4 milliseconds and about 25 milliseconds, and between about 6 milliseconds and about 10 milliseconds. 50. The process of claim 48, wherein the nip average pressure is between about 70 psi and about 700 psi. 51. The process of claim 48, wherein the heated surface is at a temperature above about 150° C. 52. A process for treating a substrate, comprising the steps of: applying to the substrate a film of an aqueous polymer solution, the film having an exposed outer film surface;heating the film under a first pressure with substantially no vapor formation; andreducing the first pressure so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the film and substantially all of the voids are formed wholly encapsulated within the film. 53. The process of claim 52, wherein the film is heated by contact with a heated surface. 54. The process of claim 53, wherein the heated surface is at a temperature above about 150° C. 55. The process of claim 52, further comprising the step of at least partly drying the film. 56. The process of claim 52, wherein heating the film under the first pressure, and reducing the first pressure, occur at least partly in a pressure nip. 57. The process of claim 56, wherein the pressure nip is characterized by a nip average pressure between about 70 psi and about 700 psi. 58. The process of claim 56, wherein the pressure nip has a nip dwell time with a range selected from one of the group consisting of between about 1 millisecond and about 60 milliseconds, between about 4 milliseconds and about 25 milliseconds, and between about 6 milliseconds and about 10 milliseconds. 59. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film, the film having an exposed outer film surface;wherein the first coating includes a water soluble polymer and a release agent,heating the film under a first pressure with substantially no vapor formation; andreducing the first pressure so that voids are formed having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer film surface,wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating. 60. The process of claim 59, further comprising the step of at least partly drying the film. 61. The process of claim 59, wherein the film is heated by contact with a heated surface. 62. The process of claim 61, wherein the heated surface is at a temperature above about 150° C. 63. The process of claim 59, wherein heating the film under the first pressure, and reducing the first pressure, occur at least partly in a pressure nip. 64. The process of claim 63, wherein the pressure nip is characterized by a nip average pressure in the range selected from one of the group consisting of between about 70 psi to about 700 psi and between about 150 psi to about 550 psi. 65. The process of claim 63, wherein the pressure nip has a nip dwell time in a range selected from one of the group consisting of between about 1 millisecond to about 60 milliseconds, between about 4 milliseconds to about 25 milliseconds, and between about 6 milliseconds to about 10 milliseconds. 66. The process of claim 59, wherein the aqueous polymer solution contains essentially no elastomeric material. 67. The process of claim 59, wherein the substrate includes at least one of cellulose, paper, paperboard, fabric, fibrous material, porous material, porous film, or polylactic acid. 68. The process of claim 59, wherein the first coating includes by dry weight at least about 60% water soluble polymer and up to 10% release agent. 69. The process of claim 59, wherein the first coating includes at least one of starch, waxy maize, protein, polyvinyl alcohol, casein, gelatin, soybean protein, and alginate. 70. The process of claim 59, further comprising the step of applying a second coating after at least partially drying the film. 71. The process of claim 59, wherein the substrate comprises a web or a sheet. 72. A process for treating a substrate, comprising the steps of: applying to the substrate a first coating of an aqueous polymer solution as a film,wherein the substrate is a cellulosic substrate;bringing the film into contact for less than about 3 seconds with a heated surface having a temperature above about 150° C., wherein the contact comprises a nipped contact with the heated surface wherein the nipped contact has a nip average pressure associated therewith, wherein the nip average pressure is between about 70 psi to about 700 psi,wherein the nipped contact with the heated surface comprises a nip dwell time with a range selected from the group of between about 1 millisecond to about 60 milliseconds, between about 4 milliseconds and about 25 milliseconds, and between about 6 milliseconds and about 10 milliseconds;heating the film under a first pressure with substantially no vapor formation;reducing the first pressure so that the aqueous polymer solution boils and forms voids that remain in the film,and at least partially drying the film;wherein the first coating includes a water soluble polymer containing a release agent and essentially no elastomeric material;wherein the aqueous polymer solution comprises at least about 60% water soluble polymer by dry weight, and up to 10% release agent by dry weight,wherein the first coating includes an exposed outer surface and voids;wherein the voids are defined by the first coating and substantially all of the voids are formed wholly encapsulated within the first coating, the voids having a transverse dimension of more than 5 microns and occupying an area equivalent to more than 50% of the area of the exposed outer surface, andwherein the exposed outer surface has a Sheffield Smoothness selected from the group consisting of less than about 300 units, less than about 200 units, and less than about 150 units.
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