著者
加藤 和夫 森川 満隆 田上 道弘 山田 眞二 武田 徹
出版者
Japan Society of Powder and Powder Metallurgy
雑誌
粉体および粉末冶金 (ISSN:05328799)
巻号頁・発行日
vol.50, no.12, pp.1057-1061, 2003-12-15
参考文献数
5

In the previous paper, we reported the densification of the bronze matrix was promoted by the diffusion of Cr under solid state sintering at 1030 K. In the present work, effects of V addition on sintering properties and microstructures of the bronze matrix were investigated, and compared with Cr. Mixed powders were prepared from pulverized V powders and atomized 90Cu-10Sn powders, of which particle sizes were 106-150μm and 1-38μm respectively. Compacts pressed at 390 MPa were sintered at 670-1030 K for 0.3-180 ks in H2. V diffuses preferentially into the surface and grain boundary of the bronze powder. With increasing sintering time at 1030 K, pores of matrix decrease rapidly. This indicates that the densification of the bronze is promoted by the diffusion of V as same as the case of Cr. However, some pores are observed on the matrix and the grain size is bigger than the case of Cr after 180ks sintering at 1030 K. From these results, it is assumed the effects of densification by V addition is slightly smaller than Cr.
著者
加藤 和夫 田上 道弘 山田 眞二 武田 徹
出版者
Japan Society of Powder and Powder Metallurgy
雑誌
粉体および粉末冶金 (ISSN:05328799)
巻号頁・発行日
vol.49, no.9, pp.812-817, 2002-09-15
参考文献数
8
被引用文献数
1 1

In order to develop Graphite dispersed sintered bronze bearing material standing in the use of a higher load application, effects of Cr addition on sintering properties and microstructures of the bronze matrix were investigated. Mixed powders were prepared from elemental Cr powders and atomized 90Cu-10Sn powders, of which particle sizes were 106-50μm and 1-38μm, respectively. Compacts pressed at 390 MPa were sintered at 670-1030 K for 0.3-180 ks in H<SUB>2</SUB>. With increasing sintering time at 1030 K, pores decrease rapidly with the refinement of grain size in the bronze matrix surrounding Cr particle. This indicates that the densification of the bronze is promoted by the diffusion of Cr.