粉体および粉末冶金 59 巻, 10 号

遍歴電子磁性に及ぼすスピンゆらぎの効果－金属磁性の理解の変遷

A short review is presented on the theoretical development in our understanding of magnetic properties observed in itinerant electron magnets. It is shown that drastic changes have been needed in fundamental ideas to overcome various difficulties involved in their subtle inconsistencies. We also show some interesting consequences derived from the current theoretical idea in comparison with experiments.

スラリーゲル化発泡法による高気孔率アルミナ耐火レンガの作成

Alumina has high heat resistance and corrosion resistance compared to silica, mullite and other ceramics. However, it has the high thermal conductivity of about 36 W/mK at room temperature, and necessarily decreases its thermal conductivity for application to refractory bricks. Therefore, high-porosity alumina refractory brick was developed using GS (Gelation of Slurry) method that has been already developed for production of high-porosity metal foam. Appling this method to production of alumina foams, the foams from 94 to 97.5 % porosity was produced, which had the compression strength from 0.1 to 1 MPa. The strength was almost proportional to the square of the densities. Its thermal conductivity was also proportional to the density and obeyed the Ashby-Glicksman model for the open cell structure, though it took the closed cell structure. Its thermal conductivity was about 0.1 W/mK when the density was 0.1 g/cm³. The high-porosity alumina foam achieved the enough thermally insulating property for the refractory brick, and applications will not be limited to the refractory brick application.

Mg粉末の加水分解による水素生成特性

Hydrogen was produced by a hydrolysis reaction of Mg chips generated in cutting process. The reaction of Mg chips with pure water produced a little volume of hydrogen, but NaCl solution drastically improves the reaction. Hydrogen produced in NaCl solution increases with NaCl content and 750 ml of hydrogen per gram of Mg was obtained in NaCl solution with 2 M after 300 min, corresponding to the conversion yield of 80 %. A decrease in size of Mg chip and an increase in volume of NaCl solution also improve the hydrogen production performance. After reaction in NaCl solution, formation of Mg(OH)₂ was observed and MgCl₂ was not found. This means that the amount of NaCl does not change during the reaction. The NaCl solution after the reaction can be reused for the production of hydrogen by adding Mg and H₂O.

熱間押出法により作製したTiN粒子分散マグネシウム基複合材料の諸特性

0-10 vol% TiN added Mg composite powders were fabricated by mechanical alloying. The effects of the hot extrusion temperature and the TiN content on the mechanical properties of the hot extruded Mg composite were investigated. The morphology of the mechanical alloyed composite powders was studied by secondary electron images of the scanning electron microscopy. The phase formation of the mechanical alloyed composite powders and the hot extruded composite was investigated by the Cu Kα X-ray diffraction. The microstructure of the hot extruded composite was studied by the optical microscope and mechanical properties of the composites were evaluated by the density, Vickers hardness and the tensile strength. As a result, the 10 vol% TiN added Mg composite hot extruded at 773 K showed the hardness of HV(1) being 127 while the maximum tensile strength of 463 MPa was obtained for the 5 vol% TiN added Mg composite due to the grain size refinement and the dispersion-strengthening by TiN. Further increase of TiN might reduce the Mg grain bonding strength, resulting in the decrease of the tensile strength at 10 vol% TiN addition. These values are higher than those of commercial Mg alloys so that the new Mg composites are promising Mg materials for practical applications in near future.

腐食合成法を用いたコーディエライトの作製

The electrochemical method named as the corrosion reaction synthesis has been tried to prepare the cordierite powder. As metallic magnesium, aluminum chloride and tetraethyl orthosilicate were mixed in ethanol, the corrosion product containing hydroxide of aluminum, magnesium and silicon was obtained. The product was hydrolyzed and fired. The X-ray diffraction, the particle size measurement and the scanning electron microscope revealed that the cordierite of which average size was about 10 μm was obtained at more than 1473 K. The magnesium dissolution, the catalytic effect of aluminum chloride, and the mixing effect of three elements above were considered from the electrochemical point of view.

粉末冶金法を用いたカーボンナノチューブ分散Cu-Ti合金の組織と機械的および電気的特性

Microstructural and electrical properties of copper alloy (Cu-Ti) with carbon nanotubes (CNTs) prepared by powder metallurgy (P/M) process have been investigated. The Cu-0.5 mass% Ti pre-alloyed powder was made by water atomization process. The powders coated with un-bundled CNTs by using the zwitterionic surfactant solution containing CNTs were consolidated at 1223 K in vacuum by spark plasma sintering, and then extruded at 1073 K. The P/M Cu-Ti alloy without CNTs (monolithic alloy) had 202 MPa yield stress (YS) and 42.5 International-Anneld-Cupper-Standard % (IACS%) conductivity. The extruded Cu-Ti composite alloy containing CNTs revealed small decreased of YS compared to the monolithic Cu-Ti alloy. On the other hand, the composites revealed a higher electrical conductivity than that of the monolithic alloy. For example, Cu-Ti with 0.19 mass% CNTs showed 175.8 MPa YS and 83.5 IACS% conductivity. In the case of the Cu-Ti composite with CNTs, intermetallic compounds such as Cu₄Ti and TiC were observed around CNTs by TEM-EDS analysis. The amount of the titanium solid solution in the above Cu-Ti composite alloy matrix was 10 % of the monolithic Cu-Ti alloy, and resulted in the remarkable increment of its electrical conductivity.