粉体および粉末冶金 30 巻, 4 号

TiB₂-5%TaB₂-1%CoBおよびTiB₂-5%W₂B₅-1%CoB焼結体の強化機構

TiB₂-5%TaB₂-CoB and TiB₂-5%W₂B₅-1%CoB materials have higher transverse rupture strength, hardness and density than those of TiB₂-1%CoB materials. The strengthening mechanism of both types materials, TiB₂-5%TaB₂-1%CoB and TiB₂-5%W₂B₅-1%CoB, has been discussed. The higher transverse rupture strength of the both materials has been caused mainly by suppressing grain growth of TiB₂ with the solid solution between TiB₂ and TaB₂, or between TiB₂ and W₂B₅, and caused secondarily by the lattice strain of TiB₂, and reduction of residual pores.

Pを添加したCu-Sn系含油軸受用合金の焼結現象と高荷重下での軸受運転性能について

Effects of the addition of phosphorus (0.2-0.8%) to Cu-9% Sn compacts which was standard composition of conventional bronze oil impregnated sintered bearings were examined during sintering process. The bearing running test was also carried out under the heavy load condition for Cu-base oil impregnated bearings on Cu-9%Sn-0.4%P bearing.
The results obtained were as follows;
1) By the addition of phosphorus, Cu-Sn compacts were remarkably strengthened. For example, the radial crushing strength of the compact added 0.4% phosphorus, pressed at 2 t/cm² and sintered at 700°C for 30 min., was 11 kg/mm² higher than that of the non-phosphorus compact.
2) On the case of addition of phosphorus above 0.4%, the swelling phenomena during sintering process, which occur above peritectic temperature (798°C) in ordinary mixed Cu-Sn powder compacts were not observed. The reason was seemed that owing to the addition of phosphorus alloying of Sn had progressed sufficiently through the sintering below peritectic temperature.
3) Sinterability of mixed Cu-Sn powder compacts was extremely enhanced by the addition of phosphorus. With the progress of sintering, large pores became larger, but on the contrary small pores became smaller and gradually disappeared. So, the oil impregnated sintered Cu-Sn-P bearings having large size pores and high strength can be produced by selecting the proper sintering conditions.
4) In the running test, Cu-9%Sn-0.4%P bearings showed excellent bearing performance even under the heavy load condition (P=20 kg/cm², N=4, 000 rpm, PV=2, 000 kg/cm²m/min) in which the oil impregnated pores were closed by the plastic flow of the rubbing surface in the conventional sintered Cu-9%Sn bearings.

Cu-Sn-P-MoS₂系焼結含油軸受の製造

A manufacture of Cu-Sn-P-MoS₂ type oil impregnated sintered bearing for high speed revolution applications was tried and the following results were obtained.
1) To obtaine a satisfactory yield of MoS₂ added, sintering under about 750°C is necessary even in the case of large MoS₂ particles (average particle size; 6μm) used in this experiment.
2) In the sintering of Cu-Sn-P compacts added MoS₂, Cu-P-Mo-S compounds are formed at the surface of MoS₂ particles in the range of 700-750°C. As the volume of the surface layer of MoS₂ particles increases during the formation of these compounds, the adhesion between MoS₂ particles and the matrix can be well improved.
It can be expected in this Cu-Sn-P-MoS₂ type bearing that the thin layer of the reaction product formed around the MoS₂ particles above mentioned acts as a kind of binder between the matrix and the MoS₂ particles, thus prevents the solid lubricant (MoS₂) from mixing into the lubricant oil under hydrodynamic condition of high speed revolutions; such an excessive mixing in general worsens the running performance under hydrodynamic lubrication of the bearing.

高クロム鋳鉄粉をプレミックスした新ロール材の開発

Our results show that by changing the size and the content of high chromium iron powder, carbides in roll steel can be easily controlled. It is well known that carbides as well as matrix play an important role in roll steel: A new P/M process, called "The Pre-mix Process", developed by KOBE STEEL, LTD., provides an easy way to control the properties of carbides such as size, content and morphology. In "The Pre-mix Process", high chromium iron powder is mixed with roll iron powder and then HIP'ed to a full density. During HIP'ing, high chromium iron powder changes into massive carbides whose size is almost the same as that of powder particles.

SKD11粉末材の機械的諸性質

Steel powders containing 1.5%C-12%Cr have been produced by gas-atomization, and their fully densified P/M steel billets have been made by hot isostatic pressing.
Microstructures and mechanical properties of the P/M steel have been investigated in comparison with the conventional high C-high Cr cold die steel (1.5%C-12%Cr).
In the P/M steel, fine carbides are uniformly distributed, whereas in the conventional steels, large-sized carbides are distributed among fine carbides.
Mechanical properties of the P/M steel are as follows:
(1) Bend strength, impact strength and wear resistance under unlubricated condition of the P/M steel are superior to those of the conventional steel.
(2) Compressive yield strength of the P/M steel is equivalent to that of the conventional steel.
(3) Fracture toughness and wear resistance under lubricated condition of the P/M steel are inferior to those of the conventional steel.

鋳鉄粉を利用した高強度焼結材

This paper describes improvement of the strength of sintered products made from cast iron powder in combination with dimensional precision. Various mixtures consisting of cast iron powder, reduced iron powder, and partially pre-alloyed copper-iron powder were compacted at 800 MPa and sintered at 1423 K for 0.5-20 h in hydrogen atmosphere. The results shows that the tensile strength of 890 MPa can be achieved by the sintering of cast iron powder mixed with iron powder. It is also shown that by substituting partially pre-alloyed copper-iron powder for normal reduced iron powder, dimensional precision can be controlled. Consequently, at a given strength level, it is possible to achieve considerable saving of expensive alloying elements by using cast iron powder.