Interfaces -- grain boundaries

15. M.F. Ashby and F. Spaepen, "A new model for the structure of grain boundaries: packing of polyhedra," Scripta Metallurgica 12:193-195 (1978). [C8]

16. M.F. Ashby, F. Spaepen and S. Williams, "The structure of grain boundaries described as a packing of polyhedra," Acta Metallurgica 26:1647-1663 (1978). [C10]

25. H.J. Frost, M.F. Ashby and F. Spaepen, "A catalogue of [100], [110] and [111] symmetric tilt boundaries in face-centered cubic hard sphere crystals," Harvard University Division of Applied Sciences Materials Research Laboratory Report (1982). [C15]

29. H.J. Frost, M.F. Ashby and F. Spaepen, "A first report on a systematic study of tilt boundaries in hard sphere f.c.c. crystals," Scripta Metallurgica 14:1051-1056 (1980). [C8]

30. P.D. Bristowe, A. Brokman, F. Spaepen and R.W. Balluffi, "Simulation of the structure of vacancies in high angle grain boundaries," Scripta Metallurgica 14:943-950 (1980). [X]

50. H.J. Frost, F. Spaepen and M.F. Ashby, "A second report on tilt boundaries in hard sphere f.c.c. crystals," Scripta Metallurgica 16:1165-1170 (1982). [C15]

52. H.J. Frost and F. Spaepen, "Hard sphere models for the structure of grain boundaries," Journal de Physique 43:C6/73-C6/82 (1982). [C15]

92. C.V. Thompson, H.J. Frost and F. Spaepen, "The relative rates of secondary and normal grain growth," Acta Metallurgica 35:887-890 (1987). [C18]

110. R.J. Harrison, F. Spaepen, A.F. Voter, and S.P. Chen, "Structure of grain boundaries in iron and relaxation at surfaces," Innovations in Ultrahigh Strength Steel Technology, Proceedings of the 34th Sagamore Army Materials Research Conference (1990), p. 651. [L]

111. L.C. Chen and F. Spaepen, "Calorimetric evidence for the micro-quasicrystalline structure of 'amorphous' Al-transition metal alloys," Nature 336:366-368 (1988). [C19,J]

139. L.C. Chen and F. Spaepen, "Analysis of calorimetric measurements of grain growth," Journal of Applied Physics 69:679-688 (1991). [C19,B8,J]
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153. L.C. Chen and F. Spaepen, "Grain growth in microcrystalline materials studied by calorimetry," Nanostructured Materials 1:59-64 (1992). [B8,CM19]

 


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