| Document |
Document Title |
|
JP2019143272A |
To provide an antibacterial fabric using a composite fiber including a copper-alloy yarn.A production method of the present invention includes the steps of: supplying a proper amount of a copper-alloy raw material containing high-purity ...
|
|
JP6566566B2 |
|
|
JP6568930B2 |
A casting tool for a piston may include a casting mold for forming a piston part from a casting melt and a casting head including a feeder for feeding the casting melt into the casting mold. The casting head may include a ring-shaped gro...
|
|
JP2019136762A |
To provide an Al-Si based alloy cast material manufacturing method that can appropriately adjust amounts of Ti to be added.The Al-Si based alloy cast material manufacturing method, in which Al-Si based alloy molten metal W1 supplied to a...
|
|
JP2019136763A |
To provide an Al-Mg based alloy cast material manufacturing method that can appropriately adjust amounts of Ti to be added.The Al-Mg based alloy cast material manufacturing method, in which Al-Mg based alloy molten metal W1 supplied to a...
|
|
JP2019136760A |
To provide an Al-Cu based alloy cast material manufacturing method that can appropriately adjust amounts of Ti to be added.The Al-Cu based alloy casting material manufacturing method, in which Al-Cu based alloy molten metal W1 supplied t...
|
|
JP2019136759A |
To provide an Al alloy cast material manufacturing method that can appropriately adjust amounts of Ti to be added.The Al alloy cast material manufacturing method, in which Al alloy molten metal W1 supplied to a casting machine 6 through ...
|
|
JP6563691B2 |
The disclosure relates generally to mold 10 compositions and methods of molding and the articles so molded. More specifically, the disclosure relates to a mold 10 for casting a titanium-containing article, comprising calcium aluminate an...
|
|
JP6563831B2 |
|
|
JP6540075B2 |
The present invention relates to a Ti-Al-based heat-resistant member including a Ti-Al-based alloy which includes: 28.0 mass% to 35.0 mass% of Al; 1.0 mass% to 15.0 mass% of at least one selected from the group consisting ofNb, Mo, W and...
|
|
JP6534379B2 |
A cast component includes a cast body that has a single crystal microstructure and an internal corner bounding an internal cavity. The single crystal microstructure defines a critical internal residual stress with respect to investment c...
|
|
JP6532680B2 |
A core pin is provided that prevents a molten metal from flowing into a pipe and a casting device using the same is also provided. The core pin specifically contacts a first end of the pipe inserted into a mold to close the end of the pi...
|
|
JP6524688B2 |
|
|
JP6526564B2 |
A method for producing an engine component, more particularly a piston for an internal combustion engine, in which an aluminum alloy is cast using the gravity die casting method is provided. The aluminum alloy comprises: 9 to ≤10.5% by...
|
|
JP6524689B2 |
|
|
JP6518523B2 |
|
|
JP2019072766A |
To provide high temperature engineering stiffness core-shell mold components for casting and processes utilizing these components.A method for fabricating a ceramic mold is provided. The method includes the steps of contacting a cured po...
|
|
JP6511968B2 |
|
|
JP2019512051A |
The present invention relates to Al cast alloys.
|
|
JP6509059B2 |
|
|
JP6507848B2 |
|
|
JP2019056139A |
To provide a copper alloy member that can exhibit higher resistance to calcium scale adhesion and can be suitably used for a heat transfer pipe of a heat exchanger for a water heater or its piping, and piping for hot-water supply used in...
|
|
JP6497186B2 |
An alloying-element additive for adding an alloy element to a copper melt formed by melting a base material including a copper in manufacturing a copper alloy. The alloying-element additive includes a wire-shaped or plate-shaped core inc...
|
|
JP6496809B2 |
The invention provides magnesium alloys for high temperature applications that combine excellent castability with superior corrosion resistance, and with good creep resistance, ductility, impact strength, and thermal conductivity. The al...
|
|
JP6495246B2 |
A method for casting an aluminum alloy includes: pouring molten metal of an aluminum alloy comprising 6.0 to 9.0 mass % of Si, 0.4 to 0.8 mass % of Mg, 0.25 to 1.0 mass % of Cu, 0.08 to 0.25 mass % of Fe, 0.6 mass % or less of Mn, 0.2 ma...
|
|
JP6488072B2 |
The method comprises melting and filling a hardenable aluminum alloy into a die casting mold (4), and cooling the melted aluminum alloy (1) by the mold made of a material having a thermal conductivity causing the melted aluminum alloy to...
|
|
JP6484674B2 |
An apparatus and method are described for effectively priming a non-electrically conductive filter for removal of solid inclusions from liquid metal. In one embodiment, the ceramic filter media is surrounded by a low frequency induction ...
|
|
JP6476704B2 |
|
|
JP6475570B2 |
|
|
JP2019025523A |
To obtain a low-cost cast product with a complicated shape by enabling the use of a solidification speed region not attained with a die or a sand die alone.There is provided a composite die provided with a metallic die and a sand die mol...
|
|
JP6467144B2 |
|
|
JP6459375B2 |
|
|
JP6462590B2 |
An apparatus and a system including a casting pit; a mold including a reservoir and a cavity; a coolant feed operable to introduce a coolant to a periphery of a metal emerging from the mold cavity; an array of water vapor exhaust ports a...
|
|
JP2019011505A |
To provide aluminum alloys with high strength-to-weight ratios.An aluminum alloy includes aluminum, about 2.5 wt.% to about 17.4 wt.% of magnesium, about 50 ppm to about 3000 ppm of calcium, and at least one of chromium up to about 0.2 w...
|
|
JP6448550B2 |
|
|
JP6446785B2 |
|
|
JP6439792B2 |
|
|
JP6439683B2 |
A method of manufacturing a flame-retardant magnesium alloy having mechanical properties of a long period stacking ordered magnesium alloy and having an ignition temperature of 800°C or more is provided. The method of manufacturing a fl...
|
|
JP6436481B2 |
|
|
JP6432344B2 |
To provide a magnesium alloy having high incombustibility, high strength and high ductility together. A magnesium alloy including Ca in an amount of "a" atomic %, Al in an amount of "b" atomic % and a residue of Mg, including (Mg, Al) 2 ...
|
|
JP6431853B2 |
The disclosure relates generally to mold compositions and methods of molding and the articles so molded. More specifically, the disclosure relates to mold compositions, intrinsic facecoat compositions, and methods for casting titanium-co...
|
|
JP6431957B2 |
The invention relates to biodegradable, metal alloy-containing compositions, methods for their preparation and applications for their use. The compositions include magnesium and other components, such as yttrium, calcium, silver, cerium,...
|
|
JP6427268B2 |
|
|
JP6422304B2 |
|
|
JP6419742B2 |
|
|
JP6413720B2 |
In a method for manufacturing a Ca-containing copper alloy, a Ca addition step of adding Ca to molten copper is provided, and, in the Ca addition step, a copper-coated Ca material (20) obtained by coating a surface of a metallic Ca (21) ...
|
|
JP2018163995A |
To suppress for a crystal grain of a metal portion of a semiconductor mounting heat dissipation base board to become a coarse and columnar crystal having high anisotropy, and to suppress heat dissipation based deformation due to a therma...
|
|
JP6400476B2 |
|
|
JP6396247B2 |
|
|
JP6390047B2 |
|
