Formable bright film having discontinuous metallic layers
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-015/00
B32B-015/04
B32B-015/02
B32B-027/00
B32B-027/06
출원번호
US-0927753
(2001-08-10)
발명자
/ 주소
Fields, Thomas R.
출원인 / 주소
Soliant LLC
대리인 / 주소
Kennedy Covington Lobdell &
인용정보
피인용 횟수 :
3인용 특허 :
57
초록▼
The invention is a formable, bright metallized laminate that has superior optical and deformation properties. The metallized laminate is made from a plurality of discontinuous metal island layers deposited on a formable clear coat film. The invention is also a method that includes depositing a first
The invention is a formable, bright metallized laminate that has superior optical and deformation properties. The metallized laminate is made from a plurality of discontinuous metal island layers deposited on a formable clear coat film. The invention is also a method that includes depositing a first discontinuous layer of metal islands upon a formable clear coat film and then depositing a second discontinuous layer of metal islands onto the first discontinuous layer of metal islands.
대표청구항▼
1. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between
1. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, and wherein said formable clear coat film has a microscopically-smooth surface, wherein the microscopically-smooth surface of said formable dear coat film has a roughness average of less than about 0.75 micron. 2. A metallized laminate according to claim 1, wherein said formable clear coat film is a tinted clear coat film.3. A metallized laminate according to claim 1, wherein said formable clear coat film has a graphic design pattern applied to it.4. A metallized laminate according to claim 1, wherein said formable clear coat film comprises polyvinyl fluoride.5. A metallized laminate according to claim 1, wherein said formable dear coat film comprises polyvinylidene difluoride.6. A metallized laminate according to claim 1, wherein said formable clear coat film is a polymeric composition selected from the group consisting of fluoropolymers, acrylic polymers, polyurethanes, ionomers, polycarbonates, polyolefins, polyethylene glycol-modified polyesters, polyamide polymers, and copolymers, blends, and alloys that include these polymeric compositions.7. A metallized laminate according to claim 1, wherein said formable clear coat film comprises between about 10 and 70 weight percent of an acrylic polymer and between about 30 and 90 weight percent of a fluoropolymer.8. A metallized laminate according to claim 7, wherein said formable clear coat film comprises between about 30 and 50 weight percent of an acrylic polymer and between about 50 and 70 weight percent of a fluoropolymer comprising polyvinylidene difluoride.9. A metallized laminate according to claim 1, said first discontinuous metal layer having a first surface that is contiguous to said formable clear coat film, and a second surface that is contiguous to said second discontinuous metal layer, wherein said second surface of said first metal layer includes a microscopic transitional sublayer.10. A metallized laminate according to claim 9, wherein said microscopic transitional sub-layer is a plasma-treated sublayer.11. A metallized laminate according to claim 9, wherein said microscopic transitional sub-layer is a deposited metal oxide sub-layer.12. A metallized laminate according to claim 11, wherein the composition of said microscopic transitional metal oxide sublayer is an oxide of the metal that forms said first discontinuous layer of metal islands.13. A metallized laminate according to claim 11, wherein the composition of said microscopic transitional metal oxide sub-layer is an oxide of a metal that is different from the metal that forms said first discontinuous layer of metal islands.14. A metallized laminate according to claim 1, wherein said first discontinuous metal layer is selected from the group consisting of indium, tin, and alloys and blends thereof.15. A metallized laminate according to claim 1, wherein said first discontinuous metal layer and said second discontinuous metal layer are selected from the group consisting of aluminum, cadmium, cobalt, copper, chromium, gallium, gold, indium, iron, nichrome, nickel, palladium, platinum, rhodium, stainless steel, tin, zinc, and alloys and blends containing these metals.16. A metallized laminate according to claim 1, wherein said second discontinuous metal layer has the same composition as said first discontinuous metal layer.17. A metallized laminate according to claim 1, wherein said second discontinuous metal layer has a different composition from said first discontinuous metal layer.18. A metallized laminate according to claim 1, wherein said second discontinuous metal layer comprises metal islands having an average width of less than about 400 nm.19. A metallized laminate according to claim 1, wherein said second discontinuous metal layer comprises metal islands having an average width of less than about 200 nm.20. A metallized laminate according to claim 1, wherein said second discontinuous metal layer comprises metal islands having an average width of less than about 100 mm.21. A metallized laminate according to claim 1, further comprising at least one additional discontinuous layer of metal islands positioned between said first discontinuous metal layer and said second discontinuous metal layer.22. A metallized laminate according to claim 21, wherein:all discontinuous metal layers are contiguous; and said first discontinuous metal layer and each said additional discontinuous metal layer have a first surface that is nearer the formable clear coat film and a second surface that is on the side opposite to the side that is nearer the formable clear coat film, wherein each said second surface comprises a microscopic transitional sublayer. 23. A metallized laminate according to claim 1, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer.24. A metallized laminate according to claim 23, wherein said adhesive layer comprises a pressure-sensitive adhesive.25. A metallized laminate according to claim 23, wherein said adhesive layer comprises a heat-reactive adhesive.26. A metallized laminate according to claim 23, wherein said adhesive layer comprises a crosslinking adhesive system.27. A metallized laminate according to claim 23, wherein said adhesive layer comprises a multicomponent adhesive.28. A metallized laminate according to claim 23, wherein said adhesive layer comprises polyurethane.29. A metallized laminate according to claim 23, wherein said adhesive layer comprises acrylic.30. A metallized laminate according to claim 23, wherein:said adhesive layer comprises a polyurethane layer and an acrylic layer; and said polyurethane layer of said adhesive layer is positioned between said second discontinuous metal layer and said acrylic layer of said adhesive layer. 31. A metallized laminate according to claim 23, wherein:said adhesive layer comprises a polyurethane layer, an acrylic layer, and a chlorinated polyolefin layer; said polyurethane layer is positioned between said second discontinuous metal layer and said acrylic layer; and said acrylic layer is positioned between said polyurethane layer and said chlorinated polyolefin layer. 32. A metallized laminate according to claim 23, wherein:said adhesive layer comprises a layer made of an acrylic/polyurethane blend, and a chlorinated polyolefin layer; and said acrylic/polyurethane layer is positioned between said second discontinuous metal layer and said chlorinated polyolefin layer. 33. A metallized laminate according to claim 23, further comprising a thermoplastic backing layer placed on said adhesive layer.34. A metallized laminate according to claim 33, wherein said thermoplastic backing layer is selected from the group consisting of polyvinyl chloride, thermoplastic olefins, polycarbonates, acrylonitrile-butadiene-styrene copolymers, polystyrene, polyamide polymers, polyethylene, polypropylene, and copolymers, blends, and alloys including these polymeric compositions.35. A metallized laminate according to claim 33, wherein the metallized laminate incorporates a single tinted layer selected from the group consisting of said clear coat film, said adhesive layer, and said thermoplastic backing layer.36. A metallized laminate according to claim 1, further comprising an adhesive layer contiguously positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer.37. A metallized laminate according to claim 36, further comprising a thermoplastic backing layer contiguously positioned on said adhesive layer, on the side opposite to the side nearer said second discontinuous metal layer, wherein said adhesive layer comprises polyurethane and said thermoplastic backing layer is selected from the group consisting of polyvinyl chloride and acrylonitrile-butadiene-styrene copolymers.38. A metallized laminate according to claim 36, further comprising a thermoplastic backing layer; and wherein said adhesive layer comprises a polyurethane layer and an acrylic layer, said polyurethane layer of said adhesive layer being contiguously positioned between said second discontinuous metal layer and said acrylic layer of said adhesive layer; and wherein said thermoplastic backing layer comprises an acrylonitrile-butadiene-styrene copolymer layer contiguously positioned on said acrylic layer of said adhesive layer.39. A metallized laminate according to claim 36, further comprising a thermoplastic backing layer; andwherein said adhesive layer comprises a polyurethane layer, an acrylic layer, and a chlorinated polyolefin layer, said polyurethane layer being contiguously positioned between said second discontinuous metal layer and said acrylic layer, and said acrylic layer being contiguously positioned between said polyurethane layer and said chlorinated polyolefin layer; and wherein said thermoplastic backing layer comprises a thermoplastic olefin layer contiguously positioned on said chlorinated polyolefin layer of said adhesive layer. 40. A metallized laminate according to claim 36, further comprising a thermoplastic backing layer;wherein said adhesive layer comprises an acrylic/polyurethane layer and a chlorinated polyolefin layer, said acrylic/polyurethane layer being contiguously positioned between said second discontinuous metal layer and said chlorinated polyolefin layer; and wherein said thermoplastic backing layer comprises a thermoplastic olefin layer contiguously positioned on said chlorinated polyolefin layer of said adhesive layer. 41. A metallized laminate according to claim 1, further comprising at least one additional formable clear coat film positioned on said formable clear coat film, on the side opposite to the side nearer said first discontinuous metal layer.42. A metallized laminate according to claim 1, further comprising an extensible mask layer on the surface of said formable clear coat film on the side opposite to the side nearer said first discontinuous metal layer.43. A metallized laminate according to claim 1, further comprising a thermoplastic leveling layer that is positioned between said formable clear coat film and said first discontinuous metal layer.44. A metallized laminate according to claim 43, wherein said thermoplastic leveling layer comprises polyvinyl fluoride and said formable dear coat film comprises polyvinylidene difluoride.45. A metallized laminate according to claim 43, further comprising a thermoplastic primer layer positioned between said formable clear coat film and said leveling layer.46. A part formed from the formable metallized laminate of claim 1.47. A part according to claim 46 that has been formed using a technique selected from the group consisting of injection molding, blow molding, compression molding, thermoforming, vacuum forming, in-mold forming, and extrusion lamination.48. A formable, bright metallized laminate, comprising:a formable polymeric dear coat film; a first discontinuous layer of metal islands deposited on said clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said clear coat film and said second discontinuous layer of metal islands; wherein said first discontinuous metal layer has a first surface that is contiguous to said formable clear coat film, and a second surface that is contiguous to said second discontinuous metal layer, wherein said second surface of said first metal layer includes a microscopic transitional sub-layer. 49. A metallized laminate according to claim 48, wherein said microscopic transitional sub-layer is a plasma-treated sub-layer.50. A metallized laminate according to claim 48, wherein said microscopic transitional sublayer is a deposited metal oxide sub-layer.51. A metallized laminate according to claim 48, wherein said second discontinuous metal layer comprises metal islands having an average width of less than about 200 nm.52. A metallized laminate according to claim 48, wherein said second discontinuous metal layer comprises metal islands having an average width of less than about 100 nm.53. A metallized laminate according to claim 48, wherein said formable clear coat film is a polymeric composition selected from the group consisting of fluoropolymers, acrylic polymers, polyurethanes, ionomers, polycarbonates, polyolefins, PEG-modified polyesters, polyamide polymers, and copolymers, blends, and alloys that include these polymeric compositions.54. A metallized laminate according to claim 48, wherein said first discontinuous metal layer and said second discontinuous metal layer are selected from the group consisting of aluminum, cadmium, cobalt, copper, chromium, gallium, gold, indium, iron, nichrome, nickel, palladium, platinum, rhodium, stainless steel, tin, zinc, and alloys and blends containing these metals.55. A metallized laminate according to claim 48, further comprising an additional formable clear coat film positioned on said formable clear coat film, opposite said first discontinuous metal layer.56. A metallized laminate according to claim 48, further comprising an adhesive layer placed on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer.57. A metallized laminate according to claim 56, further comprising a thermoplastic backing layer placed on said adhesive layer.58. A part formed from the metallized laminate of claim 48.59. A formable, bright metallized laminate, comprising:a formable clear coat film; and a plurality of discontinuous metal island layers deposited on said clear coat film, said plurality of discontinuous metal island layers comprising a first outer discontinuous layer of metal islands that is deposited on said dear coat film, a second outer discontinuous layer of metal islands, and at least one inner discontinuous layer of metal islands positioned between said first and second outer discontinuous metal layers. 60. A metallized laminate according to claim 59, wherein said formable clear coat film comprises polyvinyl fluoride.61. A metallized laminate according to claim 59, wherein said-formable clear coat film comprises polyvinylidene difluoride.62. A metallized laminate according to claim 59, wherein said formable clear coat film is a polymeric composition selected from the group consisting of fluoropolymers, acrylic polymers, polyurethanes, ionomers, polycarbonates, polyolefins, PEG-modified polyesters, polyamide polymers, and copolymers, blends, and alloys including these polymeric compositions.63. A metallized laminate according to claim 59, wherein said formable clear coat film comprises between about 10 and 70 weight percent of an acrylic polymer and between about 30 and 90 weight percent of fluoropolymer.64. A metallized laminate according to claim 59, wherein at least one of said plurality of discontinuous metal layers is selected from the group consisting of aluminum, cadmium, cobalt, copper, chromium, gallium, gold, indium, iron, nichrome, nickel, palladium, platinum, rhodium, stainless steel, tin, zinc, and alloys and blends containing these metals.65. A metallized laminate according claim 59, further comprising a thermoplastic leveling layer that is positioned between said formable clear coat film and said first outer discontinuous layer, wherein said thermoplastic leveling layer comprises polyvinyl fluoride and said formable clear coat film comprises polyvinylidene difluoride.66. A metallized laminate according to claim 59, wherein the layers defining said plurality of discontinuous metal island layers are contiguous with one another.67. A metallized laminate according to claim 66, wherein:said first outer discontinuous metal layer and each said inner discontinuous metal layer have a first surface that is nearer the formable clear coat film and a second surface that is on the side opposite to the side that is nearer the formable clear coat film; and each said second surface comprises a microscopic transitional sublayer. 68. A metallized laminate according to claim 67, wherein each said microscopic transitional sublayer is selected from the group consisting of a plasma-treated sublayer and a deposited metal oxide sublayer.69. A metallized laminate according to claim 59, wherein said second outer discontinuous metal layer comprises metal islands having an average width of less than about 400 nm.70. A metallized laminate according to claim 59, wherein said second outer discontinuous metal layer comprises metal islands having an average width of less than about 200 nm.71. A metallized laminate according to claim 59, wherein said second outer discontinuous metal layer comprises metal islands having an average width of less than about 100 nm.72. A metallized laminate according to claim 59, further comprising an adhesive layer positioned on said second outer discontinuous metal layer, on the side opposite to the side that is nearer said formable clear coat film.73. A metallized laminate according to claim 72, wherein said adhesive layer is selected from the group consisting of pressure-sensitive adhesives, heat-reactive adhesives, crosslinking adhesives, and multicomponent adhesives.74. A metallized laminate according to claim 72, wherein said adhesive layer comprises polyurethane.75. A metallized laminate according to claim 72, wherein said adhesive layer comprises acrylic.76. A metallized laminate according to claim 72, further comprising a thermoplastic backing layer placed on said adhesive layer, wherein said backing layer is selected from the group consisting of polyvinyl chloride, thermoplastic olefins, polycarbonates, acrylonitrile butadiene-styrene copolymers, polystyrene, polyamide polymers, polyethylene, polypropylene, and copolymers, blends, and alloys including these polymeric compositions.77. A metallized laminate according to claim 76, wherein the metallized laminate incorporates a single tinted layer selected from the group consisting of said clear coat film, said adhesive layer, and said thermoplastic backing layer.78. A metallized laminate according to claim 59, further comprising at least one additional formable clear coat film positioned on said formable clear coat film, on the side opposite to the side that is nearer said first outer discontinuous metal layer.79. A metallized laminate according to claim 59, further comprising an extensible mask layer on the surface of said formable clear coat film, on the side opposite to the side that is nearer said first outer discontinuous metal layer.80. A part formed from the formable metallized laminate of claim 59.81. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, and wherein said formable clear coat film comprises between about 10 and 70 weight percent of an acrylic polymer and between about 30 and 90 weight percent of a fluoropolymer. 82. The metallized laminate according to claim 81, wherein said formable clear coat film comprises between about 30 and 50 weight percent of an acrylic polymer and between about 50 and 70 weight percent of a fluoropolymer comprising polyvinylidene difluoride.83. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, said first discontinuous metal layer having a first surface that is contiguous to said formable clear coat film, and a second surface that is contiguous to said second discontinuous metal layer, wherein said second surface of said first metal layer includes a microscopic transitional sub-layer. 84. The metallized laminate according to claim 83, wherein said microscopic transitional sublayer is a plasma-treated sub-layer.85. The metallized laminate according to claim 83, wherein said microscopic transitional sublayer is a deposited metal oxide sublayer.86. The metallized laminate according to claim 85, wherein the composition of said microscopic transitional metal oxide sublayer is an oxide of the metal that forms said first discontinuous layer of metal islands.87. The metallized laminate according to claim 85, wherein the composition of said microscopic transitional metal oxide sublayer is an oxide of a metal that is different from the metal that forms said first discontinuous layer of metal islands.88. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising at least one additional discontinuous layer of metal islands positioned between said first discontinuous metal layer and said second discontinuous metal layer. 89. The metallized laminate according to claim 88, wherein:all discontinuous metal layers are contiguous; and said first discontinuous metal layer and each said additional discontinuous metal layer have a first surface that is nearer the formable clear coat film and a second surface that is on the side opposite to the side that is nearer the formable clear coat film, wherein each said second surface comprises a microscopic transitional sub-layer. 90. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises a pressure-sensitive adhesive. 91. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises a heat-reactive adhesive. 92. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises a crosslinking adhesive system. 93. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises a multicomponent adhesive. 94. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises polyurethane. 95. A formable, bright metallized laminate, comprisinga formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein said adhesive layer comprises acrylic. 96. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein: said adhesive layer comprises a polyurethane layer and an acrylic layer; and said polyurethane layer of said adhesive layer is positioned between said second discontinuous metal layer and said acrylic layer of said adhesive layer. 97. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein: said adhesive layer comprises a polyurethane layer, an acrylic layer, and a chlorinated polyolefin layer; said polyurethane layer is positioned between said second discontinuous metal layer and said acrylic layer; and said acrylic layer is positioned between said polyurethane layer and said chlorinated polyolefin layer. 98. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, wherein: said adhesive layer comprises a layer made of an acrylic/polyurethane blend, and a chlorinated polyolefin layer; and said acrylic/polyurethane layer is positioned between said second discontinuous metal layer and said chlorinated polyolefin layer. 99. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer contiguously positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, further comprising a thermoplastic backing layer; and wherein said adhesive layer comprises a polyurethane layer and an acrylic layer, said polyurethane layer of said adhesive layer being contiguously positioned between said second discontinuous metal layer and said acrylic layer of said adhesive layer; and wherein said thermoplastic backing layer comprises an acrylonitrile-butadiene-styrene copolymer layer contiguously positioned on said acrylic layer of said adhesive layer. 100. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable dear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer contiguously positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, further comprising a thermoplastic backing layer; and wherein said adhesive layer comprises a polyurethane layer, an acrylic layer, and a chlorinated polyolefin layer, said polyurethane layer being contiguously positioned between said second discontinuous metal layer and said acrylic layer, and said acrylic layer being contiguously positioned between said polyurethane layer and said chlorinated polyolefin layer; and wherein said thermoplastic backing layer comprises a thermoplastic olefin layer contiguously positioned on said chlorinated polyolefin layer of said adhesive layer. 101. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising an adhesive layer contiguously positioned on said second discontinuous metal layer, on the side opposite to the side nearer said first discontinuous metal layer, further comprising a thermoplastic backing layer; wherein said adhesive layer comprises an acrylic/polyurethane layer and a chlorinated polyolefin layer, said acrylic/polyurethane layer being contiguously positioned between said second discontinuous metal layer and said chlorinated polyolefin layer; and wherein said thermoplastic backing layer comprises a thermoplastic olefin layer contiguously positioned on said chlorinated polyolefin layer of said adhesive layer. 102. A formable, bright metallized laminate, comprising:a formable clear coat film; a first discontinuous layer of metal islands deposited on said formable clear coat film; and a second discontinuous layer of metal islands, wherein said first discontinuous layer of metal islands is positioned between said formable clear coat film and said second discontinuous layer of metal islands, further comprising a thermoplastic leveling layer that is positioned between said formable clear coat film and said first discontinuous metal layer. 103. The metallized laminate according to claim 102, wherein said thermoplastic leveling layer comprises polyvinyl fluoride and said formable clear coat film comprises polyvinylidene difluoride.104. The metallized laminate according to 102, further comprising a thermoplastic primer layer positioned between said formable clear coat film and said leveling layer.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (57)
Winton, Robert A.; Christie, Eugene F., Aluminum-fluoropolymer laminate.
Ellison Thomas M. (Charlotte NC) Winton Robert A. (Charlotte NC), Decorative sheet material simulating the appearance of a base coat/clear coat paint finish.
Ellison Thomas M. (Charlotte NC) Winton Robert A. (Charlotte NC), Decorative sheet material simulating the appearance of a base coat/clear coat paint finish.
Papendick Gerd (New Market CAX) Fiege Wilfred (Mount Albert CAX) Power Alan J. (Bradford CAX), Exterior automotive component with pigmented substrate and clear coating.
Johnson John R. (Valparaiso IN) Truog Keith L. (Crown Point IN) Enlow Howard H. (Munster IN) Buehne William J. (Hammond IN) Young Frederick (Schererville IN), Exterior automotive laminate with pressure sensitive adhesive.
Reece Edwin G. ; Reece Robert A. ; Masserang Gregory J., Method and apparatus for forming thick wall plastic sheets having formable decorative film layers.
Ellison Thomas M. (Charlotte NC) Winton Robert A. (Charlotte NC), Method of making a decorative sheet material simulating the appearance of a base coat/clear coat paint finish.
Bragaw ; Jr. Chester G. (Kennett Square PA) Concannon Thomas P. (Newtown Square PA) Davis Robert F. (Wilmington DE), Method of making fluoropolymer laminates.
Benson John E. (Rochester NY) Maier Larry K. (Rochester NY) Reafler Gerald G. (Rochester NY), Method of manufacturing a dried, thermoformable, paint-coated sheet material having gloss and smoothness.
Lutz William Gary (Linwood MI) Motter Gregg Allen (Midland MI) Wheatley John Allen (Midland MI), Polymeric reflective materials utilizing a back light source.
Lein Maureen M. ; Lord Ellen ; Eisfeller Richard C. ; Dukeshire Mark E. ; Finch Richard W. ; Poliquin Alfred T. ; Vachon Gerard L. ; Clark John B. ; McLaughlin Stephen P. ; Sparling Robert D., Radiation cured island coating system.
Frankel, Joan M.; Hagen, Kevin D.; Johnson, Michael A.; North, Diane; Phipps, James A.; Sherman, Audrey A.; Tai, Huiwen, Conformable reflective film having specified reflectivity when stretched at room temperature.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.