A method for forming a vehicular window assembly includes providing a plurality of window panels and arranging the window panels relative to one another with adjacent edge portions of adjacent window panels being non-coplanar. Adjacent edge portions of the adjacent window panels are fixedly joined via a joining element at the adjacent edge portions of the adjacent window panels. The joining element may be at least partially overmolded and fixedly joined at the adjacent edge portions of the adjacent window panels. The vehicular window assembly may comprise a vehicular side window assembly configured to mount at a side portion of a vehicle.

A composite panel includes first and second substrate layers, first and second patterned electrically conductive layers, and an insulating layer. A first capacitive sensing element with a first supply line structure is formed in the first electrically conductive layer and a second capacitive sensing element with a second supply line structure is formed in the second electrically conductive layer. The first and second patterned electrically conductive layers are separated from one another by the insulating layer. The assembly composed of the first and second patterned electrically conductive layers and the insulating layer is arranged between the first and second substrate layers. The first and second capacitive sensing elements are arranged offset relative to each other. An overlap of elements of the first capacitive sensitive element and of the first supply line structure makes up an area less than or equal to 10% of that of the second capacitive sensitive element.

A functional element having electrically controllable optical properties, includes a stack sequence formed of a first carrier film, a first surface electrode, an active layer, a second surface electrode, and a second carrier film, wherein the second carrier film has an overhanging region beyond the first carrier film and at least one barrier film is arranged on at least one edge region of the first carrier film and the overhanging region of the second carrier film.

A new laminated glass structure for automotive glazing, architectural window and other applications that includes two sheets of relatively thin, optionally chemically strengthened glass, such as Corning® Gorilla® Glass, with a composite interlayer structure that includes at least one relatively stiff layer having relatively high Young's modulus of 50 MPa or higher and a relatively softer polymer layer having a relatively low Young's modulus of 20 MPa or lower.

A window film including at least a first adhesive layer containing a weathering agent, a barrier layer, a second adhesive layer, and a light control layer in this order.

A viscoelastic plastic interlayer intended to be arranged between two glass sheets of a glazing in order to provide it with vibroacoustic damping properties, includes two outer layers of thermoplastic adhesive, an inner layer arranged between the two outer layers, the inner layer having a loss factor tan δ greater than or equal to 1.6 at 20° C. and for a frequency range of between 2 kHz and 8 kHz, and first and second barrier layers arranged respectively between the outer layers and the inner layer 3, and composed of a viscoelastic plastic material.

A composite pane includes an outer pane and an inner pane which are joined to one another via a first thermoplastic intermediate layer arranged directly adjacent the outer pane and a second thermoplastic intermediate layer arranged directly adjacent the inner pane, and an inlay element which is arranged in a region of the composite pane between the first thermoplastic intermediate layer and the second thermoplastic intermediate layer. The inner pane has a cutout and the second thermoplastic intermediate layer has a cutout. The cutout of the second thermoplastic intermediate layer is, when looked through, arranged completely within the region in which the inlay element is arranged, and the cutout of the inner pane is, when looked through, arranged completely within the cutout of the second thermoplastic intermediate layer.

A glazing capable of gradient opacity includes a first glass substrate (110) and a second glass substrate (110), a first interlayer (214) and a second interlayer (116), provided between the first glass substrate and the second glass substrate, and a switchable film (130) provided between the first interlayer and the second interlayer. The switchable film includes a switchable material layer (220) having first and second surfaces (SF.sub.1, SF.sub.2) opposite each other, wherein the switchable material layer (220) has an uneven effective thickness. A first conductive layer (226) and a second conductive layer (128) sandwich the switchable material layer (220), and a first polymer film (222) and a second polymer film (124) sandwich the switchable material layer and the first and second conductive layers.

According to certain embodiments, an electronic device comprises a first housing; a second housing; a hinge disposed between the first housing and the second housing such that the second housing is foldable at one end of the first housing; and a flexible display disposed on a surface of the first housing and a surface of the second housing, wherein the flexible display comprises a display panel, and a glass layer disposed on the display panel, such that the display panel is between the glass layer and the surface of the first housing and the surface of the second housing, wherein the glass layer comprises: a bendable portion configured to be flat in an unfolded state when the first housing and the second housing are disposed horizontally adjacent, and to be bent in a folded state when the first housing and the second housing are vertically adjacent; and a first flat portion adjacent to the bending portion to form a boundary and a second flat portion disposed to extend from the first flat portion to an edge of the glass layer, wherein the glass layer comprises a glass member, wherein the glass member has a first thickness in the second flat portion, has a second thickness at the center of the bending portion, and has a third thickness less than the first thickness and greater than the second thickness in a section between the first flat portion and the center of the bending portion, and wherein the thickness of the glass member gradually decreases from the first flat portion to the center of the bending portion forming a concave portion.

A window manufacturing apparatus includes a transporting table on which a target substrate is to be mounted, the transporting table including a first portion and a second portion having a greater thickness than the first portion, a plurality of suctioning ports on a suctioning table, the plurality of suctioning ports being configured to suction the target substrate, and an attachment device configured to attach a protective film to the target substrate suctioned to the suctioning table. In a state in which the target substrate mounted on the transporting table is suctioned to the suctioning table, the plurality of suctioning ports overlap the second portion of the transporting table and do not overlap the first portion of the transporting table in a plan view.