Affiliation:
1. Nagaoka University of Technology
Abstract
Machining damage and its influence on strength was examined for alumina ceramics with
various grain sizes, which were prepared by dry-pressing method with spray-dried granules, followed
by sintering at 1350-1550°C for 2-27 hours. Grain sizes of the sintered bodies were 1-6μm. After
machining at the same grinding force, specimens were placed in an alcohol solution of fluorescent dye
and dried. The fracture strength was measured by 4 point bending. The machining flaws in the
specimens were observed with a confocal scanning laser fluorescence microscope. Machining flaws
appeared continuous, wide and deep in the specimen with small grain size, and discontinuous with
large size. On ground surfaces, intra-grain fracture appeared on the surface, whereas inter-grain
fracture dominates. The continuous, wide and deep flaws were attributed to the dissipation of stored
energy associated with the cracks propagation. The result suggested that the stored energy on the
machining process increased with decreasing grain size. The strength of the specimen with 1 μm
grain size reduced from 500MPa to 250 MPa with machining damage. The strength depended
remarkably on the depth of the machining damage.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Cited by
1 articles.
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