| Document |
Document Title |
|
JP6037119B2 |
|
|
JP6029085B2 |
|
|
JP6031219B2 |
An Mg-based alloy plated steel material superior in adhesion and corrosion resistance characterized by being provided with a hot dip Mg-based alloy plating layer (preferably containing Zn: 15 atm% to less than 45 atm%).
|
|
JP6029256B2 |
Provided is a magnesium-silicon composite material which contains Mg 2 Si as an intermetallic compound imposing no burden on the environment, is suitable for use as a material for thermoelectric conversion modules, and has excellent ther...
|
|
JP6019960B2 |
|
|
JP6013386B2 |
A composite material for a medical implant includes a matrix of magnesium or magnesium alloy, and a catalyst which is dispersed within the matrix. The catalyst has the capacity to reduce an amount of hydrogen gas released from the matrix...
|
|
JP5992244B2 |
To stably provide a highly purified magnesium having certain enhanced qualities and effective for manufacturing semiconductor elements, etc.A raw magnesium ingredient having, excluding gas components, a purity of 4 N or below is subjecte...
|
|
JP2016159336A |
To provide a casting device of magnesium alloy capable of efficiently suppressing combustion of molten Mg alloy while suppressing a use of SFor the like.A casting device (C) of magnesium alloy includes: a crucible (2) for preparing or re...
|
|
JP2016163028A |
To provide a method of producing a thermoelectric material capable of dissolving a dopant efficiently.A method of producing a thermoelectric material has a step of preparing a dopant-containing solution where a salt containing a dopant i...
|
|
JP5974821B2 |
To provide a Mg(Si, Ge)-based nano-composite thermoelectric conversion material in which the conversion efficiency is enhanced by element substitution, and to provide a production method therefor.A nano-composite thermoelectric conversio...
|
|
JP5967568B2 |
To provide a hydrogen absorbing/releasing alloy having excellent repetition durability between hydrogen absorbing and hydrogen releasing, and to provide a hydrogen absorbing/releasing body and a hydrogen sensor.A hydrogen absorbing/relea...
|
|
JP5960654B2 |
An object is: to manufacture a p-type semiconductor by sintering which is represented by the general chemical formula: Mg 2 Si X Sn Y Ge Z (where "X + Y + Z = 1," "X ¥ 0, Y ¥ 0, and Z ¥ 0"). A sol...
|
|
JP5952803B2 |
|
|
JP2016519718A |
0.5-2.0% by weight Cer, 0.2-2.0% by weight lantern, at least one additional metal from the 0-5% by weight group of rare earths , 1.5-3.0% by weight magnesium compounds and 0-0.5% by weight phosphorus An aluminum-free magnesium alloy with...
|
|
JP5948124B2 |
A high-strength magnesium alloy member is suitable for products in which at least one of bending stress and twisting stress primarily acts. The member has required elongation and 0.2 % proof stress, whereby strength and formability are s...
|
|
JP5944711B2 |
To provide a thermoelectric material superior in characteristics in view of conductivity, Seebeck coefficient, etc., and a method for manufacturing the thermoelectric material readily.The method for manufacturing a thermoelectric materia...
|
|
JP5939372B2 |
A coil material capable of contributing to an improvement of the productivity of a high-strength magnesium alloy sheet and a method for manufacturing the coil material are provided. Regarding the method for manufacturing a coil material ...
|
|
JP5939382B2 |
|
|
JP2016108654A |
To provide a magnesium alloy extrusion material that can be molded at high extrusion rate and that has a sufficient strength.The magnesium alloy extrusion material is provided that contains magnesium (Mg): 50 mass% or more, aluminum (Al)...
|
|
JP5935183B2 |
To provide a joining method of a magnesium alloy and a joint structure of a magnesium alloy that can achieve high joining strength.An insert material 3 including an LPSO phase is disposed between a first plate 1 consisting of a magnesium...
|
|
JP2016093831A |
To provide Pb-free solder alloy for high temperature, which has a solidus temperature of about 500°C or lower, is excellent in bondability, workability and reliability, and is substantially inexpensive in comparison with Au-based solder...
|
|
JP5913459B2 |
A magnesium alloy shown includes magnesium as a principal ingredient, and 0.5 to 8.0 percent ytterbium; 0.1 to 2.0 percent calcium; and 0.2 to 6.0 percent zinc, percentages calculated by weight. The magnesium alloy may be employed as an ...
|
|
JP5913403B2 |
A pseudoelastic magnesium alloy contains magnesium as the main component thereof, and at least one element selected from Sc, Y, La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu, wherein the pseudoelastic magnesium alloy has...
|
|
JP2016053198A |
To provide a metal molded product that is free from internal defects and is excellent in mechanical characteristics such as strength, ductility and the like and functional characteristics such as abrasion resistance, corrosion resistance...
|
|
JP5894079B2 |
The present invention relates to a magnesium alloy having controlled corrosion resistance properties, which comprises magnesium (Mg) and an alloying element and includes a magnesium phase and a phase composed of magnesium and the alloyin...
|
|
JP5892212B2 |
|
|
JP5882413B2 |
The invention relates to a composite material that comprises at least one magnesium component, whereby the magnesium component consists of pure magnesium or a magnesium-calcium alloy or a magnesium-calcium-X alloy, whereby X is another b...
|
|
JP5882195B2 |
Provided are an apparatus and a method for producing an inexpensive Mg 2 Si 1-x Sn x polycrystal that can be effectively used as thermoelectric conversion materials that can be expected to have a high performance index by doping if neces...
|
|
JP5880811B2 |
|
|
JP5863937B1 |
To provide a HIP processing method for improving the removal rate of internal defects for magnesium casting, or a gearbox of a helicopter formed by using the HIP processing method. The HIP treatment method for magnesium castings includes...
|
|
JP5866639B2 |
|
|
JP5855649B2 |
A material for storing hydrogen is prepared by a method including an extreme plastic deformation operation selected from cold-rolling, quick-forging and extrusion-bending performed on a metallic material selected from among a metal and a...
|
|
JP5852039B2 |
|
|
JP5852585B2 |
A magnesium alloy that forms a stable protective film on the surface of molten metal, having excellent ignition resistance restricting natural ignition of a chip thereof as well as having excellent strength and ductility, so that the Mg ...
|
|
JP5852580B2 |
A magnesium alloy that has excellent ignition resistance and is excellent in both strength and ductility. The magnesium alloy includes, by weight, 1.0% or greater but less than 7.0% of Al, 0.05% to 2.0% of Ca, 0.05% to 2.0% of Y, greater...
|
|
JP2016017183A |
To provide a Mg-based alloy malleable material having excellent room temperature processability by conducting hot and warm working with controlled temperature and area reduction ratio on a Mg-based alloy raw material to which only Mn, re...
|
|
JP5839056B2 |
A magnesium alloy sheet, comprising magnesium-based alloy and having a half peak width of 0.20 deg or more and 0.59 deg or less in a (0004) diffraction peak in monochromatic X-ray diffraction, wherein the magnesium-based alloy contains: ...
|
|
JP5838050B2 |
To manufacture a magnesium silicon alloy of high purity without passing a fusing process and a pulverization forming process, and to provide a method of manufacturing the same.The method of manufacturing a magnesium silicon alloy compris...
|
|
JP5830467B2 |
The present invention relates to biodegradable implantable medical device, in particular an endoprosthesis body formed at least partly from a constructional material comprising deformable super-pure magnesium or alloy thereof further com...
|
|
JP2015533864A |
The present invention relates to a microplate-shaped corrosion-resistant pigment, wherein the microplate-shaped zinc-magnesium alloy pigment is an element Zn, Mg, Mn, Be, Y, Li, Sn, Al, Ti, in each case. 25.1 to 76.85 mol% Zn, 23 to 67.3...
|
|
JP5814122B2 |
Magnesium alloys containing: Y: 2.0-6.0% by weight Nd: 0-4.0% by weight Gd: 0-5.5% by weight Dy: 0-5.5% by weight Er: 0-5.5% by weight Zr: 0.05-1.0% by weight Zn+Mn: <0.11% by weight, optionally other rare earths and heavy rare earths, t...
|
|
JP5804431B2 |
|
|
JP2015187970A |
To provide a negative electrode material with which charge/discharge efficiency of a power storage battery can be improved.In a negative electrode material used in a power storage battery, a precursor of a metal hydride comprises magnesi...
|
|
JP5801957B2 |
A magnesium battery includes a first electrode including an active material and a second electrode. An electrolyte is disposed between the first electrode and the second electrode. The electrolyte includes a magnesium compound. The activ...
|
|
JP2015183243A |
To provide a sintered-body sputtering target capable of producing inexpensively a layered sputtering target having each different composition area in the thickness direction of the target, having little fluctuation of the composition in ...
|
|
JP2015183244A |
To provide a sintered-body sputtering target having little fluctuation of a composition of each deposition, capable of reducing generation of abnormal discharge during sputtering, and suppressing generation of particles.In a sintered-bod...
|
|
JP5796730B2 |
There are provided a magnesium alloy coil stock having good flatness and a method for producing the magnesium alloy coil stock, and a magnesium alloy structural member that uses the coil stock and a method for producing the magnesium all...
|
|
JP2015172252A |
To provide a magnesium alloy coil material having excellent flatness and a method of manufacturing the magnesium alloy coil material, and further to provide a magnesium alloy member using the coil material and a method of manufacturing t...
|
|
JP5785335B1 |
The quasicrystal-containing plated steel sheet includes a steel sheet and a metal coating layer arranged on the surface of the steel sheet. The chemical composition of the metal coating layer contains Mg, Zn, and Al. The metal structure ...
|
|
JP5787380B2 |
|
