TH11976B - Optical phase retardant film - Google Patents

Abstract

This invention makes an optical phase retardant film composed of A polymer containing at least approximately 40 percent by weight of chloro-trifluoroethylene by weight. with halogen elements in which (a) the film has nx, ny and nz refractive indexes in conjunction with the X, y, and z axes of the film; (b) the said x and y axes are in the plane of the film and perpendicular to each other. (c) The z-axis is perpendicular to the plane of the film, and (d) nx>nw,>nz. The optical phase retardant film is useful in liquid crystal display devices. A liquid crystal display device consisting of (a) a first polarizer, (b) a liquid crystal shell with a transparent electrode, (c) an optical phase retardant film composed of a polymer. containing at least 40 percent chlorotrifluoroethylene and (d) the second polarizer. which the liquid crystal shell and The light retardant film is between the first and second polarizers.

Claims (2)

1. Optical phase retardant film to show liquid crystals containing chloro-containing polymers. Trifluoroethylene is a constituent of at least approximately 40 percent by weight. 2. Claim 1 optical phase retardant film, of which the film is approximately 10 to approximately 100 microns thick. The optical phase delay of claim 1 which the polymer These include 100 percent by weight of such chlorotrifluoroethylene or copolymer of such chlorotrifluoroethylene. and at least one comonomer can be selected from the group consisting of hexafluoropropylene, hexafluoroisobutylene, vinylidine fluoride, tetrafluoroethylene n, perfluoropropylvinyl ether, perfluorobutylethylene and ethylene 4. The optical phase retardant film of Claim 1 which Polymer These include 100 percent by weight of such chlorotrifluoroethylene or copolymer of such chlorotrifluoroethylene. and at least one comonomer can be selected from the group consisting of Vinyllidine fluoride, tetrafluoroethylene and ethylene. 5. Optical phase retardant film of claim 1 in which the film is stabilized. to heat for use or Store at T1 by heating the film to a temperature at least equal to T1 and keeping the film at such temperature T1 for approximately 0.1 to approximately 12 hours. Right 1, where the film is thermally stabilized by (a) heating the film to a temperature of at least T2 of approximately 100 °C and maintaining the film at such temperature T2 at a pressure of approximately 2. to approximately 2000 psi for approximately 0.1 to approximately 8 hours; (b) cooling of the film to at least approximately 1 °C/s to T3 temperatures below 40 °C; and (c) treatment. The film is applied at a temperature of T4 where T3 is less than or equal to T4 < T2 at a pressure of approximately 2 pounds per square inch. for approximately 0.1 to approximately 12 hours. 7. Optical phase retardant film to display liquid crystals containing halogenated polymers. It is an element in which (a) the film has refractive indexes nx, ny and nz co-ordinated with the x, y, and z axes of the film; (b) the said x and y axes are in the plane of the film. and perpendicular to each other; (c) such z-axis is perpendicular to the plane of said film, and (d) nx greater than or equal to ny > nz. It is said to have a thickness of approximately 10 to approximately 100 microns. 9. The optical phase retardant film of claim 7 which the polymer with halogens as a constituent, such as polymers with Fluorine is an element 1 0. The optical phase retardant film of claim 7, of which the polymer consists of Polychlorotrifluoroethylene or copolymers of chlorotrifluoroethylene and co-monomers such as at least one of a kind Selectable from the group includes hexafluoropropylene, hexafluoroisobutylene, vinylidine fluoride, tetrafluoride. Roethylene, perfluoropropylvinyl ether, perfluorobutylethylene and ethylene 1 1. Optical phase retardant film of Claim 7, which polymer is composed of poly Chlorotrifluoroethylene or copolymer of chlorotrifluoroethylene and comonomers. at least one species Selected from the group consisted of vinylidine fluoride, tetrafluoroethylene and ethylene 1. 2. The optical phase retardant film of claim 7, which said to have been stabilized against heat for use or Store at T1 by heating the film until to a temperature of at least T1 and such film treatment held at such temperature T1 for approximately 0.1 to approximately 12 h 1. 3. The optical phase retardant film of claim 7 in which the film is thermally stabilized by (a) heating the film to at a temperature of T2 at least about 100°C and maintain the film at such T2 temperature at a pressure of approximately 2 to approximately 2000 pounds per square inch for approximately 0.1 to approximately 8 hours. at least approximately 1 °C/s to T3 temperatures below 40 °C, and (c) treatment of the film at a temperature of T4 where T3 is less than or equal to T4 < T2 at a pressure of approximately 2 to approximately 2000 lb/s. square inch for approximately 0.1 to approximately 12 hours 1 4. The liquid crystal display device consists of (a) the first polarizer; (b) the liquid crystal cell with a transparent electrode; (c) an optical phase retardant film consisting of a polymer containing at least approximately 40 percent by weight of chlorotrifluoroethylene, and (d) the secondary polarizer from which the liquid seal cell and the linear phase retardant film light It is between the first polarizer and The second aforementioned 1 5. Liquid crystal display device of claim 14 in which the aforementioned phase delay film between the aforementioned polarizer and the aforementioned liquid seal cell 1 6.Liquid crystal display device of claim 14 in which the aforementioned phase retardant film between the liquid crystal cells and the second polarizer as mentioned 1. 7. The liquid crystal display device of claim 14, where the film has nx, ny and nz refractive indexes combined with the x, y, and z axes, where (i) aligns Such x and y axes are in the plane of the film. and (ii) the said z-axis is perpendicular to the plane of the film, and (iii) nx greater than or equal to ny > nz 1 8. The liquid crystal display device of claim 14 which the film has Thickness approx. 10 to approx. 100 microns 1 9. Claim 14 liquid crystal display device, of which such polymers consist of 100 percent chlorotrifluoroethylene by weight or copolymer of chlorotrifluoroethylene. such roethylene and at least one comonomer that Choose from groups that consist of hexa. fluoropropylene, hexafluoroisobutylene, vinylidine fluoride, tetrafluoroethylene, perf Fluoropropylvinyl ether, perfluorobutylethylene and ethylene 2 0. Claim 14 liquid crystal display device in which the polymer Such programs consist of Chlorotrifluoroethylene 100% by weight or copolymer of chlorotrifluoride such roethylene and at least one comonomer that Choose from a range including vinylidine fluoride, tetraflu oroethylene and ethylene 2. 1. Claim 14 liquid crystal display device in which the film is stabilized against heat for use or storage at T1 by heating the film until to a temperature of at least T1 and such film treatment kept at T1 for approx. 0.1 to approx. 12 h. 2. A liquid crystal display device of claim 14 in which the film is thermally stabilized by (a) heating the film to a temperature of at least T2 of approximately 100 °C and maintaining it. At such temperature T2 at a pressure of approximately 2 to approximately 2000 pounds per square inch for approximately 0.1 to approximately 8 hours (b) cooling of the film at least approximately 1 °C/s to a lower T3 temperature. 40°C and (c) maintaining the film at a temperature of T4 where T3 is less than or equal to T4 < T2 at a pressure of approximately 2 to approximately 2000 pounds per square inch. for about 0.1 to about 12 hours