摘要:
The alloy having excellent resistance against thermal fatigue comprises a metal matrix and heat-resistant particles X dispersed in the matrix and having a shorter diameter of less than 20 mu m and a longer diameter of less than 50 mu m, the heat-resistant particles being contained in an amount of 5 to 25 % by volume, and the thermally unstable deposited particles being contained in said matrix in an amount of not more than 1 % by weight. The aluminum alloy having excellent resistance against thermal fatigue contains 4 to 12 % by weight of Si, not more than 0.2 % by weight of Cu, and not more than 0.2 % by weight of Mg, the remainder being aluminum and impurities. The aluminum alloy member forms a highly resistant portion against thermal fatigue by padding said alloy on the surface of the aluminum alloy base metal where thermal strain concentrates.
摘要:
A method of forming a powder green body, capable of providing a high-density green body under a high pressure and reducing a pressure for extraction from a die, the method comprising a coating step for coating the inner surface of a heated die with a higher fatty acid lubricant, and a pressing step for filling the die with metallic powder and pressing the metallic powder under a pressure produced when the higher fatty acid lubricant chemically combines with the metallic powder to form a metallic soap film. A metallic soap film formed between the die and the green body can reduce a friction force between the die and the green body, significantly lower an extracting pressure despite a high-pressure forming, and provide a high-density green body due to a high-pressure forming.
摘要:
A dust core produced by compacting an iron based magnetic powder coated with an insulating coating, characterized in that saturation magnetization M ≥ 1.9T in a field of 1.6 MA / m, specific resistance ς1.5 ν Φ m, flux density B2k ≥ 1.1T in a field of 2 kA/m, and flux density B10k≥1.6T in a field of 10 kA/m. According to the invention, an iron based magnetic powder can be compacted industrially under a significantly high molding pressure and a high performance dust core having high density and excellent specific resistance and permeability can be obtained.