| Document |
Document Title |
|
JP6933897B2 |
To provide metal particles that can control a particle size of metal particles by a simple method and at low cost, is excellent in the dispersibility, and is difficult to generate coagulation or precipitation.Metal particles containing m...
|
|
JP2021121690A |
To provide a TiAl-based alloy excellent in mechanical strength; and to provide a manufacturing method thereof.A TiAl-based alloy contains a lamellar structure formed by laminating an α2 phase and a γ phase, and has an oxygen content of...
|
|
JP6927418B2 |
A titanium alloy that comprises, in mass%, 0.10%–0.30% C, 0.001%–0.03% N, 0.001%–0.03% S, 0.001%–0.03% P, 0.001%–0.10% Si, 0.01%–0.3% Fe, no more than 0.015% H, and no more than 0.25% O, with the remainder being Ti and unavoi...
|
|
JP6924990B2 |
To provide a sprayed coating capable of showing an excellent function carried originally by Ti, Zr; and to provide a sprayed coating member including the sprayed coating.In a sprayed coating containing either one or more elements between...
|
|
JP6922196B2 |
To provide a titanium sintered compact having excellent wear resistance, and an ornament and a heat resistant component.A titanium sintered compact is constituted of a material containing titanium, has an oxygen content of 2500 ppm or mo...
|
|
JP2021102815A |
To provide a method for producing a non-metallic feedstock powder suitable for reduction to a metal having a homogeneous and controlled chemical quantity in a narrow range.A method of producing a non-metallic feedstock powder suitable fo...
|
|
JP6901049B2 |
This titanium alloy plate has a chemical composition containing, in terms of mass%: a total of 0.2-7.0% of one type or two or more types selected from the group consisting of 0-2.0% of Sn, 0-5.0% of Zr, and 0-7.0% of Al; at most 0.100% o...
|
|
JP6892914B2 |
The invention concerns a timepiece component containing a high-entropy alloy, the high-entropy alloy containing between 4 and 13 main alloying elements forming a single solid solution, the high-entropy alloy having a concentration of eac...
|
|
JP2021515109A |
By mass%, 15.0 to 35.0% niobium, 0.0 to 7.5% molybdenum, 0.0 to 20.0% tantalum, 0 to 7.0% zirconium, 0 to 6.0% tin, 0.0 to 2.0% hafnium, 0.0 to 0.5% Aluminum, 0.0-0.5% vanadium, 0.0-0.5% iron, 0.0-0.5% chromium, 0.0-0.5% cobalt, 0.0-0.5%...
|
|
JP6885900B2 |
A Ti—Fe-based sintered alloy material including two phases of an α phase and a β phase, in which a content of iron is 0.5% or more and 7% or less on a weight basis, a β phase containing an iron component is dispersed in an independe...
|
|
JP2021080547A |
To provide a high-strength and lightweight Ti-Al-based alloy that has a heat resistance.Provided is a lightweight heat resistant alloy that has a composition containing Ti by 40 at% to 51 at%, N by 3 at% to 15 at%, Nb by 2 at% to 20 at%,...
|
|
JP6875711B2 |
To provide a titanium foil production method, capable of producing a smooth-surfaced titanium foil electrodeposited by molten salt electrolysis, having titanium purity comparable to that of industrial pure titanium, even with a thickness...
|
|
JP2021075793A |
To provide a method for producing a titanium alloy article that can achieve a combination of high strength and high toughness or elongation.A method for producing a titanium alloy article in a form of a wire or a powder for use in lamina...
|
|
JP6871860B2 |
The manufacture of a metal turbomachine part, comprising steps consisting of melting a titanium-aluminium intermetallic compound by plasma torch in a ring mould, extracting therefrom an ingot, as cast, in a state cooled from molten, cutt...
|
|
JP6871301B2 |
To provide a method of manufacturing a sputtering target which can with high reproductivity and stably be made by a curtailed process compared with the conventional process, the sputtering target featuring: minute crystalline structure w...
|
|
JP6864955B2 |
The invention relates to the pressure processing of metals, and specifically to methods for preparing rods and workpieces from titanium alloys, with applications as a structural material in nuclear reactor cores, in the chemical and petr...
|
|
JP6863531B2 |
This titanium sheet has a chemical composition containing, by mass%, O: 0% to 0.400%, Cu: 0% to 1.50%, Fe: 0% to 0.500%, N: 0.100% or less, C: 0.080% or less, H: 0.0150% or less, and the balance Ti and impurities. The titanium sheet has ...
|
|
JP6862517B2 |
Provided is a titanium alloy for casting a golf club head used to solve the problem of the poor formation rate of the vacuum centrifugal casting method under the use of the conventional titanium alloy. The alloy includes 7.0-8.0 wt % of ...
|
|
JP2021055187A |
To provide a battery anode or an aqueous electrolysis anode manufactured at low cost and having improved corrosion resistance.Metal powder used for producing aqueous electrolysis anode or a battery anode comprises 90% mass% or higher Ti2...
|
|
JP6855614B2 |
To provide a sputtering target material comprising a sintered alloy having high mechanical strength (in particular, high toughness suitable for a sputtering target material).The sputtering target material comprises a sintered alloy conta...
|
|
JP6855449B2 |
A method of producing a composite material comprising: supplying a metal compound (MPC) of a product metal (MP) and a reductant (R) capable of reducing the metal compound (MPC) of the product metal (MP) to a reactor; forming a composite ...
|
|
JP6851147B2 |
To provide a titanium alloy forging material capable of reducing variations in physical properties between the surface part and the inside of a large sized forging material while holding the mechanical properties.There is provided a tita...
|
|
JP6845690B2 |
A nanostructured titanium alloy article is provided. The nanostructured alloy includes a developed titanium structure having at least 80% of grains of a grain size≤1.0 microns.
|
|
JP6848991B2 |
A titanium material 1 for hot rolling comprising: a base material 1b comprising a pure titanium for industrial use or a titanium alloy; and a surface layer 1a formed on at least one rolled surface of the base material 1b and having a dif...
|
|
JP6844706B2 |
A titanium sheet including the following chemical components in mass%: Cu: 0.70 to 1.50%, Cr: 0 to 0.40%, Mn: 0 to 0.50%, Si: 0.10 to 0.30%, O: 0 to 0.10%, Fe: 0 to 0.06%, N: 0 to 0.03%, C: 0 to 0.08%, H: 0 to 0.013%, elements except the...
|
|
JP2021032712A |
To provide a neutron shielding material which uses metal hydride as a base, and nonetheless is excellent in stability and safety, hardly cracks and is free from a possibility of causing reduction in thermal conductivity thereof, and a me...
|
|
JP2021021147A |
To provide a hydrogen storage alloy that can repeat storage and release of hydrogen without performing activation treatment at high temperature and high pressure.A hydrogen storage alloy 11 has TiFe, β-Ti, and Ti4Fe2O. T i4Fe2O is prese...
|
|
JP6823827B2 |
The present invention relates to a heat-resistant Ti alloy having excellent high-temperature strength and a process for producing the same. More particularly, the present invention relates to a heat-resistant Ti alloy having a composite ...
|
|
JP6819952B2 |
To provide a metal powder for laminate molding achieving high molding property and high strength and a technology for manufacturing a laminate molded body manufactured by using the same.Melting and solidification are conducted by sinteri...
|
|
JP6821161B2 |
To provide a hydrogen occlusion alloy that can repeat occlusion and release of hydrogen without performing activation treatment at high temperature and high pressure.A hydrogen occlusion alloy 11 has TiFe, β-Ti, and TiFeO. When expresse...
|
|
JP6820084B2 |
The present invention provides a thermoelectric module comprising: plural thermoelectric elements comprising thermoelectric semiconductor; an electrode for connecting between the plural thermoelectric elements; and a joining layer for jo...
|
|
JP6810243B2 |
The invention relates to a method for preparing titanium alloys based on aluminothermic self-propagating gradient reduction and slag-washing refining specially, and belongs to the technical field of titanium-aluminum alloys. The method c...
|
|
JP6805163B2 |
A titanium-based intermetallic alloy includes, in atomic percent, 16% to 26% Al, 18% to 28% Nb, 0% to 3% of a metal M selected from Mo, W, Hf, and V, 0.1% to 2% of Si, 0% to 2% of Ta, 1% to 4% of Zr, with the condition Fe+Ni≤400 ppm, t...
|
|
JP6797513B2 |
To provide a metal powder without needs for temporarily baking, having no partial sintering by a preliminary heating and capable of being sintered by radiating EB directly to a state of deposited metal powder.There is provided a surface ...
|
|
JP6792837B2 |
To provide a titanium-aluminum alloy in which the ductility (elongation) at room temperature is improved by mainly considering duplex texture (layer) and soft layer as well as laminated structure of those layers.Provided is a titanium-al...
|
|
JP6794598B2 |
To efficiently produce a low oxygen high grade Ti-Al based alloy from a low grade titanium containing oxygen at a high concentration in a high yield.The present invention provides a method for producing a Ti-Al based alloy Z comprising: ...
|
|
JP6789035B2 |
Disclosed is a titanium alloy sheet for electrode, including at least one of 0.1 to 1.0% by mass of Al and 0.1 to 1.0% by mass of Si, with the balance being Ti and inevitable impurities, wherein the total content of Al and Si is 0.2 to 1...
|
|
JP6785491B1 |
5.50 to 6.75% by weight Al, 3.50 to 4.50% by weight V, 0.20% by weight or less O, 0.40% by weight or less Fe, 0.015% by weight or less H, 0.08% by weight or less C, 0.05% by weight or less N , And a titanium alloy laminated molded body c...
|
|
JP6787428B2 |
Provided is a titanium material for hot rolling that has a base metal 1b made from an industrial pure titanium or a titanium alloy, and a surface layer 1a that is formed on at least one rolling surface of the base metal 1b and has a chem...
|
|
JP6785366B2 |
Provided is a titanium alloy material having a composition generally classified as a near α type and/or α+β type, the titanium alloy material being characterized by having an outer shell region, located on the surface side and having ...
|
|
JP6787418B2 |
This titanium material 1 for use in hot rolling comprises a base material 1b comprising an industrial pure titanium or titanium alloy, and a surface layer 1a formed on at least one rolled surface of the base material 1b and having a chem...
|
|
JP6787528B1 |
In order to provide a titanium alloy with better corrosion resistance, Fe: 0.010 ~ 0.300%, Ru: 0.010 ~ 0.150%, Cr: 0 ~ 0.10%, Ni: 0 ~ 0.30%, Mo: 0 ~ by mass% 0.10%, Pt: 0 to 0.10%, Pd: 0 to 0.20%, Ir: 0 to 0.10%, Os: 0 to 0.10%, Rh: 0 to...
|
|
JP6786090B2 |
A heat sink plate includes a first layer made of copper (Cu) or a copper (Cu) alloy, a second layer formed on the first layer and made of molybdenum (Mo) or an alloy that includes copper (Cu) and one or more components selected from moly...
|
|
JP6772069B2 |
A composition of matter is generally provided, in one embodiment, a titanium alloy comprising about 5 wt % to about 8 wt % aluminum; about 2.5 wt % to about 5.5 wt % vanadium; about 0.1 wt % to about 2 wt % of one or more elements select...
|
|
JP2020168588A |
To provide a simpler new synthesis method for manufacturing bimetal alloy carried on a carrier having a high surface area.A method for manufacturing bimetal alloy carried on a carrier and represented by the formula of [MA]x[MB]1-x consti...
|
|
JP2020164887A |
To improve durability by improving wear resistance, by highly hardening a slide surface in a titanium alloy slide bearing.In a slide surface 2 made of a recrystallized texture of a titanium alloy of a spherical slide bearing A made of a ...
|
|
JP6764920B2 |
A balance spring for a balance with a blank containing: niobium: the remainder to 100 wt %, titanium: between 40 and 60 wt %, traces of elements selected from the group formed of O, H, C, Fe, Ta, N, Ni, Si, Cu, Al, between 0 and 1600 ppm...
|
|
JP2020159434A |
To suppress the generation of abrasive powder by making a component for holding a friction medium of a vibration attenuation device, and a component for connecting a bearing and a housing excellent in wear resistance, and to sufficiently...
|
|
JP2020152934A |
To provide a machine component made of a titanium alloy, which has improved strength and toughness.A machine component according to one aspect of the present invention is made of 64 titanium alloy. The 64 titanium alloy constituting the ...
|
|
JP2020152936A |
To provide a machine part capable of suppressing variation of hardness or abrasion resistance of a surface.A machine part is made of a titanium alloy. The machine part is formed on the surface, and includes a surface layer where oxygen i...
|
