| Document |
Document Title |
|
WO/2016/192049A1 |
Provided is a fine tantalum powder. The fine tantalum powder has a D50 < 5 µm, preferably a D50 < 4.5 µm, and an apparent density of 2.0-6.0 g/cm3, preferably 2.2-4.5 g/cm3. Also provided is a method for manufacturing the fine tantalum...
|
|
WO/2016/196107A1 |
A low temperature, aqueous synthesis of polyhedral iron oxide nanoparticles (IONPs) is presented. The modification of the co-precipitation hydrolysis method with Triton X surfactants results in the formation of crystalline polyhedral par...
|
|
WO/2016/194289A1 |
Through the present invention, there is manufactured a silver microparticle dispersion liquid including silver microparticles (the silver content in the silver microparticle dispersion liquid being 30-95% by mass) covered by a C8-12 amin...
|
|
WO/2016/191854A1 |
An apparatus and a process for the production at high capacity of high purity powders from a large diameter wire or rod using a combination of plasma torches and induction heating are disclosed. The process provides a superior productivi...
|
|
WO/2016/187896A1 |
Provided is a silver-chromium alloy nano-wire, the diameter thereof being 18-60 nm; the length being 5-100 μm; and the mole ratio of silver to chromium being 1: (0.01-3). A preparation method for the silver-chromium alloy nano-wire comp...
|
|
WO/2016/188114A1 |
Disclosed in the present invention is an in situ synthesis method of a transparent conductive coating of poly(3,4-ethylenedioxythiophene)/nano-silver metal. In the present invention, a transparent substrate having a silver salt oxidizing...
|
|
WO/2016/185629A1 |
Provided is a copper powder which is capable of being suitably employed for use as a conductive paste, an electromagnetic-wave shield, and the like, while ensuring excellent conductivity by increasing contact points between the copper po...
|
|
WO/2016/186037A1 |
Provided is a hard sintered alloy comprising hard phase particles that include an M2M'B2 (where M and M' are mutually different metal atoms)-type multiple boride, and a sintered phase including an alloy composition that contains M' as th...
|
|
WO/2016/185728A1 |
This method for manufacturing silver nanoparticle dispersion includes a step for mixing an amine compound, a resin, and a silver salt, and obtaining a complex compound, and step for heating and decomposing the complex compound to form si...
|
|
WO/2016/185628A1 |
Provided is a silver-coated copper powder which is capable of being suitably employed for use as a conductive paste, an electromagnetic-wave shield, and the like, while ensuring excellent conductivity by increasing contact points between...
|
|
WO/2016/184975A1 |
The invention relates to ink formulations comprising dispersions of silver nanoparticles. In particular, the invention relates to stable inks having a high concentration of silver nanoparticles.
|
|
WO/2016/187538A1 |
A precursor for additive manufacturing includes a powder of metallic particulates, each particulate having a metal core having mean diameters between 10 and 150 μm, the metal core having a first melting temperature; and each of the meta...
|
|
WO/2016/184979A1 |
The invention relates to ink formulations comprising silver nanoparticles. In particular, the invention relates to ink formulations comprising silver nanoparticles, said inks being stable, having improved conductivity and being particula...
|
|
WO/2016/184455A1 |
The invention relates to a device and a method for atomizing molten materials. To this end, molten material (6), which passes through a gap opening (5) in order to reach an outlet opening (2.1) that is flown through by propellant fluid, ...
|
|
WO/2016/182631A1 |
A method of producing a metallic powder material comprises supplying feed materials to a melting hearth, and melting the feed materials on the melting hearth with a first heat source to provide a molten material having a desired chemical...
|
|
WO/2016/177935A1 |
The invention relates to a method for forming powder particles, wherein the method comprises feeding a start material mixture including more than one constituents in the form of granules into a reactor comprising a reaction zone and a he...
|
|
WO/2016/178388A1 |
The present invention is a method for producing an electrode material containing Cu, Cr, and a heat-resistant element. A heat-resistant element powder and a Cr powder are mixed in a ratio such that the heat-resistant element < Cr in term...
|
|
WO/2016/170160A1 |
The present invention relates to a process for the preparation of thin silver nano-particle layers, which are produced directly on a substrate as part of a coating or printing process. The layers show different colours in transmittance a...
|
|
WO/2016/170904A1 |
Provided are metal particles configured from Cu and trace elements, in which the grain diameter of the particles is 10-1,000 μm, the mass ratio of Cu as measured by GDMS analysis exceeds 99.995%, and the total mass ratio of P and S amon...
|
|
WO/2016/166948A1 |
A silver fine particle composition which is characterized by containing silver fine particles, a dispersant containing an alkoxy amine, and a dispersion medium, and which is also characterized in that: the content of the dispersant is 0....
|
|
WO/2016/162990A1 |
When a non-equilibrium ThMn12-type intermetallic compound formed by rapid quenching is converted into a magnet, no low melting liquid phase is formed so that there is a problem in densification. In the present invention, a liquid phase w...
|
|
WO/2016/163643A1 |
The present invention relates to a fine-powder production device and method wherein, in the first instance, a molten raw material is disintegrated by using gas jetting, and, in the second instance, a fine powder of which the characterist...
|
|
WO/2016/107915A9 |
A method of forming a super hard polycrystalline construction comprises forming a liquid suspension of a first mass of nano-ceramic particles and a mass of particles or grains of super hard material having an average particle or grain si...
|
|
WO/2016/157762A1 |
Water preferably having a water temperature of 30°C or lower is injected into a molten metal flow to divide and cool the molten metal flow, so that metal powder is obtained. Then, secondary cooling is performed on the metal powder so th...
|
|
WO/2016/158693A1 |
A metal nanoparticle dispersion solution for solder paste, containing a reducible dispersion medium and metal nanoparticles comprising an alloy, wherein the average particle size of the metal nanoparticles is 1.0-200 nm, the sintering st...
|
|
WO/2016/152690A1 |
Provided is a production method that, using an industrially inexpensive H2 gas, generates coarse-grained high-purity Co powder from a sulfuric acid cobalt amine complex solution by using minute Co powder. A production process is for gene...
|
|
WO/2016/151141A1 |
The present invention relates to composite material (1, 101) comprising a matrix (50, 150) and a metallic layer (25, 125) located at at least one surface (8) of said composite material (1, 101), said matrix (50, 150) comprising at least ...
|
|
WO/2016/150223A1 |
Provided is a shape-memory alloy material used for three-dimensional printing, prepared primarily from the following starting materials, in parts by weight: 50-60 parts metal foam powder, 30-40 parts shape-memory alloy particulate, 3-8 p...
|
|
WO/2016/152270A1 |
Provided is an Fe-based alloy composition whereby a gas atomization method can be applied and a soft magnetic material having an amorphous phase as the main phase thereof formed. The Fe-based alloy composition has a compositional formula...
|
|
WO/2016/152269A1 |
Provided is an Fe-based alloy composition whereby a gas atomization method can be applied and a soft magnetic material having an amorphous phase as the main phase thereof formed. The Fe-based alloy composition has a compositional formula...
|
|
WO/2016/139290A1 |
The present invention relates to the use of a compound as a capping agent for controlling or modifying the growth of silver nanowires in a polyol method. The invention also relates to a corresponding method of making silver nanowires. An...
|
|
WO/2016/139591A1 |
The present invention relates to hollow nanoparticles having inside their cavity a metal core constituted by metal seeds agglomerated with a cationic polyelectrolyte, useful in medicine as well as in the bio-imaging and/or radio-therapeu...
|
|
WO/2016/140351A1 |
This method for producing copper particles comprises a preparation step and a heating step. In the preparation step, a copper compound, a salt of a typical metal element and a polyhydric alcohol are prepared. In the heating step, a mixtu...
|
|
WO/2016/139967A1 |
Nickel particles contain element nickel as the main component and also contain element copper, and have the following characteristic properties: (a) the average particle diameter of the nickel particles falls within the range from 40 to ...
|
|
WO/2016/141154A1 |
Metal matrix composites are disclosed that have a low coefficient of thermal expansion and low density. The composite includes a matrix formed from a low CTE metal alloy in which micron-scale ceramic particles are homogeneously dispersed...
|
|
WO/2016/139431A1 |
The present invention concerns a method for coating particles of ferromagnetic material with a layer of NiZn ferrite. Said method comprises: - providing particles of ferromagnetic material; - activating the surface of the particles of fe...
|
|
WO/2016/140064A1 |
Provided are a titanium powder having excellent fluidity and shape retention properties, and an ingot and a sintered article obtained using the titanium powder as the starting material. The titanium powder has an average circularity of 0...
|
|
WO/2016/138001A1 |
A method for producing a metal powder includes maintaining molten reducing metal in a sealed reaction vessel that is substantially free of oxygen and water, establishing a vortex in the molten reducing metal, introducing a metal halide i...
|
|
WO/2016/136851A1 |
A method for manufacturing a substrate for surface enhanced Raman spectroscopy which has a metal film formed on the surface thereof, said method being characterized by comprising the steps of: immersing at least a part of a substrate in ...
|
|
WO/2016/135187A1 |
A process for making full dense components of a carbon-containing steel, comprises the steps of: a) making a powder of the carbon-containing steel by gas atomization wherein the carbon content is low, less than 0.15 wt%, b) agglomerating...
|
|
WO/2016/136753A1 |
Copper-containing particles comprising a copper-containing core particle and an organic material that exists in at least a part of the surface of the core particle, wherein the ratio of copper-containing particles having a major axis len...
|
|
WO/2016/133445A1 |
The invention relates to a nozzle and a tundish arrangement used for the production of granulated and to a method and apparatus for the production of such a granular material having an improved size distribution. The grain size and grain...
|
|
WO/2016/132649A1 |
Provided is a silver coating composition with which excellent electric conductivity (low resistance) is achieved by baking at a low temperature for a short time and which has excellent printability. The present invention is a silver part...
|
|
WO/2016/129368A1 |
This silver powder is produced by reducing a silver carboxylate. The particle size distribution of primary particles of this silver powder has a first peak within the particle size range of 20-70 nm and a second peak within the particle ...
|
|
WO/2016/125355A1 |
In order to provide microparticles 2 having excellent printing properties, thermal conductivity, and electroconductivity, the microparticles 2 are configured so that flakes of an electroconductive metal, typically silver, are a main comp...
|
|
WO/2016/125581A1 |
Each of composite fine particles of the present invention is prepared by covering at least a part of the surface of a metal fine particle with a protective layer that contains an acid-decomposable polymer. The thus-obtained composite fin...
|
|
WO/2016/124073A1 |
A method for preparing micrometer and nanometer composite metallic spherical powder having a core-shell structure, comprising the following steps: (1) preparing a composite metallic powder precursor; (2) preparing the powder uniformly mi...
|
|
WO/2016/121749A1 |
The present invention addresses the problem of providing a metal powder and an ink whereby a sintered compact having excellent flexibility can be formed, and a sintered compact having excellent flexibility. The metal powder pertaining to...
|
|
WO/2016/121950A1 |
This magnetic powder represented by general formula Fea(SibBcPd)100-a is produced with a gas atomization method. Representing as (a, b) the value of a and the value of b in the general formula, (a, b) is within a prescribed region V1 sur...
|
|
WO/2016/121951A1 |
This magnetic powder is represented by general formula FeaSibBcPdCue. Therein, a, b, c, d and e satisfy 71.0 ≦ a ≦ 81.0, 0.14 ≦ b/c ≦ 5, 0 ≦ d ≦ 14, 0 < e ≦ 1.4, d ≦ 0.8a-50, e < -0.1(a+d)+10, and a+b+c+d+e = 100. The deg...
|
