A film layer and a method of forming a film layer are provided herein. The film layer includes a first polymer and a second polymer. The first polymer includes the reaction product of chlorotrifluoroethene and vinylidene fluoride utilized in the first polymer in an amount of at least 4 wt. %. The second polymer includes the reaction product of chlorotrifluoroethene and optionally, vinylidene fluoride utilized in the second polymer in an amount of less than 4 wt. %. A multilayer film and a method of forming a multilayer film are also provided herein. In an embodiment, a multilayer film includes a first film layer and a second film layer adjacent and sealed to the first film layer. At least one of the first film layer or the second film layer includes the first polymer and the second polymer.

An illuminated light guide assembly includes a first light guide panel coupled to a first light source; a first light-extracting system on the first light guide panel; a second light guide panel coupled to a second light source different from the first light source; a second light-extracting system offset from the first extracting system; and a first optical isolator coupled to the first light guide panel with a first lamination interlayer and coupled to the second light guide panel with a second lamination interlayer.

An illuminated light guide assembly includes a first light guide panel coupled to a first light source; a first light-extracting system on the first light guide panel; a second light guide panel coupled to a second light source different from the first light source; a second light-extracting system offset from the first extracting system; and a first optical isolator coupled to the first light guide panel with a first lamination interlayer and coupled to the second light guide panel with a second lamination interlayer.

A multi-layered film laminate for use in making hot filled blister packages and a method of making such material is provided. The laminate generally includes a central core layer of barrier polymer film disposed between a slip film and a thermostable film. In particularly advantageous embodiments, the barrier film is a polychlorotrifluoroethylene film, the slip film is a polyvinyl chloride film, and the heat resistant film is a temperature resistant copolyester. The disclosed material provides a high moisture barrier and a stable inter-laminar structure that can withstand hot filling of liquids, such as liquids used to form soft and/or gummy dosages on form-fill-and-seal blister packaging machines.

A luminous glazing assembly includes a first glazing pane with a first light source coupled to the first pane to emit at instant t0 at 1 and to emit at tt0 at 2, 2 distinct from 1; a first light-extracting system and first masking arrangement to mask the extracted light from the internal-face side; making optical contact with the first glazing pane, a second glazing pane with a second light source that is optically coupled to the second pane, to emit at t0 at a 3 distinct from 1; a second light-extracting system and second masking arrangement to mask the light from the bonding-face side; between the first masking arrangement and the second extracting system, a first optical isolator; and between the first masking arrangement and the second extracting system, a second optical isolator, merged with the first optical isolator or separate and closer to the second extracting system.

A luminous glazing assembly includes a first glazing pane with a first light source coupled to the first pane to emit at instant t0 at 1 and to emit at tt0 at 2, 2 distinct from 1; a first light-extracting system and first masking arrangement to mask the extracted light from the internal-face side; making optical contact with the first glazing pane, a second glazing pane with a second light source that is optically coupled to the second pane, to emit at t0 at a 3 distinct from 1; a second light-extracting system and second masking arrangement to mask the light from the bonding-face side; between the first masking arrangement and the second extracting system, a first optical isolator; and between the first masking arrangement and the second extracting system, a second optical isolator, merged with the first optical isolator or separate and closer to the second extracting system.

A RF weldable film is provided. The film has outer layer including a PVDF copolymer or an alpha-olefin polymer and backing layer including a TPU copolymer. The film may have a gas barrier layer attached to the backing layer. The backing layer may include an EVOH copolymer. A method of making such a film is also provided. Containers made from such film are further provided.

Object: Provided is a decorative vapor deposition sheet that can reduce or prevent a defect, such as the breaking of a metal vapor deposition layer or the entire sheet, even when applied to a forming method requiring high temperature or the like.

The decorative vapor deposition sheet of an embodiment of the present disclosure is a decorative vapor deposition sheet including a cover resin layer and a metal vapor deposition layer, in which the cover resin layer has a thickness of approximately 50 micrometers or greater, the metal vapor deposition layer exhibits a granular structure, a breaking elongation of the decorative vapor deposition sheet at 20 C. is approximately 120% or greater, and a breaking elongation of the decorative vapor deposition sheet at 160 C. is approximately 350% or greater.

A luminous glazing assembly includes a first glazing pane with a first light source coupled to the first pane to emit at instant t0 at 1 and to emit at tt0 at 2, 2 distinct from 1; a first light-extracting system and first masking arrangement to mask the extracted light from the internal-face side; making optical contact with the first glazing pane, a second glazing pane with a second light source that is optically coupled to the second pane, to emit at t0 at a 3 distinct from 1; a second light-extracting system and second masking arrangement to mask the light from the bonding-face side; between the first masking arrangement and the second extracting system, a first optical isolator; and between the first masking arrangement and the second extracting system, a second optical isolator, merged with the first optical isolator or separate and closer to the second extracting system.

A luminous glazing assembly includes a first glazing pane with a first light source coupled to the first pane to emit at instant t0 at 1 and to emit at tt0 at 2, 2 distinct from 1; a first light-extracting system and first masking arrangement to mask the extracted light from the internal-face side; making optical contact with the first glazing pane, a second glazing pane with a second light source that is optically coupled to the second pane, to emit at t0 at a 3 distinct from 1; a second light-extracting system and second masking arrangement to mask the light from the bonding-face side; between the first masking arrangement and the second extracting system, a first optical isolator; and between the first masking arrangement and the second extracting system, a second optical isolator, merged with the first optical isolator or separate and closer to the second extracting system.