Cellulose acylate optical film, producing method thereof, polarizing plate and liquid crystal display using the same

Abstract
A cellulose acylate film comprising a polymer derived from at least a monomer represented by Formula 1 and a cellulose acylate having an acyl group of 3 or more carbon atoms, wherein a total number of carbon atoms contained in the acyl groups in one it of the cellulose acylate is larger than 6.0 and not larger than 7.5, wherein the total number of carbon atoms represents a sum of each product of a number of carbon atoms of each acyl group and a substitution degree of the acyl group, wherein the substitution degree represents an average number of 3 hydroxyl groups replaced with an acyl group in one glucose unit of the cellulose acylate:
Description
Claims
  • 1. A cellulose acylate optical film comprising a polymer derived from at least a monomer represented by Formula 1 and a cellulose acylate having an acyl group of 3 or more carbon atoms, wherein a total number of carbon atoms contained in the acyl groups in one glucose unit of the cellulose acylate is larger than 6.0 and not larger than 7.5, wherein the total number of carbon atoms represents a sum of each product of a number of carbon atoms of each acyl group and a substitution degree of the acyl group, wherein the substitution degree represents an average number of 3 hydroxyl groups replaced with an acyl group in one glucose unit of the cellulose acylate:
  • 2. The cellulose acylate optical film of claim 1, wherein a weight average molecular weight of the polymer is 1000 to 20000.
  • 3. The cellulose acylate optical film of claim 1, wherein a content of a monomer unit represented by Formula 1 is 10 to 70% by weight based on a weight of the polymer derived from at least the monomer represented by Formula 1.
  • 4. The cellulose acylate optical film of claim 1, wherein the polymer derived from at least a monomer represented by Formula 1 is a copolymer derived from at least a hydrophilic monomer having an ethylenically unsaturated group and a monomer represented by Formula 1.
  • 5. The cellulose acylate optical film of claim 1, wherein the monomer represented by Formula 1 is a monomer represented by Formula 2:
  • 6. The cellulose acylate optical film of claim 1, wherein X in Formula 1 represents —COO—, —OCO—, —NR11CO— or —CONR11—.
  • 7. The cellulose acylate optical film of claim 5, wherein X in Formula 2 represents —COO—, —OCO—, —NR11CO— or —CONR11—.
  • 8. A method to produce a cellulose acylate optical film comprising the steps of: (i) melting a cellulose acylate;(ii) casting the cellulose acylate melt on a cooling drum or an endless belt to form a film;(iii) peeling the film from the cooling drum or the endless belt;(iv) stretching the film; and(v) winding the film to form a roll, wherein(a) the cellulose acylate optical film comprises a polymer derived from at least a monomer represented by Formula 1 and a cellulose acylate having an acyl group of 3 or more carbon atoms; and(b) a total number of carbon atoms contained in the acyl groups in one glucose unit of the cellulose acylate is larger than 6.0 and not larger than 7.5, wherein the total number of carbon atoms represents a sum of each product of a number of carbon atoms of each acyl group and a substitution degree of the acyl group, wherein the substitution degree represents an average number of 3 hydroxyl groups replaced with an acyl group in one glucose unit of the cellulose acylate:
  • 9. A polarizing plate comprising the cellulose acylate optical film of claim 1 provided on at least one surface of a polarizer film.
  • 10. A liquid crystal display comprising the polarizing plate of claim 9 provided at least on one surface of a liquid crystal cell.
Priority Claims (1)
Number Date Country Kind
JP2006-076364 Mar 2006 JP national