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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.

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Spelling suggestions: "subject:"coppernickel alloys -- metallography"" "subject:"coppernickel alloys -- met.allography""

1

Periodic precipitation in Cu-Ni-Co

Vandermousen, Roland F. January 1967 (has links)
An investigation of precipitation was carried out on the system Cu-Ni-Co at temperatures varying from 600°C to 800°C over a wide range of composition . The precipitation process was studied primarily by use of X-ray diffraction techniques. The precipitation was observed to procede by a spinodal decomposition process. The initial wavelength of the modulated structure was in the range 40 to 55Å, in good agreement with the theory for spinodal decomposition. On ageing, a coarsening was observed for all alloys aged inside the spinodal. This coarsening appeared to follow a law of the form Q[superscript: m] – Qo[superscript: m] = k (t-to) where Q = wavelength at time t Qo = wavelength before the coarsening begins at time to k and m = constants The activation energy of the coarsening process was found to be 65 kcal/mole + 10 kcal suggesting that volume diffusion was the controlling factor. RESUME Le présent travail étudie la formation de précipités dans divers alliages du systéme Cu-Ni-Co au cours de vieillissements à des temperatures de 600°C a 800°C. L’évolution de la précipitation a été suivie principalement par diffraction des rayons X. On a observé que la précipitation procède par décomposition spinodale. La longeur d'onde initiale de la structure modulée est comprise entre 40 et 55Å; en bon accord avec la théorie de la décomposition spinodale de Cahn. Au cours du vieillissement on a mesuré un accroissement de la longeur d'onde pourtous les alliages traités à l'intérieur du spinodal. Cet accroissement de longeur d'onde obéit à une loi de la forme Q[superscript: m] – Qo[superscript: m] = k (t-to) ou Q = longeur d'onde au temps t Qo = longeur d’onde avant que le grossisement commence, à to k et m = constantes if energie d'activation du mécanisme de croissance des précipités a été déterminée; sa valeur, 65 kcal/mole suggére que la diffusion en volume est le facteur préponderant. / Applied Science, Faculty of / Materials Engineering, Department of / Graduate
Copper-nickel alloys -- Metallography
Separation (Technology)

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