Fracture Analysis of Particulate Reinforced Metal Matrix Composites
نویسنده
چکیده
A fracture analysis of highly loaded particulate reinforced composites was performed using laser moire interferometry to measure the displacements within the plastic zone at the tip of an advancing crack. Ten castings were made of five different particulate reinforcement-aluminum alloy combinations. Each casting included net-shape specimens which were used for the evaluation of fracture toughness, tensile properties, and flexure properties resulting in an extensive materials properties data. Measured fracture toughness range from 14.1 MPa m for an alumina reinforced 356 aluminum alloy to 23.9 MPa m for a silicon carbide reinforced 2214 aluminum alloy. For the combination of these K values and the measured tensile strengths, the compact tension specimens were too thin to yield true plane strain KIc values. All materials exhibited brittle behavior characterized by very small tensile ductility suggesting that successful application of these materials requires that the design stresses be below the elastic limit. Probabilistic design principles similar to those used with ceramics are recommended when using these materials. Such principles would include the use of experimentally determined design allowables. In the absence of thorough testing, a design allowable stress of 60 percent of the measured ultimate tensile stress is recommended.
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