Abstract
In a metallic glass (synonymously noncrystalline or amorphous metal) the microscopic atomic arrangement exhibits no periodicity or long range order, in contrast to the crystalline state, and the shear viscosity is sufficiently large that the material becomes rigid enough to be considered a solid, in contrast to fluids.
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References
Buckel, W and R, Hilsch: Z. Physik 138 (1954) 109.
Piecuch, M., Geny, J.F. and G. Marchai: In ref. [8], p.79.
Duwez: Progress in Solid State Chemistry, H. Riess (ed.), Pergamon Press, Oxford (1966), vol.3,p.377.
Rapidly Quenched Metals III (Proc.3rd.Int.Conf.),B. Cantor (ed.), Metals Society, London (1978).
Rapidly Quenched Metals IV (Proc.4th.Int.Conf.),T. Masumoto and K. Zuzuki (eds.) Sendai (1982).
Amorphous Metallic Alloys, F.E. Luborsky (ed.), Butter-worth & Co. (1983).
Liquid and Amorphous Metals V (Proc.5th.Int.Conf.),C.N.J. Wagner and W.L. Johnson (eds.), Elsevier Science Publishers B.V. (1984), reprinted from J. Non-Cryst. Solids 61 & 62.
Amorphous Metals and Nonequilibrium Processing (Proc.Symp.) M. von Allmen (ed.), Les Editions de Physique (1984).
Rapidly Quenched Metals V (Proc.5th.Int.Conf.), S. Steeb and H. Warlimont (eds.), Elsevier Science Publ. B.V. (1985).
Glassy Metals II, H. Beck and H.J. Güntherodt (eds.), Springer Verlag (1983), 8. Laser Quenching: M.v. Allmen, p. 261–281.
Grant, W.A., Ali, A., Chadderton, L.T. and P.J. Grundy: In ref. [4], p.63.
Linker, G.:Materials Science and Engineering 69 (1984).
Johnson, W.L., Cheng, Y.T., Rossum, M.van and M.-A. Nicolet: Nucl. Instr. and Meth. B 7/8 (1985) 657.
A review is given by B.M. Paine and R.S. Averback in Nucl. Instr. and Meth. in Phys. Res. B 7/8 (1985) 666–675.
Rossum, M.van, Johnson, W.L. and M.-A. Nicolet: In ref. [8], p.99.
Rossum, M.van, Shreter, U., Johnson, W.L. and M.-A. Nicolet Mat. Res. Soc. (Proc.Symp.), Elsevier Science Publ. (1984), Vol. 27, p.127.
Bill, R.: Z. f. Krist. 75 (1930) 217.
Watanabe, T. and Y. Tanabe: In ref. [9], Vol.I, p.127.
Brenner, A.: Electrodeposition of Alloys, Academic Press, New York - London (1963).
Brenner, A., Couch, D.E. and E.K. Williams: J.Res.Nat.Bur. Standarda 44 (1950) 109.
Brenner, A. and G. Riddell: J.Res.Nat.Bur.Standards 39 (1974) 385.
Simpson, A.W. and D.R. Brambley: Phys. Stat. Solidi (b) 43 (1971) 291.
Bolotov, I.Ye. and A.V. Kozhin: Fiz. Metal. metalloved. 35 (1973) 383 (Phys. of Metals and Metallog. 35 (1973) 146.)
Häuser, J.J.: J. Physique 42 (1981) C4-943.
Tu, K.N. and K.Y. Ahn: Appl. Phys. Lett. 42 (1983) 597.
Häuser, J.J.: Phys. Rev.B 28 (1983) 597.
Yeh, X.L., Samwer, K. and W.L. Johnson: Appl. Phys. Lett. 42 (1983) 242.
Samwer, K., Yeh, X.L. and W.L. Johnson: J. Non-Cryst. Solids 61 & 62 (1984) 631.
Schwarz, R.B. and W.L. Johnson: Phys. Rev. Lett. 51 (1983) 415.
Schwarz, R.B., Wong, K.L. and W.L. Johnson: J. Non-Cryst. Solids 61 & 62 (1984) 129.
Clemens, B.M., Johnson, W.L. and R.B. Schwarz: J. Non-Cryst. Solids 61 & 62 (1984) 817.
Samwer, K., Regenbrecht, A. and H. Schröder: In ref. [9], p. 1577.
Samwer, K.: In ref. [8], p. 123.
Schröder, H., Samwer, K. and U. Köster: Phys.Rev.Lett. 54 (1985) 197.
Rossum, M.van, Nicolet, M.-A. and W.L. Johnson: Phys.Rev.B 29 (1984) 5498.
Rossum, M.van, Shreter, U., Johnson, W.L. and M.-A. Nicolet: Mat. Res. Soc. (Proc.Symp.), Elsevier Science Publ. (1984) Vol. 27,p.127, and
in ref. [9], p. 1515.
Guilmin, P., Guyot, P. and G. Marchai: Phys. Lett. A 109 (1985) 174.
Johnson, W.L., Dolgin, B.P. and M. van Rossum: In Glass Current Issues, A.F. Wright and J. Dupuy (eds.), NATO ASI Series, M, Nijhoff Publ. (1984), p. 172.
Samwer,K.: In ref. [8], p. 123.
Rossum, M. van, Shreter, U., Johnson, W.L. and A.-M. Nicolet: Mat. Res. Soc. (Proc.Symp.), Elsevier Science Publ. (1984) Vol. 27, p. 127.
Barbour,J.C., Saris,F.W., Nastasi,M. and J.W. Mayer: Submitted to Phys.Rev. B.
Regenbrecht,A.: Unpublished results.
Minnigerode, G. von, Böttjer, H.G., Prüfer, G. and A. Regenbrecht: LT 17, (Proc. 17th. Int.Conf.), U. Eckern, A. Schmid, W. Weber and H. Wühl (eds.), Elsevier Science Publ. B.V. (1984) FI2.
Schulz,L.: In ref. [8], p. 135 and in ref. [9], p. 1585.
Atzmon, M., Verhoeven, J.D., Gibson, E.D. and W.L. Johnson: Appl. Phys. Lett. 45 (1984) 1052 and
in ref. [9], p.1561.
Bergmann, G., Hilsch, R. and G. von Minnigerode: Z. Naturforschung 19 (1964) 580.
Ermakov, A.E., Barinov, V.A. and E.E. Yurchikov: Fiz. metal. metalloved. 52 (1981) 1184 and
Ermakov, A.E., Barinov, V.A. and E.E. Yurchikov: Fiz. metal. metalloved. 54 (1982 935.
Mc Kamey, C.G.and J.O. Scarbrough: Appl. Phys. Lett. 43 (1983) 1017.
Schwarz, R.B.: Abstract submitted to ref. [9].
Politis, C: Proc. Int. Conf. on the Materials and Mechanisms of Superconductivity, Ames, Iowa, May 1985.
Politis, C. and W.L. Johnson: We gratefully acknowledge private communications and a preprint.
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von Minnigerode, G., Samwer, K., Regenbrecht, A. (1987). Formation of Non-Crystalline Metallic Alloys with and without Rapid Quenching. In: Lüscher, E., Fritsch, G., Jacucci, G. (eds) Amorphous and Liquid Materials. NATO ASI Series, vol 118. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-3505-1_37
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DOI: https://doi.org/10.1007/978-94-009-3505-1_37
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