Abstract: The present invention relates to a mirror having a backing plate or polymeric substrate being coated with a reflective coating, for example a chromium-based reflective coating. A mirror assembly includes a mirror housing, a reflective element having a first field of view, a reflective coating having a second field of view, the second field of view being wider than the first field of view, and a multi-function backing plate supported by the mirror housing and comprising a reflective element supporting region where the reflective element is supported by the multi-function backing plate and a reflective coating supporting region where the reflective coating is applied to the backing plate.

Abstract: The present invention relates to a polymeric substrate being coated with a reflective coating, particularly a chromium-based reflective coating.

Abstract: The present invention relates to decorative coatings for plastic substrates, the decorative coatings ideally being stable and durable coatings that are spectrally tuneable to permit the selection of a variety of appearances, and ideally providing a decorative metal finish. More particularly the present invention provides for a plastic substrate having a decorative coating including a spectrally controlling system and a stress controlling system. The spectrally controlling system includes alternating absorbing layers and transparent layers, and the stress controlling system controls the overall residual stress of the decorative coating to within a desired range. Further provided are methods for applying to a plastic substrate a decorative coating having a spectrally controlling system and a stress controlling system.

Abstract: Disclosed herein is a capacitive touch panel comprising a transparent panel substrate, a front surface of the substrate comprising a conductive translucent layer which, in use, is visible to a user; at least one light source associated with the back surface, wherein said light source is switchable between an ‘on’ state in which an illuminated icon is visible on the front surface of the cover panel and an ‘off’ state in which the illuminated icon is not visible on the front surface of the cover panel, wherein the light source is switchable from the off state to the on state by a change in capacitance of the conductive translucent layer; at least one switch associated with the back surface, wherein the switch is activable by a user pressing the touch panel in the vicinity of the illuminated icon to provide an output signal capable of performing a function.

Abstract: The present invention relates to a polymeric substrate being coated with a reflective coating, particularly a chromium-based reflective coating.

Abstract: A chromium-based reflective coating for a polymeric substrate, wherein the coating has a thickness of 200 nm or less and is an alloy of chromium and a dopant material, the dopant material being selected from the hexagonally close-packed transition metals, the alloy having a crystal structure of a primary body-centered cubic phase in coexistence with a secondary omega hexagonally close-packed phase.

Abstract: A plastic mirror that includes a plastic substrate having a front surface, a hardcoating on the front surface, a reflective layer, and an intermediate zone between the hardcoating and the reflective layer, the intermediate zone including at least one layer formed from a material selected from the group consisting of metals and metalloids, oxides and nitrides of metals and metalloids, and carbon.

Abstract: A chromium-based reflective coating for a polymeric substrate, wherein the coating has a thickness of 200 nm or less and is an alloy of chromium and a dopant material, the dopant material being selected from the hexagonally close-packed transition metals, the alloy having a crystal structure of a primary body-centered cubic phase in coexistence with a secondary omega hexagonally close-packed phase.

Abstract: A plastic mirror that includes a plastic substrate having a front surface, a hardcoating on the front surface, a reflective layer, and an intermediate zone between the hardcoating and the reflective layer, the intermediate zone including at least one layer formed from a material selected from the group consisting of metals and metalloids, oxides and nitrides of metals and metalloids, and carbon.

Abstract: A system for cooling electronic equipment, especially modular electronic units mounted in racks, each having a casing with an air inlet, an air outlet and a fan for cooling the contents of the unit. The system uses a chiller unit, between adjacent racks for returning cooled air to ambient, each of which can be a piping array connected to a supply of chilled water. A baffle backing the piping array improves heat exchange and provides a more uniform transfer of heat to each array, thereby enabling optimum temperature differences to be achieved across each rack. A slidable framework supports the piping array and defines an air space on the cooled air side of the array. An auxiliary piping array extends rearwardly of racks so as to communicate with rear air spaces behind the racks and thereby cool heated air flowing in the rear air spaces.