粉体および粉末冶金 12 巻, 3 号

角型履歴曲線を有するMn-Zn-Fe系フェライト

To obtain ferrites which show rectangular hysteresis loops, MnO-ZnO-Fe₂O₃ ternary ferrites were sintered by the two step sintering process, wherein the first step sintering is performed under a reduced atmosphere and the second step sintering is done under an equilibrium atmosphere.
Sintering process of the two step sintering was also studied.
The results are as follows :
1) Mn-Zn-Fe ferrites having rectangular hysteresis loops are obtained when the composition is such that λ ₁₁₁ is small, and K ₁ is adequately large.
2) B _r/B ₅=0.94, B _r=3, 890 Gauss, H _c=0.37 Oe, T _c=280°C and density=4.92 g/cc at the composition of 51 MnO-49Fe₂O₃.
3) When ferrites are sintered under a reduced atmosphere, a considerable ferrite formation occurs at 1, 000°C, and a remarkable shrinkage proceeds over the temperature range between 1, 000°C and 1, 200°C.

低温焼結タングステン体について(第1報)

The activated sintering of tungsten with Ni or other group VIII elements had been studied by J. H. Brophy and many other investigators. We tried the activated sintering of tungsten with Ni-P alloy by means of the electroless Ni plating on purpose to obtain effective results.
In this experiment, we obtained tungsten compact of a density 18.5g/cm³ by sintering at 1, 000°C for 30 minutes.
The sample used was 0.5μ W powder, with 0.19wt% Ni-P alloy.
It was difficult to obtain the tungsten compact of a higher density than 18.5g/cm³, as the tungsten particle size was larger than 1.5μ. Studies on the shrinkage, density, hardness and microstructure, as well as the chemical analysis and X-ray analysis were made in order to the mechanism of the process.

ガラス球の圧縮過程

The compression of spherical glass powders has been studied by static method in the pressure range 0-7.5 tons per cm² (Fig.1). The results obtained are as follows.
(1) During the compression process, the following distinct steps are observed (Photo. 1, 2) : (a) Packing without crushing (Initial stage of Fig. 2, 5, 6). (b) Sudden breakage of the particles and rapid diminution of apparent specific volume (Fig. 2, 5, 6). (c) Compaction of the crushed particles (Fig. 2, 3, 4, 5, 6, 11).
(2) In the process of the compression of spherical glass powder, the relation between P, the applied pressure, and n, the porosity, is generally given by the following equation (Fig. 5, Table 1) :
-(dn/dP)=k·n^x
where k and x are constants.
(3) The effect of particle size on the breakage phenomena has been studied (Fig. 6, 7, 8). (a) The breakage pressure is higher for small particles than for large ones (Fig. 8, 9). (b) The degree of rapid volume change accompanying the sudden breakage increases with increasing of the particle diameter (Fig.10).
(4) In the experiments of binary mixture which composed of two different particle sizes with different ratio of mixing, it has been observed that the rapid volume change accompanying the breakage of large particles occurs when the component of large particles is above about 70 percent by weight (Fig. 12, 13, 14).