3. F. Spaepen and D. Turnbull, "A mechanism
for the flow and fracture of metallic glasses," Scripta Metallurgica 8:563-568
(1974).
5. C.P. Chou and F. Spaepen, "Some mechanical properties of phase separated
Pd0.74Au0.08Si0.38 Metallic Glasses," Acta Metallurgica 23:609-613 (1975).
6. F. Spaepen,"On the fracture morphology of metallic glasses," Acta
Metallurgica 23:615-620 (1975).
11. F. Spaepen, "A microscopic mechanism for steady state in homogeneous
flow in metallic glasses," Acta Metallurgica 25:407-415 (1977).
18. F. Spaepen, "Structure and flow of amorphous alloys," Proceedings
of the Third International Conference on Rapidly Quenched Metals 2:253-268
(1979).
19. A.I. Taub and F. Spaepen, "Iso-configurational flow of amorphous
Pd82Si18," Scripta Metallurgica 13:195-198 (1979).
23. A.I. Taub and F. Spaepen, "Enhancement of structural relaxation in
amorphous PdSi following stress reduction," Scripta Metallurgica 13:883-886
(1979).
27. A.I. Taub and F. Spaepen, "The kinetics of structural relaxation
of a metallic glass," Acta Metallurgica 28:1781-1788 (1980).
31. A.I. Taub and F. Spaepen, "Homogeneous flow of amorphous Pd77.5Cu6Si16.5," Scripta Metallurgica 14:1197-1199 (1980).
33. F. Spaepen, "Defects in amorphous metals," Les Houches Lectures XXXV
on Physics of Defects (Amsterdam: North Holland Press, 1981), pp. 133-174.
35. F. Spaepen, "Metallic glasses--mechanical properties," Encyclopedia
of Materials Science and Engineering, (Oxford: Pergamon Press, 1986) 4:2970-2974.
36. A.L. Greer and F. Spaepen, "Creep, diffusion and structural relaxation
in metallic glasses," Annals of the New York Academy of Sciences 371:218-237
(1981).
37. P. Chaudhari, F. Spaepen and P.J. Steinhardt, "Defects and atomic
transport in metallic glasses," Glassy Metals II (Berlin: Springer-Verlag,
1983), pp. 127-168.
39. A.I. Taub and F. Spaepen, "Ideal elastic, anelastic and viscoelastic
deformation of a metallic glass," Journal of Materials Science 16:3087-3092
(1981).
41. S.S. Tsao and F. Spaepen, "Iso-configurational flow and structural
relaxation--experimental and theoretical developments," Proceedings of
the Fourth International Conference on Rapidly Quenched Metals (Sendai:
Japanese Institute of Metals, 1981) I:463-468.
43. P.S. Steif, F. Spaepen and J.W. Hutchinson, "Strain localization
in amorphous metals," Acta Metallurgica 30:447-455 (1982).
46. F. Spaepen and A.I. Taub, "Flow and fracture," Amorphous Metallic
Alloys (London: Butterworths, 1983), pp. 231-256.
54. S.S. Tsao and F. Spaepen, "Models for iso-configurational flow and
viscosity relaxation in metallic glasses," Amorphous Materials: Modeling
of Structure and Properties (New York: The Metallurgical Society of AIME,
1983), pp. 323-332.
66. S.S. Tsao and F. Spaepen, "Structural relaxation of a metallic glass
near equilibrium," Acta Metallurgica 33:881-889 (1985).
67. S.S. Tsao and F. Spaepen, "Effects of annealing on the isoconfigurational
flow of a metallic glass," Acta Metallurgica 33:891-895 (1985).
74. T.W. Wu and F. Spaepen, "Embrittlement of a metallic glass," Mechanical
Behavior of Rapidly Solidified Materials (Warrendale, PA: The Metallurgical
Society of AIME, 1986), pp. 293-305.
75. T.W. Wu and F. Spaepen, "Small angle x-ray scattering from an embrittling
metallic glass," Acta Metallurgica 33:2185-2190 (1985).
78. F. Spaepen, S.S. Tsao and T.W. Wu, "Creep and brittle fracture of
metallic glasses," Proceedings, EPRI-Acta Metallurgica Workshop on Amorphous
Metals and Semiconductors (New York: Pergamon Press, 1986), pp. 365-377.
103. C.A. Volkert and F. Spaepen, "Viscosity and structural relaxation
in Pd40Ni40P19Si1," Materials Science and Engineering 97:449-452 (1988).
112. C.A. Volkert and F. Spaepen, "Crossover relaxation of the viscosity
of Pd40Ni40P19Si1 near the glass transition," Acta Metallurgica 37:1355-1362
(1989).
120. T.W. Wu and F. Spaepen, "The relation between embrittlement and
structural relaxation of an amorphous metal," Philosophical Magazine B
61:739-750 (1990).
136. C.A. Volkert and F. Spaepen, "A comparison of viscous flow in sputtered
and melt-quenched amorphous Pd-Si alloys," Scripta Metallurgica 24:463-468
(1990).
143. A. Witvrouw, C.A. Volkert and F. Spaepen, "The viscosity of amorphous
metallic thin films," Proceedings of the Seventh International Conference
on Rapidly Quenched Metals, Materials Science and Engineering A134:1274-1277
(1991).
146. A. Witvrouw and F. Spaepen "Viscosity, structural relaxation and
defect annihilation kinetics of amorphous Si thin film," Materials Research
Society Symposia Proceedings (Pittsburgh, PA: Materials Research Society,
1992) 205:21-26.
176. A. Witvrouw and F. Spaepen, "The viscosity of amorphous Pd-Si and
Pd-Si/Pd-Si-Fe multilayers determined from stress relaxation in thin films
on a substrate," Journal of Applied Physics 75:1456-1462 (1994).
178. A.V. Wagner and F. Spaepen, "A comparison of the approach to equilibrium
of the viscosity and diffusivity of Pd-Si-based amorphous metals," Eighth
International Conference on Rapidly Quenched and Metastable Materials,
Sendai, Japan, Materials Science and Engineering A A179/A180:265-269 (1994).
179. A. Witvrouw and F. Spaepen, "Viscosity and elastic constants of
amorphous Si and Ge," Journal of Applied Physics 74:7154-7161 (1993).
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182. F. Spaepen, "Formation and annihilation of defects governing flow
and diffusion in amorphous metals," Eighth International Conference on
Rapidly Quenched and Metastable Materials, Sendai, Japan, Materials Science
and Engineering A179/A180:81-85 (1994).
190. E.P. Barth, F. Spaepen, R. Bye, S.K. Das, "Influence of processing
parameters on the ductile-to-brittle transition temperature of an Fe-Si-B
metallic glass," Acta Materialia, 45:423-428 (1997).
194. S.K. Das, R.L. Bye, E.P. Barth, F. Spaepen, V.R.V. Ramanan, and
T. Vu, "Processing of thick ductile metallic glass," Materials Science and
Engineering A, 226-228:1-7 (1997).'
209. M.E. Hawley, G.W. Brown, D.J. Markiewicz, F. Spaepen and E.P Barth, “Magnetic force microscopy of the magnetic structure of deformation-induced
shear bands in amorphous Fe80B16Si4”, Journal of Magnetism and Magnetic
Materials, 190:89-97 (1998).
216. G.W. Brown, M.E. Hawley, D.J. Markiewicz, F. Spaepen, E.P. Barth, “Magnetic structure of deformation-induced shear bands in amorphous Fe80B16Si4
observed by magnetic force microscopy”, Journal of Applied Physics, 85: 4415-4417 (1999).
228. T. Pedersen, J. Kalb, W. Nojoroge, D. Wamwangi, M. Wuttig and F.
Spaepen, "Mechanical stresses upon crystallization in phase change materials";
submitted to APL.
231. F. Spaepen, "Mechanical effects of interfaces", Scripta Metallurgica,
in preparation.
232. J. Li, F. Spaepen and T.C. Hufnagel, "Nanometer-scale
defects in shear bands in a metallic glass", Philosophical Magazine A 82:
2623-2630 (2002).
236. M. Heggen, F. Spaepen and M. Feuerbacher, "Plastic
deformation of Pd41Ni-10Cu29P20 bulk metallic glass", Materials Science and
Engineering, in press.
240. M. Heggen, F. Spaepen and M. Feuerbacher, "The evolution of the free volume during homogeneous flow of a metallic glass", Materials Research Society Symposia Proceedings (Pittsburgh, PA: Materials Research Society, 2004) 805:MM7.2.1 (2004).
247. M. Heggen, F. Spaepen and M. Feuerbacher, "Creation and annihilation of free volume during homogeneous flow of a metallic glass", Journal of Applied Physics: 97, 033506 (2005).
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251. F. Spaepen, "Homogeneous flow in metallic glasses: a free volume perspective", Scripta Materialia: 54, 363-367 (2006).
252. F. Spaepen, News and Views: "Must shear bands be hot ?", Nature Materials 5, 7-8 (2006).
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