Abstract: An misting apparatus disperses odor-removing mist and comprises a reservoir assembly, misting pack(s), and a fan assembly. The reservoir assembly includes a reservoir and a baffle assembly. A reservoir receives and contains a deodorizing solution. The reservoir comprises an air flow inlet and a mist flow outlet. The baffle assembly is received in the reservoir and forms first and second chambers therewithin. The baffle assembly comprises air flow apertures for enabling air to flow from the first to the second chambers. The packs generate mist within the second chamber. The fan assembly generates air flow at the air flow inlet through the first chamber into the second chamber via the air flow apertures. The air flow into the second chamber thereby forms a mist flow which mist flow is directed through the mist flow outlet into the air surrounding the reservoir assembly for removing odors therefrom.

Abstract: Smooth, specular, ductile alloys of a transition metal and phosphorus (particularly nickel phosphorus) are produced. The ductility is such that when the alloy is in the form of a foil having a thickness up to or greater than 1 mil (i.e. greater than can be obtained by splat cooling) it can be formed into a complex geometric shape, such as a helix, without cracking, and has a ductility comparable to at least about 5 percent (possibly even over 10 percent) for a 25 micron foil subjected to the ASTM Micrometer Bend Test for Ductility of Electrodeposits. The alloy is deposited on a substrate by electroplating in a bath comprising about 0.5-1.0 molar nickel, about 1.5-3.0 molar phosphorous acid, about 0.1-0.6 molar phosphoric acid, and about 0.0-0.6 molar hydrochloric acid, with chloride ion in the amount of at least 1.25M, and greater than twice as much chloride as nickel.

Abstract: Process and apparatus for electrodepositing a metallic layer (such as, an amorphous nickel-phosphorus alloy) onto a surface of a substrate includes forming the substrate into a cylindrical configuration and immersing it in a liquid electrodeposition bath containing the metallic substance to be deposited onto the substrate surface. During the electrodeposition of the metallic substance onto the substrate surface, the substrate is rotated within the bath so as to expose the substrate surface uniformly to the bath liquid and to the electric field which, on average, is substantially constant. The process finds particular utility in the production of orifice plates for use in fluid jet printing devices.

Abstract: An anode configuration is provided particularly for a bath that is used for electrolytically plating a substrate with a nickel and/or cobalt phosphorus alloy. The anode comprises a plurality of widely spaced portions of material, preferably of platinum or rhodium. The anode configuration is such that the anode has a very high current density in use--at least 200 amperes per square foot and preferably 500 amperes per square foot. The wide spacing of the anode portions may be provided in a number of different ways. A platinum wire may extend between titanium screws attached to a pair of parallel spaced titanium buses, in a zig-zag manner. A platinum wire may be welded at its opposite ends to a titanium bus, and helically wrapped around the bus, with the welding junctions covered by an insulating material (e.g. vinyl). A platinum tube may be shrink fit onto a titanium bus.