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• W2022754080 abstract "A theoretical dynamic analysis of a new laboratory technique is presented for the study of solid particle erosion mechanisms of brittle, ductile, and semi-ductile materials. Samples mounted on a rotating disk were air-blasted by erodent particles. The rotating disk movement allows the reduction or increase of the relative particle tangential velocity. Also, the system enables the users to separately study the effect of the particle velocity components, normal and tangential, on the erosion rates and mechanisms. In addition to the separation of the normal and tangential velocities effects of the erodent particles, this technique introduces a radial motion of the particles with respect to the samples. A theoretical dynamic analysis of the system demonstrated that the erosive effect of the radial motion is negligible during the contact period between the particles and samples. An additional advantage of this technique is that it provides erosion rate values at very low angles of impact and at high particle velocities. The air-blasting–rotating disc system enhances our ability to study the erosion acting mechanisms. To show the benefits of this system, erosion tests at very low angles of impact and at high velocities were conducted using alumina as abrasive particles. S-glass, aluminum, and epoxy resin representing brittle, ductile, and semi-ductile materials were selected for this study and their erosion rates as a function of the particle angle of impingement and particle velocity were determinated." @default.
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• W2022754080 date "1999-04-01" @default.
• W2022754080 modified "2023-10-13" @default.
• W2022754080 title "New experimental technique for the study and analysis of solid particle erosion mechanisms" @default.
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• W2022754080 doi "https://doi.org/10.1016/s0043-1648(98)00415-3" @default.
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