Abstract: A multilayer ceramic substrate contains a ceramic coating which is different in composition than the main body of the multilayer ceramic substrate to control camber of the multilayer ceramic substrate during sintering. The primary component of the ceramic coating is a secondary component of the main body of the multilayer ceramic substrate.

Abstract: A method of producing a nickel electrode for an alkaline storage battery, comprising: an active-material loading step comprising preparing an active-material loaded plate electrode by loading an active-material containing nickel hydroxide as its principal component into the pores of said porous electrically conductive substrate; an immersion step comprising immersing said active-material loaded plate electrode into an impregnation solution comprising an acid salt solution containing at least one element selected from the group consisting of Ca, Sr, Sc, Y, Al, Mn, and lanthanides; and an alkali treatment step comprising forming a hydroxide layer on the surface of the electrode plate by converting the acid salt into a hydroxide by immersing said plate electrode into an alkaline solution; provided that the temperature of the impregnation solution is controlled in a range of from 40 to 90° C., and that the pH value of impregnating solution is controlled to a range of from 4 to 6.

Abstract: A Ni/metal hydride secondary element having a positive nickel hydroxide electrode, a negative electrode having a hydrogen storage alloy, and an alkaline electrolyte, the positive electrode, provided with a three-dimensional metallic conductive structure, also contains an aluminum compound which is soluble in the electrolyte, in addition to nickel hydroxide and cobalt oxide. The aluminum compound is aluminum hydroxide and/or aluminum oxide, and the mass of the aluminum compound which is present in the positive bulk material mixture is 0.1 to 2 % by weight relative to the mass of the nickel hydroxide which is present. In combination with aluminum hydroxide or aluminum oxide, the positive electrode further contains lanthanoid oxidic compounds Y2O3, La2O3 and Ca(OH)2, as well as mixtures of these compounds.

Abstract: An active material having a composition of LixNiyMzO2 (0.8<x<1.5, 0.8<y+z<1.2, 0≦z<0.35; M is an element selected from Co, Mg, Ca, Sr, Al, Mn and Fe) is preserved in a gas having a moisture dew point of −20° C. or less from immediately after production of said active material till preparation of an active material mixture-coating material, or is subjected to vacuum drying immediately before preparation of said active material mixture-coating material. The prepared mixture-coating material is applied onto a collector.

Abstract: Removing the electrical field from the internal volume of high-voltage structures; e.g., bushings, connectors, capacitors, and cables. The electrical field is removed from inherently weak regions of the interconnect, such as between the center conductor and the solid dielectric, and places it in the primary insulation. This is accomplished by providing a conductive surface on the inside surface of the principal solid dielectric insulator surrounding the center conductor and connects the center conductor to this conductive surface. The advantage of removing the electric fields from the weaker dielectric region to a stronger area improves reliability, increases component life and operating levels, reduces noise and losses, and allows for a smaller compact design. This electric field control approach is currently possible on many existing products at a modest cost. Several techniques are available to provide the level of electric field control needed.

Abstract: This invention pertains to separators for use in electrochemical cells which comprise at least one microporous pseudo-boehmite layer, which separator is in contact with at least one protective coating layer positioned on the anode-facing side of the separator opposite from the cathode active layer in the cell; electrolyte elements comprising such separators; electrical current producing cells comprising such separators; and methods of making such separators, electrolyte elements and cells.

Abstract: Disclosed is a method for surface treatment of lithium manganese oxide for positive electrodes in lithium secondary batteries and, more particularly, a method for surface treatment of lithium manganese oxide in which the surface of the lithium manganese oxide is coated with lithium transition metal oxides. The lithium secondary batteries using the coated lithium manganese oxide as an anode material not only solves the problems with the conventional lithium secondary batteries in regard to the lifetime of the electrodes at high temperature and the fat discharge efficiency but also replace the conventional expensive lithium cobalt oxide to reduce the production cost.

Abstract: A non-carbon, metal-based slow-consumable anode of a cell for the electrowinning of aluminium self-forms during normal electrolysis an electrochemically-active oxide-based surface layer (20). The rate of formation (35) of the layer (20) is substantially equal to its rate of dissolution (30) at the surface layer/electrolyte interface (25) thereby maintaining its thickness substantially constant, forming a limited barrier controlling the oxidation rate (35). The anode (10) usually comprises an alloy of iron with at least one of nickel, copper, cobalt or zinc which during use forms an oxide surface layer (20) mainly containing ferrite.

Abstract: A method for providing anti-static characteristics for polymeric, integrated circuit (IC) trays, which allows gaseous ions, such as nitrogen and argon, or metal ions, such as Ti, Li and Al, to be implanted to a surface depth of 1.5 &mgr;m in IC trays. In addition to experiencing no dimensional changes during the antistaticity working, the IC trays have a uniform distribution of ions over their surfaces and range, in surface resistance, from 106 to 1012 &OHgr;/cm2.

Abstract: Submicron-dimensioned metallization patterns are formed on a substrate surface by a photolytic process wherein portions of a metal-compound containing fluid layer on the substrate surface which are exposed through a pattern of submicron-sized openings in an overlying exposure mask are irradiated with UV to near X-ray radiation. Photo-decomposition of the metal-containing compound results in selective metal deposition on the substrate surface according to the exposure mask pattern. When liquid, the fluid layer is prevented from contacting the mask surfaces during photolysis in order to prevent closing off of the very small apertures by deposition thereon. The inventive method is of particular utility in forming multi-level, in-laid, “back-end” metallization of high density integrated circuit semiconductor devices.

Abstract: The invention aims at providing highly reliable zinc oxide varistors through simple production steps. The varistor is produced by dispersing a powdery raw material comprising 1-40 solar % (in terms of Fe2O3) iron, 0-20 molar % (in terms of Bi2O3) bismuth, and the balance consisting of SiO2 in a solution of a water-soluble binder such as polyvinyl alcohol, and applying the formed dispersion to a molded or calcined zinc oxide varistor to form on the lateral face thereof a lateral high-resistance layer (2) containing Zn2SiO4 as the principal ingredient and a solid solution of iron in Zn7Sb2O12 as the auxiliary ingredient.

Abstract: A process is disclosed for producing a corrosion-resistant ceramic member, which process includes the steps of preparing a sintered body made of a ceramic material containing at least aluminum, immersing the ceramic sintered body in hydrofluoric acid, and forming a film of aluminum fluoride at a surface layer portion of the ceramic sintered body by heating the ceramic sintered body.