A method for printing ink on a substrate comprising the steps of coating a glass substrate with an adhesion promoter, depositing one or more layers of ink on the coated substrate, and laminating the imaged substrate. The substrate can be a glass substrate, and the adhesion promoter can include a silane material, powder coating, organophosphate primer suspended in isopropanol.

Provided is laminated glass and a preparation method thereof, an electronic device housing, and an electronic device. The laminated glass comprises at least two glass members and at least one adhesive film disposed in a stacked manner, where the glass members and the adhesive film are alternately disposed, wherein decorative layers are provided on surfaces of at least two of the glass members facing toward the adhesive film, and at least two of the decorative layers independently comprise at least one of an etched texture, an optical coating layer, and a pattern layer.

A laminated vehicle glass has an outer glass, an intermediate layer arrangement, an inner glass, a first color carrier and a second color carrier. The outer glass is at least partly adhesively bonded to the inner glass via the intermediate layer arrangement. The first color carrier is formed as a print with a first printing ink on the inner side of the outer glass. The second color carrier is formed as a print with a printing ink or as a film and has a second color. The second color carrier is provided in at least some regions on the side of the first color carrier that faces away from the outer glass. The first color and second color are different, at least in some regions. The second color is provided in a frame-like region of the laminated vehicle glass.

Disclosed are glass-glass laminates. A glass-glass laminate includes: a lower glass layer; an adhesive layer on the lower glass layer; an upper glass layer on the adhesive layer; and a decoration layer between the lower glass layer and the adhesive layer or between the upper glass layer and the adhesive layer, wherein the thickness of the upper glass layer is less than the thickness of the lower glass layer, and the thermal expansion coefficient of the upper glass layer is less than the thermal expansion coefficient of the lower glass layer.

To provide a functional film with which a functional laminated glass excellent in adhesion between layers can be obtained, and a functional laminated glass excellent in adhesion between layers.

A functional film (transmission image display film 10) comprising a substrate film (transparent film 11) and a functional layer (light scattering layer 12) containing an organic material, which has a deposited layer (first deposited layer 13, second deposited layer 14, third deposited layer 15) formed of an inorganic oxide having an isoelectric point of at most 6 or at least 7.4 as measured by streaming potential method, either one of or both on the outermost surface of the functional film and between the substrate film and the functional layer.

A display device includes a display panel, an organic layer disposed on a surface of the display panel, a polysilazane layer disposed on the organic layer and including a spaced region, and a resin layer disposed in the spaced region of the polysilazane layer. An elastic modulus of the resin layer is lower than an elastic modulus of the polysilazane layer.

A method for printing ink on a substrate comprising the steps of coating a glass substrate with an adhesion promoter, depositing one or more layers of ink on the coated substrate, and laminating the imaged substrate. The substrate can be a glass substrate, and the adhesion promoter can include a silane material, powder coating, organophosphate primer suspended in isopropanol.

The present disclosure relates to a decorative panel made of flat glass for electronic household appliances, in particular, for large stationary household appliances. The decorative panel comprises a base body made of thermally tempered flat glass with an operational front and an operational back and has at least one digital print on the operational back.

Certain example embodiments relate to making use of the difference in visually perceivable spectra as between humans and birds to create at least pseudo-random and generally non-repeating patterns that help deter birds from colliding with building facades and other transparent barriers, techniques for creating such patterns, articles including such patterns, and methods of making such articles. The patterns include design elements or areas of a UV-reflective material that is visible to birds and may or may not be easily perceivable to humans. The patterns may be created in accordance with a plurality of design rules embodied in a computer-implemented algorithm. Design rules relate to position, rotation, and/or size randomness of the design elements included in the pattern. Execution of the algorithm defines the pattern. Once the pattern is defined, the transparent substrate can have the pattern applied thereto via any suitable manufacturing technique.

A laminated vehicle glass has an outer glass, an intermediate layer arrangement, an inner glass, a first color carrier and a second color carrier. The outer glass is at least partly adhesively bonded to the inner glass via the intermediate layer arrangement. The first color carrier is formed as a print with a first printing ink on the inner side of the outer glass. The second color carrier is formed as a print with a printing ink or as a film and has a second color. The second color carrier is provided in at least some regions on the side of the first color carrier that faces away from the outer glass. The first color and second color are different, at least in some regions. The second color is provided in a frame-like region of the laminated vehicle glass.