Co-extruded multi-layer polyester films having hydrolytic stability and improved delamination resistance
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-027/08
B32B-027/18
B32B-027/20
B32B-027/36
B32B-037/15
B29C-047/04
B29C-047/06
H01L-031/049
C08L-067/02
C08K-003/013
C08K-003/32
C08K-003/34
C08K-003/36
C08K-005/101
C08K-005/1515
H01L-031/0216
B29C-047/02
B32B-037/14
B32B-043/00
B29C-047/00
C08K-003/30
C08K-003/22
C08K-005/00
B29K-067/00
B29L-031/34
출원번호
US-0024962
(2014-09-23)
등록번호
US-10008617
(2018-06-26)
우선권정보
GB-1317551.8 (2013-10-03)
국제출원번호
PCT/GB2014/052890
(2014-09-23)
국제공개번호
WO2015/049487
(2015-04-09)
발명자
/ 주소
Wright, Tina
Little, Rachel
Brennan, William James
Nelson, Erik Jevon
Hodgson, Mark Russell
Mandokoro, Nori
출원인 / 주소
DuPont Teijin Films U.S. Limited Partnership
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
0인용 특허 :
37
초록▼
A co-extruded multi-layer biaxially oriented polyester film comprising a primary polyester layer and a dissimilar secondary polyester layer adjacent to the primary polyester layer, wherein the primary polyester layer and the secondary polyester layer each comprise a glycidyl ester of a branched mono
A co-extruded multi-layer biaxially oriented polyester film comprising a primary polyester layer and a dissimilar secondary polyester layer adjacent to the primary polyester layer, wherein the primary polyester layer and the secondary polyester layer each comprise a glycidyl ester of a branched monocarboxylic acid, wherein the monocarboxylic acid has from 5 to 50 carbon atoms, and wherein said glycidyl ester is in the form of its reaction product with at least some of the end groups of the polyester; and use thereof as a component of a photovoltaic cell.
대표청구항▼
1. A co-extruded multi-layer biaxially oriented polyester film comprising a primary polyester layer and a dissimilar secondary polyester layer adjacent to the primary polyester layer, wherein the polyester of said primary polyester layer and said secondary polyester layer is polyethylene terephthala
1. A co-extruded multi-layer biaxially oriented polyester film comprising a primary polyester layer and a dissimilar secondary polyester layer adjacent to the primary polyester layer, wherein the polyester of said primary polyester layer and said secondary polyester layer is polyethylene terephthalate, wherein the primary polyester layer and the secondary polyester layer each comprise a glycidyl ester of a branched monocarboxylic acid, wherein the monocarboxylic acid has from 5 to 50 carbon atoms, wherein said glycidyl ester is in the form of its reaction product with at least some of the end groups of the polyester, and wherein: (i) the glycidyl ester is present in the secondary polyester layer in an amount of at least 0.65 mol % based on the amount of polyester in the layer,(ii) the glycidyl ester is present in the primary polyester layer in an amount of 0.1 mol % to 0.65 mol % based on the amount of polyester in the layer, and(iii) the concentration of the glycidyl ester in the secondary layer [GES], the concentration of the glycidyl ester in the primary layer [GEP], and overall concentration of glycidyl ester in the multilayer film [GEO] is such that ([GES]/[GEP])×[GEO] is at least 0.7 mol %. 2. The polyester film according to claim 1, wherein the intrinsic viscosity of the polyester of at least one of the primary and secondary polyester layers is at least about 0.61. 3. The polyester film according to claim 1, wherein at least one of the primary and secondary polyester layers comprises a glycidyl ester having the formula (I): wherein:R1 and R2 are independently selected from alkyl,R3 is selected from hydrogen and alkyl; andwherein the total number of carbon atoms in the groups R1, R2 and R3 is from 3 to 48. 4. The polyester film according to claim 3, wherein, R1 is methyl and R2 and R3 are independently alkyl, wherein the total number of carbon atoms in the alkyl groups R2 and R3 is from 2 to 47. 5. The polyester film according to claim 1, wherein the glycidyl ester in at least one of the primary and secondary polyester layers is reacted with the polyester by injecting the glycidyl ester into the molten polyester prior to the polymer being cast into a film. 6. The polyester film according to claim 1, wherein the total amount of glycidyl ester present in the multi-layer film is in the range of from 0.2 to 5.0 mol %, based on the amount of polyester in the film. 7. The polyester film according to claim 1, wherein the glycidyl ester is present in the secondary polyester layers in an amount in the range of from 0.65 mol % to 5 mol %, based on the amount of polyester in the secondary polyester layer. 8. The polyester film according to claim 1 wherein the concentration of the glycidyl ester in the secondary layer [GES], the concentration of the glycidyl ester in the primary layer [GEP], and overall concentration of glycidyl ester in the multilayer film [GEO] is such that ([GES]/[GEP])×[GEO] is at least 1.0 mol %. 9. The polyester film according to claim 8, wherein the ratio [GES]:[GEP] is at least 1.2:1. 10. The polyester film according to claim 1, wherein at least one of the primary and secondary polyester layers further comprises at least one metal cation selected from the group consisting of Group I and Group II metal cations. 11. The polyester film according to claim 10, wherein the reaction product of the glycidyl ester with the end groups of the polyester in at least one of the primary and secondary polyester layers is obtained by reacting the glycidyl ester with the end-groups of the polyester in the presence of at least one metal cation selected from the group consisting of Group I and Group II metal cations. 12. The polyester film according to claim 10, wherein the metal cations are selected from Group I metal cations. 13. The polyester film according to claim 12, wherein the primary polyester layer is free of particulate filler or comprises no more than 2.5% by weight of particulate filler. 14. The polyester film according to claim 13, wherein the amount of particulate filler in the primary polyester layer is less than 50% by weight of the amount of particulate filler in the secondary polyester layer. 15. The polyester film according to claim 1, wherein the primary polyester layer is optically clear or translucent. 16. The polyester film according to claim 1, wherein the secondary polyester layer comprises a particulate filler material. 17. The polyester film according to claim 16, wherein the particulate filler is selected from particulate inorganic fillers. 18. The polyester film according to claim 17, wherein the particulate filler is selected from alumina, titanic, talc, silica, calcined china clay, calcium carbonate and barium sulphate. 19. The polyester film according to claim 16, wherein the secondary polyester layer comprises from 0.3 to 30% by weight of particulate filler, based on the weight of polyester in the layer. 20. The polyester film according to claim 16, wherein the secondary polyester layer is an opaque white layer. 21. The polyester film according to claim 20, wherein the particulate filler is selected from titanium dioxide and/or barium sulphate. 22. The polyester film according to claim 20, wherein the amount of filler incorporated into the secondary polyester layer is in the range of from about 2% to about 30% by weight, based on the weight of polyester in the layer. 23. The polyester film according to claim 20, wherein the secondary polyester layer exhibits a TOD in the range from 0.3 to 1.75. 24. The polyester film according to claim 16, wherein the primary polyester layer accounts for greater than 50% of the total thickness of the primary and secondary polyester layers. 25. The polyester film according to claim 1, wherein at least one of the primary and secondary polyester layers comprises a UV-absorber. 26. The polyester film according to claim 25, wherein the amount of UV-absorber in the primary and/or secondary polyester layer is in the range of from 0.1% to 10% relative to the total weight of the layer. 27. The polyester film according to claim 25, wherein the UV-absorber is selected from benzophenones, benzotriazoles, benzoxazinones and triazines. 28. The polyester film according to claim 1, wherein at least one of the primary and secondary polyester layers comprises an antioxidant. 29. The polyester film according to claim 1, having one or more additional layers disposed on one or both surfaces thereof to form a multi-layer composite structure. 30. The polyester film according to claim 1 which exhibits an interlayer peel strength after 60 hours at 121° C. and 1.2 bar pressure and 100% relative humidity of at least 0.5 N, and/or a retention of interlayer peel strength (RIPS) after 60 hours at 121° C. and 1.2 bar pressure and 100% relative humidity of at least about 30%, wherein RIPS=(IPST/IPS0)×100, and IPS0 and IPST are the interlayer peel strength values measured prior to the accelerated ageing test and after accelerated ageing for 60 hours at 121° C. and 1.2 bar pressure and 100% relative humidity, respectively. 31. The polyester film according to claim 1 which exhibits a hydrolysis resistance at 121° C. and 1.2 bar pressure and 100% relative humidity such that the elongation to break (ETB) of the film is at least 10% after at least 80 hours under said conditions. 32. A photovoltaic cell, wherein said photovoltaic cell comprises a front-plane, one or more electrode layers, a photovoltaic-active layer and a back-plane, wherein said back-plane comprises a co-extruded multi-layer biaxially oriented polyester film as defined in claim 1. 33. The photovoltaic cell according to claim 32, wherein the secondary polyester layer comprises a particulate filler material. 34. The photovoltaic cell according to claim 33, wherein the primary polyester layer of the co-extruded biaxially oriented polyester film is optically clear or translucent. 35. The photovoltaic cell according to claim 33, wherein the primary polyester layer of the co-extruded biaxially oriented polyester film is free of particulate filler or comprises no more than 2.5% by weight of particulate filler. 36. The polyester film according to claim 1, wherein the intrinsic viscosity of the polyester of at least one of the primary and secondary polyester layers is no more than 0.85. 37. A process for the manufacture of a co-extruded multi-layer biaxially oriented polyester film comprising a primary polyester layer and a dissimilar secondary polyester layer, wherein the process comprises: (i) co-extruding a primary polyester composition and a dissimilar secondary polyester composition, wherein the polyester of said primary polyester layer and said secondary polyester layer is polyethylene terephthalate, wherein the primary polyester composition and the secondary polyester composition each comprise a glycidyl ester of a branched monocarboxylic acid, wherein the branched monocarboxylic acid has from 5 to 50 carbon atoms, and wherein the glycidyl ester is present in the co-extrudate in the form of its reaction product with at least some of the end groups of the polyester;(ii) quenching the co-extrudate;(iii) stretching the quenched co-extrudate in two mutually perpendicular directions: and(iv) heat-setting the film, and wherein: (i) the glycidyl ester is present in the secondary polyester layer in an amount of at least 0.65 mol % based on the amount of polyester in the layer,(ii) the glycidyl ester is present in the primary polyester layer in an amount of 0.1 mol % to 0.65 mol % based on the amount of polyester in the layer, and(iii) the concentration of the glycidyl ester in the secondary layer [GES], the concentration of the glycidyl ester in the primary layer [GEP], and overall concentration of glycidyl ester in the multilayer film [GEO] is such that ([GES]/[GEP])×[GEO] is at least 0.7 mol %. 38. The process according to claim 37, wherein the co-extruded biaxially oriented polyester film comprises a primary polyester layer and a dissimilar secondary polyester layer adjacent to the primary polyester layer, wherein the primary polyester layer and the secondary polyester layer each comprise a glycidyl ester of a branched monocarboxylic acid, wherein the monocarboxylic acid has from 5 to 50 carbon atoms, and wherein said glycidyl ester is in the form of its reaction product with at least some of the end groups of the polyester. 39. The process according to claim 37, wherein the co-extruding is at a temperature in the range of from about 280° C. to 300° C. 40. The process according to claim 37, wherein the heat-setting is at a temperature in the range of from about 200° C. to about 225° C.
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