The invention concerns an automotive glazing comprising (i) at least one glass sheet having an absorption coefficient lower than 5 m.sup.−1 in the wavelength range from 1051 nm to 1650 nm and having an external face and an internal face, and (ii) an infrared filter. According to the present invention, an infrared-based remote sensing device in the wavelength range from 1051 nm to 1650 nm, is placed on the internal face of the glass sheet in a zone free of the infrared filter layer.

A material includes a transparent substrate coated on one face with a stack of thin layers successively including, from the face, an alternation of four functional metal layers based on silver and five dielectric coatings. The physical thickness Ea1 of the first functional layer Ag1 is less than the physical thickness Ea2 of the second functional layer Ag2, with 0.60<Ea1/Ea2<0.90. The physical thickness Ea1 of the first functional layer Ag1 is such that 8.00≤Ea1≤13.00 nm. The physical thickness Ea1 of the first functional layer Ag1 is less than the physical thickness Ea3 of the third functional layer Ag3, with 0.60<Ea1/Ea3<0.90. The physical thickness Ea1 of the first functional layer Ag1 is less than the physical thickness Ea4 of the fourth functional layer Ag4, with 0.60<Ea1/Ea4<0.90.

A cooking apparatus capable of satisfying a heat reflection function while securing a transmittance by applying a variable layer to a glass sheet forming a door includes a cooking chamber, and a door configured to open and close the cooking chamber and provided with a plurality of glass sheets, the door including a variable layer provided on at least one of the plurality of glass sheets and a visible light transmittance variable depending on a temperature.

A transparent glass-ceramic for cooktop, the transparent glass-ceramic including a glass material having an uneven layer etched on an upper surface of the glass material, an upper printed layer formed on the uneven layer, and a lower printed layer formed under the glass material.

Window units, for example insulating glass units (IGU's), that have at least two panes, each pane having an electrochromic device thereon, are described. Two optical state devices on each pane of a dual-pane window unit provide window units having four optical states. Window units described allow the end user a greater choice of how much light is transmitted through the electrochromic window. Also, by using two or more window panes, each with its own electrochromic device, registered in a window unit, visual defects in any of the individual devices are negated by virtue of the extremely small likelihood that any of the visual defects will align perfectly and thus be observable to the user.

Provided is a polarizing plate having a wire grid structure, comprising a transparent substrate, a first antireflection film laminated on the first surface of the transparent substrate, a plurality of protrusions protruding from the first antireflection film, a second antireflection layer laminated on a second surface opposite to the first surface, wherein the plurality of protrusions are periodically arranged at a pitch shorter than a wavelength of light in a use band, each of the protrusions extends in in a first direction and includes a reflective layer, a dielectric layer, and an absorption layer in order from the first direction, and both the first antireflection layer and the second antireflection layer have high refractive index layers and low refractive index layers that are alternately laminated.

The present disclosure provides a colored glass and a preparation method thereof. The colored glass comprises a glass substrate, layer Aed structure and a Ti alloy layer, wherein the layered structure and the Ti alloy layer are laminated on the surface of the glass substrate; the layered structure comprises alternately stacked layer A and layer B; the layer A is a SiC or NiO layer; the layer B is an MN layer, a GaN layer, a ZrO.sub.2 layer or an Nb.sub.2O.sub.5 layer; the layer A is in contact with the glass substrate, the layer B is in contact with the Ti alloy layer. The color of the glass is controlled by adjusting the thickness of the layer A and the layer B in the layered structure. The Ti alloy layer has high reflectivity, which can make the colored glass bright in color, and has a certain protective and corrosion-resistant effect.

Embodiments of a article including include a substrate and a patterned coating are provided. In one or more embodiments, when a strain is applied to the article, the article exhibits a failure strain of 0.5% or greater. Patterned coating may include a particulate coating or may include a discontinuous coating. The patterned coating of some embodiments may cover about 20% to about 75% of the surface area of the substrate. Methods for forming such articles are also provided.

The invention relates to a trim element for interior vehicle. According to the invention, the trim element is made of glass sheet.

The invention concerns an automotive glazing comprising (i) at least one glass sheet having an absorption coefficient lower than 5 m.sup.−1 in the wavelength range from 1051 nm to 1650 nm and having an external face and an internal face, and (ii) an infrared filter. According to the present invention, an infrared-based remote sensing device in the wavelength range from 1051nm to 1650 nm, is placed on the internal face of the glass sheet in a zone free of the infrared filter layer.