Class / Patent application number | Description | Number of patent applications / Date published |
428450000 | Next to metal | 83 |
20080213603 | Methods of forming nanostructures on metal-silicide crystallites, and resulting structures and devices - Various embodiments of the present invention are directed to methods of forming nanostructures on non-single crystal substrates, and resulting nanostructures and nanoscale functional devices. In one embodiment of the present invention, a method of forming nanostructures includes forming a multi-layer structure comprising a metallic layer and a silicon layer. The multi-layer structure is subjected to a thermal process to form metal-silicide crystallites. The nanostructures are grown on the metal-silicide crystallites. In another embodiment of the present invention, a structure includes a non-single-crystal substrate and a layer formed over the non-single-crystal substrate. The layer includes metal-silicide crystallites. A number of nanostructures may be formed on the metal-silicide crystallites. The disclosed structures may be used to form a number of different types of functional devices for use in electronics and/or optoelectronics devices. | 09-04-2008 |
20080261058 | Coated cutting tool, cutting member or wear part - A coated metal substrate has at least one layer of titanium based hard material alloyed with at least one alloying element selected from the list of chromium, vanadium and silicon. The total quantity of alloying elements is between 1% and 50% of the metal content, the layer having a general formula of: (Ti | 10-23-2008 |
20080280150 | Iridescent Magnetic Effect Pigments - Iridescent magnetic pigments are produced by depositing a ferrite layer and a second metal oxide layer in succession on a substrate. The substrate may be platy and is coated with the ferrite, which is then coated with the second metal oxide layer to provide interference color effect. At least one of the layers is magnetic. The magnetic pigment may be used in coatings such as paints. | 11-13-2008 |
20080280151 | COPPER DIFFUSION BARRIER - The invention concerns a method of forming a copper portion surrounded by an insulating material in an integrated circuit structure, the insulating material being a first oxide, the method having steps including forming a composite material over a region of the insulating material where the copper portion is to be formed, the composite material having first and second materials, annealing such that the second material reacts with the insulating material to form a second oxide that provides a diffusion barrier to copper; and depositing a copper layer over the composite material by electrochemical deposition to form the copper portion. | 11-13-2008 |
20080292890 | Corrosion Resistant Member and Method for Manufacturing the Same - A corrosion resistant member comprising a base material made of ceramics or a metal and at least one layer of corrosion resistant film formed on the surface of the former. At least one layer of the corrosion resistant film is a corrosion resistant film formed from a compound of the group 3 element as the main component and has specific characteristics so that it can improve film property. | 11-27-2008 |
20090011258 | Method for Forming Paint Films and the Painted Objects - Provided herein is a method of forming paint films using a three-coat one-bake system comprising applying a white base coat comprising titanium oxide to a polyolefin substrate comprising a primer, applying a light colored mica base coat to the white base coat wet-on-wet and then applying a clear coat to the mica base coat wet-on-wet, and then heating and hardening the polyolefin substrate comprising the while base coat, the mica base coat, and the clear, wherein the primer, white base coat and mica base coat each comprise from 0.2 to 5.0 parts by weight of a biphenylphosphate compound which can be represented by formula (1) per 100 parts by weight of resin solid fraction. Also provided herein are articles manufactured according to this method of forming paint films. | 01-08-2009 |
20090047527 | MAGNETIC ELEMENT AND MANUFACTURING METHOD THEREFOR - A magnetic element and its manufacturing method are provided. A magnetic element includes an actuation part having a first surface and a second surface, a torsion bar connected to the actuation part, and a frame connected to the first torsion bar, wherein the first surface of the actuation part is an uneven surface. The manufacturing method of the magnetic element starts with forming an passivation layer on a substrate and defining a special area by the mask method, then continues with forming the adhesion layer and electroplate-initializing layer on the substrate sequentially. The photoresist layer are formed and the magnetic-inductive material is electroformed on the electroplate area. Finally, the substrate is etched and the passivation layer is removed to obtain the magnetic element. The manufacturing method of magnetic element of the present invention can be applied in the microelectromechanical system field and other categories. | 02-19-2009 |
20090075097 | PROCESS FOR PREPARING A FILM HAVING ALTERNATING MONOLAYERS OF A METAL-METAL BONDED COMPLEX MONOLAYER AND AN ORGANIC MONOLAYER BY LAYER-BY LAYER GROWTH - The present invention provides a process for preparing a thin film having alternating monolayers of a metal-metal bonded complex monolayer and an organic monolayer by layer-by-layer growth. The process comprises the steps of: (1) applying onto a surface of a substrate a first linker compound to produce a primer layer; (2) applying onto said primer layer a layer of a metal-metal bonded complex to produce a metal-metal bonded complex monolayer on said primer layer; (3) applying onto said metal-metal bonded complex monolayer a second linker compound; and optionally (4) sequentially repeating steps (2) and (3) at least once to produce said layer-by-layer grown thin film having alternating monolayers of a metal-metal bonded complex monolayer and an organic monolayer. | 03-19-2009 |
20090098394 | STRAIN TOLERANT CORROSION PROTECTING COATING AND TAPE METHOD OF APPLICATION - A corrosion resistant tape coating for gas turbine engine includes a glassy ceramic matrix wherein the glassy matrix is silica-based, and includes corrosion resistant particles selected from refractory particles and non-refractory MCrAlX particles, and combinations thereof. The corrosion resistant particles are substantially uniformly distributed within the matrix, and provide the coating with corrosion resistance. Importantly the coating of the present invention has a coefficient of thermal expansion (CTE) greater than that of alumina at engine operating temperatures. The CTE of the coating is sufficiently close to the substrate material such that the coating does not spall after frequent engine cycling at temperatures above 1200° F. | 04-16-2009 |
20090123765 | SPRAY CLAD WEAR PLATE - The present disclosure relates to a method of spray cladding a wear plate. The method may include melting an alloy including glass forming chemistry, pouring the alloy through a nozzle to form an alloy stream, forming droplets of the alloy stream, and forming a coating of the alloy on a base metal. The base plate may exhibit a first hardness H | 05-14-2009 |
20090169900 | Ceramic Resistor Element or Sensor Element - A ceramic resistor element or sensor element includes a ceramic substrate, which is exposable to a gas atmosphere containing carbon compounds, the ceramic substrate being provided with a coating. The coating includes copper, cerium and/or vanadium. | 07-02-2009 |
20090176110 | EROSION AND CORROSION-RESISTANT COATING SYSTEM AND PROCESS THEREFOR - A coating system and process capable of providing erosion and corrosion-resistance to a component, particularly a steel compressor blade of an industrial gas turbine. The coating system includes a metallic sacrificial undercoat on a surface of the component substrate, and a ceramic topcoat deposited by thermal spray on the undercoat. The undercoat contains a metal or metal alloy that is more active in the galvanic series than iron, and electrically contacts the surface of the substrate. The ceramic topcoat consists essentially of a ceramic material chosen from the group consisting of mixtures of alumina and titania, mixtures of chromia and silica, mixtures of chromia and titania, mixtures of chromia, silica, and titania, and mixtures of zirconia, titania, and yttria. | 07-09-2009 |
20090208762 | Copper Foil for Printed Wiring Board - Provided is a copper foil for a printed circuit board comprising a heatproof treatment layer formed on an non-roughened surface of the copper foil to become a joining surface with resin, a chromate coated layer formed on the heatproof treatment layer, and a silane coupling agent layer formed on the chromate coated layer, wherein the Zn amount of the outermost copper foil surface after forming the silane coupling agent layer is 1.5 Atomic % or less, and the Cr amount is 3.0 to 12.0 Atomic %. This copper foil for a printed circuit board is superior in chemical resistance, adhesiveness, and high frequency characteristics. | 08-20-2009 |
20090246541 | Dielectric ceramic composition, an electric component and a manufacturing method thereof - The present invention relates to a dielectric ceramic composition comprises a main component including a dielectric oxide having a composition shown by [(Ca | 10-01-2009 |
20090252977 | MULTILAYER FILM REFLECTOR - A stress distribution resulting from variation in in-plane film quality of a stress relaxation layer and a reflective layer is eliminated. A reflective layer is stacked on a substrate via a stress relaxation layer. The stress relaxation layer has a stress relaxation portion having a uniform film thickness distribution to cancel the internal stress of the reflective layer, and a stress distribution eliminating portion with a film thickness distribution approximated to a second order even function. The stress is substantially proportional to the film thickness. Thus, formation of a given film thickness distribution allows the stress distribution to be controlled. However, changing the film thickness distribution based on a design value may degrade the optical characteristics. Thus, the film thickness distribution of the stress distribution eliminating portion, which serves to eliminate the stress distribution, is approximated to the second order even function. This enables aberration associated with the film thickness distribution to be reduced by adjusting an optical system. | 10-08-2009 |
20090258238 | SILICIDE FORMATION UTILIZING NI-DOPED COBALT DEPOSITION SOURCE - A method of forming a layer of an electrically conductive metal-silicide material, comprises steps of: providing a Si-containing workpiece; forming a Ni-doped Co layer on a surface of the workpiece, as by sputter deposition utilizing a Ni-doped Co sputtering target; and reacting the Ni-doped Co layer and workpiece. Embodiments include performing a salicide process to form electrically conductive Ni-doped Co silicide functioning as electrically conductive contacts to the gate electrode and source and drain regions of a MOS transistor. Also disclosed are PVD sources, e.g., sputtering targets, comprising Ni-doped Co and utilized for forming the Ni-doped Co layer. | 10-15-2009 |
20090258239 | APPLIANCE WITH COATED TRANSPARENCY - An appliance transparency, such as an oven transparency, includes at least one substrate and a coating deposited over at least a portion of the substrate. The coating includes at least one metal layer, such as a metallic silver layer. The metal layer can have a thickness in the range of 80 Å to 100 Å and optionally or the coating can have a protective coating deposited thereon. | 10-15-2009 |
20090291312 | OXIDATION RESISTANT COATINGS FOR ULTRA HIGH TEMPERATURE TRANSITION METALS AND TRANSITION METAL ALLOYS - The invention provides oxidation resistant coatings for transition metal substrates and transition metal alloy substrates and method for producing the same. The coatings may be multilayered, multiphase coatings or gradient multiphase coatings. In some embodiments the transition metal alloys may be boron-containing molybdenum silicate-based binary and ternary alloys. The coatings are integrated into the substrates to provide durable coatings that stand up under extreme temperature conditions. | 11-26-2009 |
20090291313 | MICROELECTRONICS GRADE METAL SUBSTRATE, RELATED METAL-EMBEDDED DEVICES AND METHODS FOR FABRICATING SAME - Fabricating a microelectronics grade metal substrate comprises forming the metal substrate on a sacrificial substrate. An adhesion layer can be deposited on or over the surface of the sacrificial substrate. A seed layer of the metal can be deposited on or over the adhesion layer. The metal material can be deposited on the seed layer by electroplating or other low-temperature, low-stress process to form a microelectronics-grade metal substrate. Thin film sensors and/or other microelectronic devices, followed by appropriate insulating layer(s), may be fabricated on or over the sacrificial substrate before forming the metal substrate. The sacrificial silicon substrate can then be etched away, leaving the microelectronics-grade metal substrate, and possibly the microelectronics device. Another insulating layer(s), followed by another adhesion layer, another seed layer and additional amounts of the material forming the metal substrate can then be deposited over the now-exposed microelectronics device to encapsulate it within a metal shell. | 11-26-2009 |
20090311541 | METHOD OF MANUFACTURING A METAL MATRIX COMPOSITE - The present invention relates to a metal matrix composite (MMC) and the method of manufacturing the MMC. The MMC includes a preform formed from a composition having ceramic particles and ceramic fibers. The metal matrix composite also includes a support element formed from a metal where the metal impregnates through the preform. The method of forming the MMC includes the step of extruding the composition through a multi-screw extruder to form an extrudate. The method also includes the step of heating the preform and positioning the preform within a mold. The method further includes the step of heating the metal for forming a molten metal and injecting the molten metal into a cavity of the mold under pressure for infiltrating the preform with the molten metal. The method also includes cooling the molten metal to solidify the molten metal and form the metal matrix composite and removing the metal matrix composite from the mold. | 12-17-2009 |
20090317642 | Braking Band Composite Structure of a Brake Disc - A method for making a composite structure or a portion of a composite structure of a braking band of a brake disc, unusually capable of obtaining a structure with an especially long life, comprising at least the following steps:
| 12-24-2009 |
20100003529 | SURFACE-TREATED METAL MATERIAL AND PRODUCING METHOD THEREOF - This surface-treated metal material includes a composite film obtained by applying a metal surface treatment agent on a surface of a metal material and drying the metal surface treatment agent, the metal surface treatment agent containing: an organic silicon compound (W) obtained by combining a silane coupling agent (A) containing one amino group in a molecule and one glycidyl group in a molecule, at a solid content mass ratio [(A)/(B)] of 0.7 to 1.7; at least one kind of fluorine compound (X) selected from titanium hydrofluoric acid and zirconium hydrofluoric acid; a phosphoric acid (Y); a vanadium compound (Z); and at least one kind of lubricant (J). | 01-07-2010 |
20100021747 | HETEROLEPTIC CYCLOPENTADIENYL TRANSITION METAL PRECURSORS FOR DEPOSITION OF TRANSITION METAL-CONTAINING FILMS - Methods and compositions for depositing a film on one or more substrates include providing a reactor with at least one substrate disposed in the reactor. At least one metal precursor are provided and at least partially deposited onto the substrate to form a metal-containing film. | 01-28-2010 |
20100028695 | LOW k DIELECTRIC CVD FILM FORMATION PROCESS WITH IN-SITU IMBEDDED NANOLAYERS TO IMPROVE MECHANICAL PROPERTIES - A low k dielectric stack having an effective dielectric constant k, of about 3.0 or less, in which the mechanical properties of the stack are improved by introducing at least one nanolayer into the dielectric stack. The improvement in mechanical properties is achieved without significantly increasing the dielectric constant of the films within the stack and without the need of subjecting the inventive dielectric stack to any post treatment steps. Specifically, the present invention provides a low k dielectric stack that comprises at least one low k dielectric material and at least one nanolayer present within the at least one low k dielectric material. | 02-04-2010 |
20100055478 | METHOD FOR THE REFRACTORY ASSEMBLY OF A CARBON MATERIAL AND A COPPER ALLOY - The invention relates to a method for assembling at least one part made of a porous carbon material with at least one part made of a copper-rich metal material, and to an alloy paste used to implement same. The method according to the invention includes a step comprising the use of an alloy based on copper and silicon, having formula I Cu | 03-04-2010 |
20100112360 | LAYERED THERMAL INTERFACE SYSTEMS METHODS OF PRODUCTION AND USES THEREOF - A layered thermal interface system is described herein that comprises: at least one deposition layer of metal, at least one layer of thermal interface material, at least one plated layer of metal, and at least one heat spreader. Another layered thermal interface system is described herein that comprises: a silicon layer, at least one deposition layer of metal, at least one layer of thermal interface material, at least one plated layer of metal, and at least one heat spreader Methods of forming contemplated layered thermal system comprise: a) providing at least one deposition layer of metal, b) providing at least one plated layer of metal, c) providing at least one thermal interface material, and d) layering the at least one deposition layer of metal, the at least one thermal interface material, and the at least one plated layer of metal to produce the layered thermal system. Methods of forming another contemplated layered thermal system comprise: a) providing a silicon die, layer or surface, b) providing at least one deposition layer of metal, c) providing at least one plated layer of metal, d) providing at least one thermal interface material, e) providing at least one heat spreader material, and f) layering the silicon surface, the at least one deposition layer of metal, the at least one thermal interface material, the at least one plated layer of metal and the at least one heat spreader to produce the layered thermal system. | 05-06-2010 |
20100129673 | REINFORCED OXIDE COATINGS - A reinforced coating may include an oxide matrix and a reinforcement. In some embodiments, the reinforcement may include at least one of SiC and Si | 05-27-2010 |
20100178521 | SILANE COATING COMPOSITIONS CONTAINING SILICON-BASED POLYETHER COPOLYMERS, METHODS FOR COATING METAL SURFACES AND ARTICLESMADE THEREFROM - A silane coating composition containing a silicon-based copolymer, a method for treating the surfaces of a metal such as steel, zinc-coated steels, or aluminum, to provide for the formation of a uniform conversion and/or passivation coating which increases the corrosion resistance of bare or painted metal and/or the adhesion properties of the metal, along with a metal having a conversion and/or passivation coating applied thereto are disclosed. Methods of the invention include contacting the requisite metal surface with an aqueous solution of a silane compound and a silicon-based polyether copolymer. | 07-15-2010 |
20100215971 | METHOD FOR METALLIZING POLYESTER AND METALLIZED POLYESTER - The present invention relates to a method for metallizing polyester, wherein the polyester
| 08-26-2010 |
20110014484 | ELECTRON ABSORBER LAYER - In a method for applying an electron absorber layer to a substrate, an electron absorber layer is produced from a composite material, by coating the substrate with a metallic material, and material inclusions made from an additional material are embedded in the metallic material during coating. The metallic material contains aluminum, magnesium, cobalt, iron, chromium, titanium, nickel, copper, or an alloy or mixture thereof. The additional material contains one or more of the following substances: boron, carbon or silicon, a mixture of these elements, one or more chemical compounds made from or having at least two of these elements, or a mixture of such chemical compounds. | 01-20-2011 |
20110033717 | METHOD FOR BONDING CERAMIC MATERIALS - Systems and methods for bonding ceramic materials are disclosed herein. In various embodiments, a process is provided comprising the steps of disposing a bonding material at least partially adjacent to a surface of a first silicon carbide component and at least partially adjacent to a surface of a second silicon carbide component, and bonding said first silicon carbide component to said second silicon carbide component by heating, wherein said bonding material comprises vanadium or titanium. | 02-10-2011 |
20110059323 | Alloy, high-temperature corrosion protection layer and layer system - A nickel-based protective layer which has a high percentage in chromium and optionally silicon and/or yttrium is provided. The nickel-based protective layer is used as low-temperature corrosion protective layer of nickel-or cobalt-based alloys. The alloy of which the layer is made and a layer system are also provided. The alloy may also include a refractory element such as hafnium or scandium. | 03-10-2011 |
20110117373 | COMPOUND MATERIAL, METHOD OF PRODUCING THE SAME AND APPARATUS FOR PRODUCING THE SAME - Proposed are a composite material having a high adhesiveness, wherein non-penetrating pores that are formed in a silicone surface layer are filled up with a metal or the like without leaving any voids by using the plating technique and the silicone surface layer is coated with the metal or the like, and a method of producing the composite material. A composite material, which has a high adhesiveness between a second metal or an alloy of the second metal ( | 05-19-2011 |
20110123813 | COMPOSITE MATERIAL, METHOD FOR PRODUCING THE SAME, AND APPARATUS FOR PRODUCING THE SAME - Disclosed is a composite material wherein adhesion between a silicon surface and a plating material is enhanced. A method and an apparatus for producing the composite material are also disclosed. The method for producing a composite material comprises a dispersion/allocation step wherein the surface of a silicon substrate ( | 05-26-2011 |
20110135947 | Masking Material, Masking Layer, Process for Masking a Substrate and Process for Coating a Substrate - A two-layer system made of ceramic powder and metallic powder is provided. The ceramic powder may include zirconium oxide, aluminum oxide, titanium oxide, a perovskite, a spindle, a pyrochore and/or boron nitride and mixtures thereof. The metallic powder may include nickel, aluminum, cobalt and/or chromium, and mixtures or alloys thereof. A masking layer and a process for masking a substrate are also provided. | 06-09-2011 |
20110151266 | ANTICORROSION PIGMENTS WITH POSITIVE ZETA POTENTIAL - The present invention relates to the use of oxidic nanoparticles having an average particle size of 2 to 2000 nm in combination with at least one polycationic polymer as corrosion protection for metallic surfaces and also to a method of protecting metallic surfaces from corrosion, comprising the steps of:
| 06-23-2011 |
20110206937 | COMPOSITE ARTICLE HAVING A CERAMIC NANOCOMPOSITE LAYER - A composite article includes a substrate and a ceramic nanocomposite layer disposed on the substrate. The ceramic nanocomposite layer has a composition that includes silicon, boron, carbon and nitrogen. | 08-25-2011 |
20110236695 | COMPOSITE ARTICLE HAVING A SOLID SOLUTION PROTECTIVE LAYER - A composite article includes a substrate and a protective layer disposed on the substrate. The protective layer has a silicon-aluminum-carbon-nitrogen solid solution composition and microstructure. | 09-29-2011 |
20110287269 | ALLOY, PROTECTIVE LAYER AND COMPONENT - A protective layer includes a composition (in wt %) of | 11-24-2011 |
20110318587 | RADIATION SHIELDING WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANES AND METALLIZED ADDITIVES - Nanoscopic metallized and nonmetallized nanoscopic silicon containing agents including polyhedral oligomeric silsesquioxane and polyhedral oligomeric silicate provide radiation absorption and in situ formation of nanoscopic glass layers on material surfaces. These property improvements are useful in space-survivable materials, microelectronic packaging, and radiation absorptive paints, coatings and molded articles. | 12-29-2011 |
20120028055 | COMPOSITE ARTICLE HAVING PROTECTIVE COATING - A composite article includes a substrate and a protective coating on at least a portion of the substrate. The protective coating includes reinforcement particles dispersed within an elastomeric matrix that is modified with a silicon-containing modifier selected from polysilsesquioxane, polyhedral oligomeric silicate and polyhedral oligomeric silsesquioxane (POSS). | 02-02-2012 |
20120100381 | PROCESS FOR JOINING STAINLESS STEEL PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a silicon carbide ceramic part comprising: providing a SUS part, a SiC ceramic part, a Mo foil and a Ti foil; placing the SiC ceramic part, the Mo foil, the Ti foil, and the SUS part into a mold, the Mo foil and the Ti foil located between the SiC ceramic part and the SUS part, the Mo foil abutting the SiC ceramic part, the Ti foil abutting the SUS part and the Mo foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the SUS part, the SiC ceramic part, the Mo foil, and the Ti foil at least until the SUS part, the SiC ceramic part, the Mo foil and the Ti foil form a integral composite article. | 04-26-2012 |
20120107627 | Plating or Coating Method for Producing Metal-Ceramic Coating on a Substrate - A method for producing a metal-ceramic composite coating with increased hardness on a substrate includes adding a sol of a ceramic phase to the plating solution or electrolyte. The sol may be added prior to and/or during the plating or coating and at a rate of sol addition controlled to be sufficiently low that nanoparticles of the ceramic phase form directly onto or at the substrate and/or that the metal-ceramic coating forms on the substrate with a predominantly crystalline structure and/or to substantially avoid formation of nanoparticles of the ceramic phase, and/or agglomeration of particles of the ceramic phase, in the plating solution or electrolyte. The ceramic phase may be a single or mixed oxide, carbide, nitride, silicate, boride of Ti, W, Si, Zr, Al, Y, Cr, Fe, Pb, Co, or a rare earth element. The coating, other than the ceramic phase may comprise Ni, Ni—P, Ni—W—P, Ni—Cu—P, Ni—B, Cu, Ag, Au, Pd. | 05-03-2012 |
20120183790 | THERMAL SPRAY COMPOSITE COATINGS FOR SEMICONDUCTOR APPLICATIONS - This invention relates to thermal spray composite coatings on a metal or non-metal substrate. The thermal spray composite coatings comprise a ceramic composite coating having at least two ceramic material phases randomly and uniformly dispersed and/or spatially oriented throughout the ceramic composite coating. At least a first ceramic material phase is present in an amount sufficient to provide corrosion resistance to the ceramic composite coating, and at least a second ceramic material phase is present in an amount sufficient to provide plasma erosion resistance to the ceramic composite coating. This invention also relates to methods of protecting metal and non-metal substrates by applying the thermal spray coatings. The composite coatings provide erosion and corrosion resistance at processing temperatures higher than conventional processing temperatures used in the semiconductor etch industry, e.g., greater than 100° C. The coatings are useful, for example, in the protection of semiconductor manufacturing equipment, e.g., integrated circuit, light emitting diode, display, and photovoltaic, internal chamber components, and electrostatic chuck manufacture. | 07-19-2012 |
20120196136 | ROCK SHEET AND PLATE MIX BASED ON VOLCANIC ROCK PARTICLES USEFUL FOR BUILDING AND DECORATION AND ITS MANUFACTURING PROCESSES - The present invention relates to a mix to manufacture a rock sheet on a solid base useful for decorating purposes. The mix includes a binding composition of an agglutinating agent comprising volcanic rock particles having a particle size of 1 to 5 microns and a polymer mixture in a combined amount sufficient to act as a binder for other components of the laminate; a silicate compound in an amount sufficient to stabilize the composition; and water in an amount to moisten and fluidize the composition. The mix can contain other components for forming laminates or shapes, and can be formed as or on a plate useful for building and decorating buildings made-up by a rock sheet manufactured with the aforementioned mix and a solid base. The methods for preparing the aforementioned mix and plates useful for the construction and decoration of construction surfaces are also disclosed. | 08-02-2012 |
20120196137 | Protective coating, a coated member having a protective coating as well as method for producing a protective coating - The invention relates to a protective coating, having the chemical composition C | 08-02-2012 |
20120219808 | PROTECTIVE COATINGS AND COATED COMPONENTS COMPRISING THE PROTECTIVE COATINGS - A coated component is provided comprising a silicon-based substrate and a braze layer overlying the silicon-based substrate. The braze layer comprises silicon, tantalum, and a metal element having substantially the same melt temperature with silicon as tantalum has with silicon. The braze layer further comprises ceramic particles. Protective coatings are also provided. | 08-30-2012 |
20120225306 | BRAZING PROCESS - A brazing process for joining at least two components having ceramic oxide surfaces is described. The brazing filler used in the process comprises a noble metal and a second metal. During the brazing process, the filler is heated in an oxidising atmosphere such as air. The heating is undertaken until at least the noble metal is molten. The molten filler comprises a surface oxide formed from a stable, non-volatile oxide of the second metal that does not significantly alloy with the molten noble metal. The molten filler is able to wet the ceramic oxide surfaces and is subsequently cooled between them to thereby join them together. | 09-06-2012 |
20120258322 | Ceramic Product and Method for Its Manufacture - A ceramic product | 10-11-2012 |
20120295121 | FABRICATION OF MIRROR-LIKE COATINGS - Multi-layer coatings suitable for imparting a decorative, durable mirror-like finish to substrates such as metals are provided which contain a base coating of epoxy, a mirror-like coating, and a scratch-resistant surface coating. | 11-22-2012 |
20120301731 | METHOD FOR FORMING CRYSTALLINE COBALT SILICIDE FILM - The present invention is directed to a method for forming a crystalline cobalt silicide film, comprising the steps of:
| 11-29-2012 |
20120308839 | METHOD FOR ASSEMBLING PARTS MADE OF SIC MATERIALS BY NON-REACTIVE BRAZING, BRAZING COMPOSITIONS, AND JOINT AND ASSEMBLY OBTAINED BY SAID METHOD - A method for assembling at least two parts made of silicon carbide-based materials by non-reactive brazing is disclosed. The two parts are contacted with a non-reactive brazing composition. The assembly formed by the parts and the brazing composition is heated to a sufficient brazing temperature sufficient to melt the brazing composition. The parts and the brazing composition are cooled so that, after solidification of the brazing composition, a moderately refractory joint is formed. The non-reactive brazing composition is a binary alloy composed, in mass percentages, of about 46% to 99% silicon and 54% to 1% neodymium. | 12-06-2012 |
20120321903 | HOT-PRESSED MEMBER AND METHOD FOR PRODUCING THE SAME - A hot-pressed member includes a steel sheet, a Ni-diffusion region present in a surface layer of the steel sheet, and an intermetallic compound layer and a ZnO layer which are provided in order on the Ni-diffusion region, the intermetallic compound layer corresponding to a γ phase present in a phase equilibrium diagram of a Zn—Ni alloy, wherein a spontaneous immersion potential indicated in a 0.5 M NaCl aqueous air-saturated solution at 25° C.±5° C. is −600 to −360 mV based on a standard hydrogen electrode. | 12-20-2012 |
20130004781 | INTEGRATION CMOS COMPATIBLE OF MICRO/NANO OPTICAL GAIN MATERIALS - A method is provided for the integration of an optical gain material into a Complementary metal oxide semiconductor device, the method comprising the steps of: configuring a workpiece from a silicon wafer upon which is disposed an InP wafer bearing an epitaxy layer; mechanically removing the InP substrate; etching the InP remaining on epitaxy layer with hydrochloric acid; depositing at least one Oxide pad on revealed the epitaxy layer; using the Oxide pad as a mask during a first pattern etch removing the epitaxy to an N level; etching with a patterned inductively coupled plasma (ICP) technique; isolating the device on the substrate with additional pattern etching patterning contacts, applying the contacts. | 01-03-2013 |
20130059161 | METAL POWDER PRODUCTION METHOD, METAL POWDER PRODUCED THEREBY, CONDUCTIVE PASTE AND MULTILAYER CERAMIC ELECTRONIC COMPONENT - Fine, highly-crystallized metal powder is produced at low cost and high efficiency by a method involving: ejecting raw material powder composed of one or more kinds of thermally decomposable metal compound powders into a reaction vessel through a nozzle together with a carrier gas and producing a metal powder by heating the raw material powder at a temperature T | 03-07-2013 |
20130130043 | GRAIN ORIENTED ELECTRICAL STEEL SHEET AND METHOD FOR MANUFACTURING THE SAME - A grain oriented electrical steel sheet is subjected to magnetic domain refining treatment by electron beam irradiation and exhibits excellent low-noise properties when assembled as an actual transformer, in which a ratio (Wa/Wb) of a film thickness (Wa) of the forsierite film on a strain-introduced side of the steel sheet to a film thickness (Wb) of the forsierite film on a non-strain-introduced side of the steel sheet is 0.5 or higher, a magnetic domain discontinuous portion in a surface of the steel sheet on the strain-introduced side has an average width of 150 to 300 μm, and a magnetic domain discontinuous portion in a surface of the steel sheet on the non-strain-introduced side has an average width of 250 to 500 μm. | 05-23-2013 |
20130143050 | GRAIN ORIENTED ELECTRICAL STEEL SHEET AND METHOD FOR MANUFACTURING THE SAME - A grain oriented electrical steel sheet that is subjected to magnetic domain refining treatment by electron beam irradiation and exhibits excellent low-noise properties when assembled as an actual transformer in which tension exerted on the steel sheet by the forsterite film is 2.0 MPa or higher both in a rolling direction and a direction transverse (perpendicular) to the rolling direction, and a ratio of an irradiation pitch in a thermal strain introduced region (B) to a spot diameter (A) on an electron beam irradiation surface satisfies 0.5≦B/A≦5.0. | 06-06-2013 |
20130164547 | CEMENTED CARBIDE BODY AND APPLICATIONS THEREOF - In one aspect, cemented carbide bodies are provided. A cemented carbide body described herein, in some embodiments, comprises a tungsten carbide phase, a binder phase comprising at least one metal of the iron group or an alloy thereof, a solid solution phase of carbides of zirconium and niobium (Zr,Nb)C and cubic carbides in an amount ranging from about 0.5 volume percent to about 6 volume percent. | 06-27-2013 |
20130202898 | METHOD FOR FABRICATING SEMICONDUCTOR NANOWIRE AND SEMICONDUCTOR NANOSTRUCTURE - A method for fabricating semiconductor nanowire includes the following steps: providing a metal substrate in a reactor; filling the reactor with an inert gas; heating and maintaining the reactor in a reaction temperature, raising the pressure in the reactor to a first predetermined pressure, and then passing a reacting precursor into the reactor; keeping passing the reacting precursor to raising the pressure of the reactor to a second predetermined pressure; and, maintaining the second predetermined pressure for a predetermined duration, so as to form semiconductor nanowires on the metal bulk. Accordingly, the method of the invention is capable of forming semiconductor nanowires on metal substrate, so that the processes for fabricating semiconductor nanowires can be simplified. | 08-08-2013 |
20130216842 | METHOD OF BONDING CERAMIC AND METAL AND BONDED STRUCTURE OF CERAMIC AND METAL - The present invention provides a method of bonding ceramic and metal comprising the steps of bonding metal foils to a bonding surface of a ceramic matrix and a bonding surface of a metal matrix to be bonded and then heating so as to leave metal layers at the surfaces of the metal foils while forming diffusion layers with inclined linear expansion coefficients with materials of the metal foils diffused in them between the ceramic matrix and metal layer and between the metal matrix and metal layer, and making the respective metal layers which remain at the surfaces of the metal foils bond so as to bond the ceramic matrix and the metal matrix. | 08-22-2013 |
20130266816 | ADDITIVE MANUFACTURING HYBRID CORE - A hybrid core for manufacturing high temperature parts includes a non-refractory metal portion and a refractory metal portion wherein at least a portion of the non-refractory metal portion and the refractory metal portion are manufactured by using an additive manufacturing process. | 10-10-2013 |
20130280543 | ANTI-CORROSIVE COMPOSITIONS - The invention relates to an anti-corrosive composition comprising an active material of formula I wherein R is an aliphatic chain of C | 10-24-2013 |
20140065434 | Steel Sheet Suitable for Enamelling and Method for Producing Such a Sheet - The present invention is related to a rolled steel sheet suitable for enamelling, said sheet having a carbon profile, defined by a gradient in the C-level from a level C | 03-06-2014 |
20140134444 | INORGANIC FIBER BLOCK - An inorganic fiber block obtained by stacking blanket-like products each including inorganic fibers, wherein the composition of the inorganic fibers have the following composition: SiO | 05-15-2014 |
20140141266 | METHOD OF USING A SPRAY GUN AND MATERIAL PRODUCED THEREBY - An apparatus for mixing a first material with a second material and then spraying the resultant material onto a surface. The second material is mixed with a gas before then being introduced to the first material. A static charge is created and deposited onto the resultant material to help align the resultant material particles. | 05-22-2014 |
20140220365 | LAMINATED ELECTRODE - A laminated electrode disposed on a substrate includes a first layer disposed at a top surface and a second layer directly joined to the first layer. A material of the first layer is gold. A material of the second layer is nickel silicide. | 08-07-2014 |
20140234638 | GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND MANUFACTURING METHOD THEREOF - A grain-oriented electrical steel sheet to which electron beam irradiation is applied, has a film and a thickness of t (mm), wherein no rust is produced on a surface of the steel sheet after a humidity cabinet test lasting 48 hours at a temperature of 50° C. in an atmosphere of 98% humidity, and iron loss W | 08-21-2014 |
20140370309 | HARD-MATERIAL-COATED BODIES COMPOSED OF METAL, CEMENTED HARD MATERIAL, CERMET OR CERAMIC AND PROCESSES FOR PRODUCING SUCH BODIES - Hard-material-coated bodies composed of metal, cemented hard material, cermet or ceramic, coated with a TiSiCN composite layer or with a multilayer layer system which contains at least one TiSiCN composite layer. The TiSiCN composite layer is a nanocomposite layer which has been produced by a thermal CVD process without additional plasma excitation and contains a nanocrystalline phase composed of TiC | 12-18-2014 |
20140377573 | DIRECTIONAL ELECTROMAGNETIC STEEL SHEET WITH COATING, AND METHOD FOR PRODUCING SAME - A directional electromagnetic steel sheet with a coating includes a directional electromagnetic steel sheet; and a coating that is formed on the surface of the directional electromagnetic steel sheet and contains elements P, Si, Cr and O as well as at least one element that is selected from the group consisting of Mg, Al, Ni, Co, Mn, Zn, Fe, Ca and Ba, with 5% by mass or more thereof being composed of a crystalline phase of a phosphate salt. | 12-25-2014 |
20150017456 | Reducing voids caused by trapped acid on a dielectric surface - When an etchant for metal (e.g., HF) reaches an underlying silicon oxide layer, it may form silanol bonds or other hydrogen bonds that resist rinsing, so that some etchant remains to be trapped under the next deposited layer. Trapped etchant can create voids that eventually degrade the performance of the oxide layer. Exposing the surface to a liquid solution or gaseous precursor containing silane seals the defects without causing an overall thickness change. The silane reacts at sites with silanol (or other hydrogen) bonds, breaking the bonds and replacing the hydrogen with silicon, but does not react in the absence of a hydrogen bond. | 01-15-2015 |
20150064481 | GRAIN ORIENTED ELECTRICAL STEEL WITH IMPROVED FORSTERITE COATING CHARACTERISTICS - Increasing the chromium content of an electrical steel substrate to a level greater than or equal to about 0.45 weight percent (wt %) produced a much improved forsterite coating having superior and more uniform coloration, thickness and adhesion. Moreover, the so-formed forsterite coating provides greater tension potentially reducing the relative importance of any secondary coating. | 03-05-2015 |
20150079411 | EXTRUSION COATED POLYMER LAYER WITH REDUCED COEFFICIENT OF FRICTION - Article comprising a substrate being a metal and a polymer layer, said polymer layer is extrusion coated on the substrate, wherein the polymer layer comprises a composition comprising (a) polyolefin, (b) a non-migratory slip agent, and (c) an anti-blocking agent. | 03-19-2015 |
20150086796 | CERAMIC THERMALLY INSULATING LAYER SYSTEM HAVING AN EXTERNAL ALUMINUM-RICH LAYER AND METHOD - A layer system is provided that has at least: a substrate, a ceramic layer and an outermost layer, which has an aluminum-rich form, in particular directly on the ceramic layer, and optionally a metallic bonding layer between the substrate and the ceramic layer, and in which the outermost layer has aluminum particles, in particular aluminum particles with a particle size of 100 nm to 50 μm. As a result of applying particles of aluminum to an outermost layer, the ceramic layer is better protected against what is known as CMAS (calcium, magnesium, aluminum and silicon) attacks. | 03-26-2015 |
20150321219 | INORGANIC MICROFILM COATED SUBSTRATE AND METHOD THEREOF - An inorganic microfilm coated substrate and a method thereof. The inorganic microfilm coated substrate includes a substrate; and an inorganic microfilm layer, disposed on the substrate and being an inorganic microfilm composition, wherein the inorganic microfilm composition comprising: a silicon oxide ion solution; a lithium ion solution; and a potassium ion solution, wherein the silicon oxide ion solution, the lithium ion solution, and the potassium ion solution are mixed together to form the inorganic microfilm composition. The method for making an inorganic microfilm coated substrate includes the steps of providing a substrate and surface property of the substrate is modified by using an inorganic acid salt; and proving an inorganic microfilm composition, and the inorganic microfilm composition is coated on the substrate, and then baked to form an inorganic microfilm layer. | 11-12-2015 |
20150328706 | POWER-MODULE SUBSTRATE AND MANUFACTURING METHOD THEREOF - To provide a power-module substrate and a manufacturing method thereof in which small voids are reduced at a bonded part and separation can be prevented. Bonding a metal plate of aluminum or aluminum alloy to at least one surface of a ceramic substrate by brazing, when a cross section of the metal plate is observed by a scanning electron microscope in a field of 3000 magnifications in a depth extent of 5 μm from a bonded interface between the metal plate and the ceramic substrate in a width area of 200 μm from a side edge of the metal plate, residual-continuous oxide existing continuously by 2 μm or more along the bonded interface has total length of 70% or less with respect to a length of the field. | 11-19-2015 |
20160081349 | BIOCIDAL GLAZING COMPOSITION, METHOD, AND ARTICLE - A biocidal additive package comprises at least one metal or metal containing compound selected from the group consisting of Cu | 03-24-2016 |
20160083848 | CONVERSION COATING COMPOSITION COMPRISING A DYE AND A METHOD FOR COATING A METAL SURFACE WITH SAID CONVERSION COATING COMPOSITION - The invention is directed to a conversion coating composition for coating a metal surface including a water soluble dye, at least one metal compound selected from the group consisting of a zirconium-containing compound, titanium-containing compound and silicon-containing compound; and water, wherein the provides for qualitative characterization of the conversion coating uniformity and thickness by the naked human eye or visible light detecting device; and, a method for coating the metal surfaces using the conversion coating composition. | 03-24-2016 |
20160115088 | METAL COATING ON CERAMIC SUBSTRATES - A method for producing metal coatings on ceramic substrates for establishing electrical contact, and ceramic substrates having metal coatings. More particularly, the invention relates to the production of weldable and solderable metal coatings on ceramic substrates. | 04-28-2016 |
20160130706 | METHOD FOR MANUFACTURING A PORCELAIN ENAMEL COATING OF A METAL SUBSTRATE AND ARTICLE OBTAINED BY THE METHOD - A method for manufacturing a porcelain enamel coating of a metal substrate comprises the steps of: preparing the surface of the metal substrate; applying a primer on the metal substrate; firing inside an oven at a temperature of between 750 and 900° C.; applying an enamel suspension comprising water and a glass frit; firing inside an oven at a temperature of between 700 and 900° C.; and repeating the last two steps according to the desired thickness of porcelain enamel. The method is characterized in that the glass frit comprises a quantity of lattice modifiers belonging to the transition metals, equal to less than 1% of the total volume of the glass frit; a quantity of opacifying oxides equal to less than 1% of the total volume of the glass frit is added to the glass frit. Moreover, the enamel suspension comprises a quantity of suspending agents with dimensions greater than the wavelength range of visible radiation, equal to less than 1% of the total volume of the glass frit. | 05-12-2016 |
20160153084 | CERAMIC DIELECTRIC FILMS, METHOD FOR MAKING CERAMIC DIELECTRIC FILMS | 06-02-2016 |
20160175990 | A NOVEL BRAZING CONCEPT | 06-23-2016 |
20170233871 | PRE-COATING AGENT COMPOSITION FOR GRAIN-ORIENTED ELECTRICAL STEEL SHEET, GRAIN-ORIENTED ELECTRICAL STEEL SHEET COMPRISING SAME, AND MANUFACTURING METHOD THEREFOR | 08-17-2017 |
20190144345 | SILICON COMPOSITIONS CONTAINING BORON AND METHODS OF FORMING THE SAME | 05-16-2019 |