The invention provides a glazing comprising first glass sheet comprising a printed layer on a portion of a surface of the glass sheet and a conductive coating on the surface of the first glass sheet. The conductive coating extends over at least a portion of the printed layer to form a coated print portion and extends over a portion of the surface of the glass sheet to form a coated glass portion. The coated print portion has a Developed Interfacial Area Ratio Sdr less than 27.45%. A method for producing the glazing and use of the glazing in a vehicle is also disclosed.

Laminated glass for vehicle includes a region with a breaking stress measured by a method described in ISO 1288-5 (2016) of 100 MPa or more and 600 MPa or less. A percentage of the region is greater than or equal to 90% of a see-through region.

A laminated glazing includes a first substrate having an outer face and an inner face, one or more interlayers disposed on the inner face of the first substrate, a second substrate disposed on the interlayer and at least one data transponder device. The date transponder device includes an antenna and an integrated circuit that is provided between the first substrate and the second substrate Optionally, one or more heating elements is/are provided between the first substrate and the second substrate and spaced around the data transponder device at a pre-defined distance for rapidly heating the antenna the data transponder.

The present invention provides an automobile window glass on which a device that acquires electromagnetic waves is disposable. The automobile window glass includes an outer glass plate, an inner glass plate, an intermediate film disposed between the outer glass plate and the inner glass plate, and a blocking layer that is disposed on at least one of a surface on the vehicle interior side of the outer glass plate and a surface on the vehicle interior side of the inner glass plate. The intermediate film includes a functional layer having a transmission region that allows transmission so as not to affect reception of the electromagnetic waves, and an adhesion layer that is disposed on at least one surface of the functional layer and does not affect reception of the electromagnetic waves. The blocking layer has at least one opening at a position corresponding to the transmission region.

The present disclosure relates to an automotive glass product comprising a glazing having at least one glass substrate, a first image, and a second image separated in space from the first image, wherein the first image and the second image are at least partially aligned at an angle through the glass product, and wherein the first image and the second image provide a three-dimensional pictograph from at least one viewing angle.

A facade element includes a coloring transparent or semi-transparent first pane and a mechanically supporting transparent second pane firmly connected to one another by an intermediate layer. The first pane has a front surface arranged on the light incidence side and an opposite back surface, at least one surface of the front and back surfaces has at least one structured region, and at least one optical interference layer is arranged on the at least one surface for reflecting light within a predetermined wavelength range. The structured region has the following features: perpendicular to the plane of the first pane, a height profile comprising peaks and valleys, wherein an average height difference between the peaks and valleys is at least 2 μm, at least 50% of the structured region is composed of segments which are inclined with respect to the plane of the first pane (2).

A laminated glass comprises first and second glass sheets and a ply of interlayer material disposed therebetween, a conductive strip disposed on the ply of interlayer material, a connector arranged at an edge of the second glass sheet, a ceramic ink layer on a surface of the second glass sheet not facing the ply of interlayer material and partly obscuring the conductive strip, a gap in the ceramic ink layer configured so that the conductive strip is in contact with the connector in the gap. Also, there is a method for manufacturing the laminated glass and use of the laminated glazing.

To provide a vehicle window structure in which a light emitting device can be disposed outside the laminated glass.

A vehicle window structure to be installed at an opening of a vehicle, which comprises a first glass plate and a light emitting device, wherein at least a part of the light emitting device is disposed in a space formed between the first glass plate, an adhesive bonding the first glass plate and a body flange of the vehicle, and an interior material of the vehicle.

A composite pane having electrically controllable optical properties, includes an outer pane and an inner pane, which are joined to one another via a thermoplastic intermediate layer, wherein an optoelectronic functional element having electrically controllable optical properties is embedded in the intermediate layer, which functional element comprises an active layer, with which transparent flat control electrodes are associated on both surfaces, between a first carrier film and a second carrier film, and wherein a capacitive contact switching element is arranged between the active layer and the thermoplastic intermediate layer.

A laminated glazing pane is described comprising first and second sheets of glazing material joined by an interlayer structure comprising at least one sheet of adhesive interlayer material. Each sheet of glazing material has respective first and second major surfaces and the laminated glazing is arranged such that the second major surface of the first sheet of glazing material faces the first major surface of the second sheet of glazing material. An illumination device is arranged relative to the first sheet of glazing material to emit light towards the second major surface of the first sheet of glazing material. The first and/or second major surface of the first sheet of glazing material has an array of dots thereon for diffusing light emitted by the illumination device that is transmitted through the first sheet of glazing material and out from the first major surface thereof.