粉体および粉末冶金 54 巻, 2 号

備前焼模様「緋（火）襷」の材料科学的研究

The microstructure and formation process of Hidasuki, a characteristic reddish pattern on traditional Japanese unglazed stoneware called Bizen, was studied through model experiments. Pellets of the Bizen clay mined at Bizen-shi/Okayama pref. were heated to 1250°C with and without rice straw and then cooled at different rates. A reddish color pattern appeared for relatively slowly cooled samples when rice straw was present. Owing to the presence of potassium in the rice straw, mullite (3(Al, Fe)₂O₃·2SiO₂), a major phase formed in the absence of rice straw, was replaced by corundum (α-Al₂O₃), hematite (α-Fe₂O₃), and others in the surface region of about 50μm in depth. The corundum precipitated as hexagonal plate-like crystals, and on the edges of these crystals the hematite grew epitaxially. The growth continued so that the primary corundum crystals were wholly covered by hematite to form a specific single crystalline α-Fe₂O₃/α-Al₂O₃/α-Fe₂O₃ structure.

化学共沈法による超微粒子Coフェライトの作製と鉄貯蔵蛋白質フェリチンへの内包の試み

Recently, there advances the collaboration of magnetics and life science fields. We focused on iron storage protein ferritin, which has a cavity of 6∼8 nm in a diameter after the removal of iron oxide from inside of it. Magnetic ferritin can be expected when ultrafine cobalt ferrite particle could be included in the cavity of ferritin because balk CoFe₂O₄ have large magnetocrystalline magnetic anisotropy constant K₁ and suitable high magnetization. In this research, the morphology and magnetic properties of ultrafine cobalt particles less than 12 nm in diameter prepared by the coprecipitation method have been investigated. The X-ray diffraction data and TEM observations indicate that cubic-structured spinel particles are formed in granular shape in the reaction condition of pH 9∼13 and the temperatures 60∼105°C. For example, 7.3 nm particles in diameter, which are as small as the diameter of the cavity of ferritin, have been obtained successfully at a pH of 10 at 60°C for 0.5 hour reaction. Saturation magnetization and coercivity of the particles 6∼8 nm are 20∼40 emu/g and are less than 30 Oe at 300 K, respectively. Furthermore, after the removal of iron oxides from ferritin, the inclusion of ultrafine cobalt ferrite particles have been attempted. The change of UV-vis spectrum after the reaction might indicate the inclusion of ultrafine cobalt particle in the cavity of ferritin.

複合セラミックスを用いた二層構造広帯域電磁波吸収体の作製と特性評価

A wide-band electromagnetic wave absorber was developed using a double-layered monolith consisting of high- and low-permeability (μ_r) composite ceramics. The low-μ_r layer was formed from a powder mixture of Ni_0.7Zn_0.1Cu_0.2Fe₂O₄ and SiO₂-based glass. Ferrite mixtures of low-firing Ni_0.2Zn_0.6Cu_0.2Fe₂O₄ and Ni_0.3Zn_0.7Fe₂O₄ with less sinterability were used to adjust the densification characteristics of the high-μ_r layer. Co-firing of green compacts of the ferrite: glass powder (90:10% in mass-base) for the low-μ_r layer and low-firing ferrite: less-sinterable ferrite (60:40% in mass-base) for the high-μ_r layer resulted in the production of a monolithic double-layered ceramic at 1100°C. Scanning electron microscopy and electron microprobe analysis of the monolithic double-layered ceramic showed that Ni-Zn interdiffusion and glass diffusion occurred across the layer boundary, leading to the diffusion bonding. An absorption band of the double-layered absorber was more than 10 dB in a wide frequency range from 6 MHz to 1.8 GHz.

メカニカルアロイング法によるAl-Mg₂Si-酸化物系P/M材の特性

With a purpose of obtaining light weight materials of high strength, powder mixture of aluminum and magnesium silicide (Mg₂Si) was mechanically alloyed with addition of oxide (Cr₂O₃, Fe₂O₃, MnO₂) powder. The mechanically alloyed powders were consolidated to the P/M materials by vacuum hot pressing and hot extrusion, and their structures and mechanical properties were examined and compared with hyper-eutectic Al-Si based P/M materials. All the P/M materials of Al-Mg₂Si-oxide showed high compressive strength above 900 MPa. Among them, the highest strength of 1090 MPa was obtained for Al-Mg₂Si-Fe₂O₃. Even the P/M material of Al-Mg₂Si without oxide addition showed compressive strength of 795 MPa. The Al-Mg₂Si based P/M materials showed higher compressive strength and higher ductility than hyper-eutectic Al-Si based P/M materials.

Mn, CoおよびAl含有α-FeOOH微粒子の脱水反応

Effects of doped Mn³⁺, Co³⁺ and Al³⁺ ions in α-FeOOH nanoparticles on the dehydration reaction of α-FeOOH to hematite were investigated by a differential scanning calorimetry analysis. Effect of doped Mn³⁺ ion on the structure and morphology of α-FeOOH was also investigated.
In α-FeOOH nanoparticles containing Mn, Mn³⁺ ions were all incorporated into α-FeOOH crystals at Mn/Fe mole ratio; 0 to 0.28, and an acicular shape of particles was maintained after adding Mn³⁺ ions to α-FeOOH. Dependence of normalized interplanar spacing on Mn contents was also made clear in α-FeOOH particles containing Mn.
Dependences of the differential scanning calorimetry of the dehydration reaction on the rate of heating were clarified in α-FeOOH particles containing Mn, Co and Al. Endothermic reaction was detected in DSC curves. Relationships between peak temperatures of endothermic reaction and the Mn, Co and Al contents were clarified in α-FeOOH particles containing Mn, Co and Al. Peak temperatures increase with increasing cation contents.
In either case of α-FeOOH particles containing Mn, Co and Al, good linear relationships between the rates of heating and the peak temperatures of endothermic reaction were obtained by using Ozawa's method. Dependences of activation energies of dehydration reaction on cation contents were clarified in α-FeOOH particles containing Mn, Co and Al.

パルス通電加熱したTi-Ni粉末焼結ターゲットならびにNaCl粉末焼結基板を用いたスパッタ成膜

Sodium chloride powder has been consolidated using pulsed-current sintering method for the substrate. The utilization of the punch made of Ti-2at%Fe-10at%Si alloy has made it possible to produce a sodium chloride compact with a smooth surface and no reactant. Ti-Ni thin film has been prepared on the sodium chloride substrate by sputtering method. Ti-Ni sputtering target has been prepared using pulsed current sintering of the powder mixture of Ti and Ni powders with the composition of Ti-50at%Ni.
The thickness of Ti-Ni film prepared for the sputtering time of 10.8 ks has been about 70μm. The sputtered Ti-Ni film has been spontaneously separated from the sodium chloride substrate in the water. The film has had an amorphous structure and crystallized at 820 K.

Synthesis, Structures and Properties of the Cerium Doped Hematite Co-existing with CeO₂

Cerium doped hematite powders obtained by polymeric complex method following the hydrolysis of FeCl₃·6H₂O and Ce(NH₄)₂(NO₃)₆. X-ray diffraction pattern of cerium doped samples obtained at 1000°C∼1200°C for two hours in air revealed some solubility of cerium ion in α-Fe₂O₃ over the composition range of 5%∼15 at% that were characterized by the shifting of X-ray diffraction peaks compared with the internal silicon standard. X-ray Photoelectron Spectra investigations revealed the existence of Ce³⁺ ion at higher temperature. Unit cell parameters were found to expand due to the incorporation of cerium ions into the hematite lattice. Field Emission Scanning Electron Microscopy studies showed that the growth of particles was suppressed in the appearance of cerium ions into the α-Fe₂O₃ lattice. Fe_2-xCe_xO₃ exhibits much lower magnetization due to the incorporation of non-magnetic cerium ions into the α-Fe₂O₃. Spectroscopy measurement evidenced that cerium doped hematite samples exhibited brighter yellowish red color tone than that of pure α-Fe₂O₃.

Zn₃In₂O₆薄膜の蒸着と電気的性質

Using a Zn₃In₂O₆ target, zinc-indium oxide thin films were prepared by rf magnetron sputtering at different substrate temperatures. The influence of the substrate temperature on the structure, Zn: In ratio, and optical, electrical and thermoelectric properties were studied. C-axis oriented thin films were deposited. The ratio of zinc to indium decreased with increasing the substrate temperature. An average transmittance of about 80% in the visible range was obtained. Conductivity of the films increased with increasing the temperature. The Seebeck coefficient was largest for the films deposited at room temperature. The films deposited at 500°C showed the highest power factor of PF=8.21×10⁻⁵ (W/mK²).

Naフラックス法を用いたEuドープGaNの合成および光学特性評価

Eu-doped GaN crystals were synthesized at 600-750°C and N₂ pressure of 5 MPa from 1 mol% Eu-added Na-Ga melts. The yield and morphology of crystals varied with temperature and Na mole fraction, r_Na=Na/(Na+Ga) in the melts. Colorless transparent columnar crystals of Eu-doped GaN were obtained as crusts formed on the Na-Ga melt surface at r_Na=0.67 and 650 or 700°C. Under an ultraviolet light, the crusts glowed red. A strong emission peak concerned with the intra-4f transition of Eu³⁺ from ⁵D₀ to ⁷F₂ was observed at 621 nm in the photoluminescence (PL) spectrum. The maximum PL intensity was observed in the sample prepared at r_Na=0.67 and 650°C.

Bi系超電導圧粉体へのレーザ照射処理　第3報：表面溶融処理材の形態と機械的性質

The authors have reported that superconductive layer can be produced underneath the laser melted layer of press formed bulk of prospective superconductive powder of Bi system. This paper deals with the morphology and mechanical properties of the bulks, which were press formed at pressures between 29 MPa and 196 MPa and treated by laser scan with different powers such as 6, 7 and 8 W. Results showed that (1) the bulk forming pressures adopted in the study give negligible influence on the width of the groove the laser scanning caused while the laser scan results in the grooves with width from 2.3 to 3.4 mm, (2) the laser scan on the surface of the bulk produces groove with depth from 0.71 to 0.18 mm with the increasing power, (3) the resultant thickness of the melted layer is in the range between 600 and 900 μm, and that of the superconductive layer is in the range between 50 and 120 μm, (4) the bulk forming pressure affects surface roughness of the treated region in such a way that with increasing pressure the surface roughness increases in the value from 5.2 to 7.3 μmR_a although the laser output power gives small effects on the value, (5) the hardness measurement shows the highest value 120 Hv was obtained for the superconductive layer, 100 Hv for the melted layer and 45 Hv for the body as press formed, (6) the laser treatment causes the fracture strength to effectively change the value from 15 (before treatment) to 34 N (after treatment).