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Microhardness and Debye Temperatures of Some FCC Phase Alloys

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Systematic studies on microhardness have been carried out on fcc phase Cu1– x –Zn x alloys. Using Vicker's pyramidal indenter and the true hardness has been estimated. The Debye temperatures of fcc phase Cu1– x –Zn x alloys have been obtained from X-ray integrated intensities. The integrated intensities have been measured with a Philips 3020 powder diffractometer fitted with a proportional counter using filtered CuK α radiation at room temperature and have been corrected for thermal diffuse scattering. The Debye temperatures of these alloys have been estimated from the hardness and are compared with those obtained from specific heats, elastic constants and X-ray intensity measurements.
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Keywords: DEBYE TEMPERATURES; FCC ELEMENT; HARDNESS; X-RAY DIFFRACTION

Document Type: Research Article

Publication date: December 1, 2014

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  • Journal of Advanced Physics is an interdisciplinary peer-reviewed journal consolidating research activities in all experimental and theoretical aspects of advanced physics. The journal aims in publishing articles of novel and frontier physics that merit the attention and interest of the whole physics community. JAP publishes review articles, full research articles, short communications of important new scientific and technological findings in all latest research aspects of physics.
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