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Comment on ``Formation of Vacancy Pits on the Surface of Aluminum on Quench Annealing''
1.G. Wyon, J. M. Marchin, and P. Lacombe, Rev. Met. (Paris) 53, 945 (1956).
2.G. Wyon, J. M. Marchin, and P. Lacombe, Mem. Sci. Rev. Met. 56, 549 (1959).
3.G. Wyon, J. M. Marchin, and P. Lacombe, Compt. Rend. 252, 1467 (1961).
4.G. Wyon, J. M. Marchin, and P. Lacombe, Mem. Sci. Rev. Met. 60, 257 (1963).
5.A. Marmai, G. Wyon, and M. Leroy, Compt. Rend. 264, 552 (1967).
6.G. Wyon, thesis (Paris, 1968) (unpublished).
7.C. Brichet, L. Peeters, C. Roques‐Carmes, and G. Wyon, Compt. Rend. 271, 617 (1970).
8.C. Roques‐Carmes, L. Peeters, C. Brichet, M. Aucouturier, G. Wyon, and P. Lacombe, Metallography 4 (1971).
9.B. K. Tariyal and Ramaswami, Appl. Phys. Letters 16, 227 (1970).
10.The presence of tin in the aluminum used by these authors does not seem to be a determining factor, and if there is any influence, it would be an effect of stabilizing the vacancies in the matrix (strong vacancy‐solute binding energy) [see Federighi, Lattice Defects in Quenched Metals (Academic, New York, 1965), p. 217].
11.P. E. Doherty and R. S. Davies, Acta Met. 7, 118 (1959).
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