Warm compaction of Al2O3
particulate reinforced
powder metallurgy iron-base composite
particulate reinforced
powder metallurgy iron-base composite
(College of Mechanical Engineering, South China University of Technology, Guangzhou 510640, China)
Abstract: Mechanical properties of the warm compacted alumina particulate reinforced powder metallurgy composite materials was compared with those of the materials obtained by conventional cold compaction. Factors affecting the properties of the warm compacted material such as compaction temperature, lubricant content and alumina content were studied. A 3%(mass fraction) alumina particulate reinforced iron-base composite with a green density of 7.0g/cm3 can be obtained by pressing the powder with a pressure of 700MPa at 175℃. The sintered materials have a density of 6.88g/cm3, a tensile strength of 512MPa and an elongation of 1.3%. Results show that as alumina content increases, density and mechanical properties of the composite decrease.
Key words: warm compaction;powder metallurgy;Al2O3 particulate reinforced iron-base composite; mechanical property