Abstract
This review aims at making a bridge between the fundamentals of the wetting of solids by liquid metals and the practice of the preparation of metal-matrix composites. One recalls first the significance of concepts such as surface tension, work of adhesion, adsorption and the relation between these concepts, the phenomenon of wetting and the process of liquid metal infiltration. Thereafter, the wetting of various types of solids is considered: metals, oxides, carbon and carbides. !n the !light of this body of science, one proposes finally a critical evaluation of the literature concerning the preparation of metal-matrix composites by liquid metal infiltration techniques. Particular emphasis is devoted to reinforcements made of graphite, alumina or silicon carbide multifilament fibres; the use of coatings and the addition of alloying elements to the metal are successively discussed.
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K. C. Kreider, (ed.), “Metallic Matrix Composites” (Academic Press, New York, 1974).
J. C. Viala andJ. Bouix,Mater. Chem. Phys. 11 (1984) 101.
A. G. Metcalfe, in “Metallic Matrix Composites”, edited by K. C. Kreider (Academic Press, New York, 1974) p. 269.
R. L. Mehan andM. N. Noone,ibid.in “ p. 159.
R. A. Signorelli,ibid.in “ p. 230.
R. L. Mehan andR. B. Bolon,J. Mater. Sci. 14 (1979) 2471.
K. C. Kreider andK. M. Prewo, in “Metallic Matrix Composites”, edited by K. C. Kreider (Academic Press, New York, 1974) p. 400.
E. G. Kendall,ibid.in “ p. 319.
R. Lignon,Rech. Aerospat. 1 (1974) 49.
A. K. Dhingra,Phil. Trans. R. Soc. A294 (1980) 151.
T. W. Clyne, M. G. Bader, G. R. Cappleman andP. A. Hubert,J. Mater. Sci. 20 (1985) 85.
S. Yajima, J. Tanaka, K. Okamura, H. Ichikawa andT. Hayase,Rev. Chim. Miner. 18 (1981) 412.
D. Webster, in Proceedings of 3rd International Conference on Composites, Paris, 1980, Vol. 2, (Pergamon Press, London, 1980) p. 1165.
A. P. Divecha, S. G. Fishman andS. D. Karmarkar,J. Metals 9 (1981) 12.
T. W. Chou, A. Kelly andA. Okura,Composites 16 (1985) 187.
E. Fitzer andG. Jacobsen, in “Progress in Science and Engineering of Composites”, ICCM-IV, edited by T. Hayashi, K. Kawata and S. Umekawa, (Japanese Society for Composite Materials, Tokyo, 1982) p. 1315.
M. F. Amateau,J. Compos. Mater. 10 (1976) 279.
E. Nakata, Y. Kagawa andH. Terao,Rep. Casting Res. Lab, Waseda Univ. 34 (1983) 27.
E. A. Banerji, P. K. Rohatgi andW. Reif,Metall. 38 (1984) 656.
R. Defay, I. Prigogine, A. Bellemans andD. H. Everett, “Surface Tension and Adsorption” (Longmans, London, 1966).
N. Eustathopoulos andJ. C. Joud, in “Current Topics in Materials Science”, Vol. 4, edited by E. Kaldis (North-Holland, Amsterdam, 1980) p. 281.
G. Ibe, in “Haftung als Basis fur Stoffverbunde and Verbundwerkstoffe”, edited by W. Brockmann (Deutsche Gesellschaft für Metallkunde, Oberursel, West Germany, 1983) p. 281.
A. Dupre, Theoric Mecanique de la chaleur (Gauthier Villars, Paris, 1869).
D. Pique, L. Coudurier andN. Eustathopoulos,Scripta Metall,15 (1981) 165.
G. R. Belton,Metall. Trans. 7b (1976) 35.
E. A. Guggenheim,Trans. Faraday Soc. 41 (1945) 150.
T. P. Hoar andD. A. Melford,ibid. 53 (1957) 315.
J. C. Joud, J. C. Mathieu, P. Desre andE. Bonnier,J. Chim. Phys. 69 (1972) 131.
N. Eustathopoulos, J. C. Jour andP. Desre,ibid. 69 (1972) 1599.
idem. andP. Desre,ibid. 71 (1974) 777.
N. Eustathopoulos,Int. Met. Rev. 28 (1983) 189.
I. A. Askay, C. E. Hoge andJ. A. Pask,J. Phys. Chem. 78 (1974) 1178.
J. V. Naidich,Prog. Surf. Membr. Sci. 14 (1981) 353.
T. Young,Phil. Trans. R. Soc. 95 (1805) 65.
J. W. Gibbs,J. Phys. Chem. 3 (1878) 343.
R. E. Johnson Jr,J. Phys. Chem. 63 (1959) 1655.
K. A. Semlak andF. N. Rhines,Trans. Met. Soc. AIME (June 1958) 325.
R. T. Beyer andE. M. Ring, in “Liquid Metals, Chemistry and Physics”, edited by S. Z. Beer (Dekker, New York, 1972) p. 431.
T. W. Clyne andM. G. Bader, in Proceedings of ICCM-V, edited by W. C. Harrigan, J. Strife and A. K. Dhingra (The Metallurgical Society, Warrendale, 1985) p. 755.
G. Girot, J. P. Rocher, J. M. Quenisset andR. Naslain, in Proceedings E-MRS Meeting, Fall 1985, in press.
B. C. Allen, in “Liquid Metals: Chemistry and physics”, edited by S. Z. Beer (Dekker, New York, 1972) p. 161.
L. Goumiri andJ. C. Joud,Acta Metall. 30 (1982) 1397.
A. Pamies, C. G. Cordovilla andE. Louis,Scripta Metall. 18 (1984) 869.
A. S. Skapski,J. Chem. Phys. 16 (1948) 389.
S. H. Overbury, P. A. Bertrand andG. A. Somorjai,Chem. Rev. 75 (1975) 547.
R. Evans,J. Physique 41 (c8) (1980) 775.
E. Chacon, F. Flores andG. Navascues,J. Phys., Met. Phys. 14 (1984) 1587.
N. Eustathopoulos, J. C. Joud andP. Desre,J. Chim. Phys. 70 (1973) 49.
W. R. Tyson andW. A. Miller,Surf. Sci. 62 (1977) 267.
R. H. Ewing,J. Cryst. Growth 11 (1971) 221.
G. L. Bailey andH. C. Watkins,J. Inst. Met. 80 (1951–52) 57.
R. J. Klein Wassink,ibid. 95 (1967) 38.
A. R. Miedema andF. J. A. den Broeder,Z. Metallkde. 70 (1979) 14.
O. Gomez-Moreno, L. Coudurier andN. Eustathopoulos,Acta Metall. 30 (1982) 831.
V. N. Eremenko andN. D. Lesnik, in “The Role of Surface Phenomena in Metallurgy”, edited by V. N. Eremenko (Consultants Bureau, New York, 1963) p. 102.
S. I. Popel, V. N. Kozhurkov andT. V. Zakharoya,Zaschschita Metallov (English translation)7 (1971) 421.
N. Eustathopoulos andD. Pique,Scripta Metall. 14 (1980) 1291.
R. Warren.J. Mater. Sci. 15 (1980) 2489.
F. M. Fowkes,Ind. Eng. Chem 56 (1964) 40.
J. E. McDonald andJ. G. Eberhart,Trans. Metall. Soc. AIME 233 (1965) 512.
A. M. Stoneham, AERE Report No. 964 (1982).
Idem, Appl. Surf. Sci. 14 (1982–83) 249.
R. G. Barrera andC. B. Duke,Phys. Rev. 13 (1976) 4477.
W. A. Weyl, in “Structure and Properties of Solid Surfaces”, edited by R. Gomer and C. S. Smith (University of Chicago Press, 1953) p. 147.
D. T. Livey andP. Murray, in Proceedings of 2nd Plansee seminar, Reutte/Tyrol, 1956 (Metallwerk Plansee, Reutte, 1956) p. 375.
N. Cabrera andN. Mott,Rep. Progr. Phys. 1 (1948–49) 163.
M. Humenik Jr andW. D. Kingery,J. Amer. Ceram. Soc. 37 (1954) 18.
B. C. Allen andW. D. Kingery,Trans. Metall. Soc. AIME 215 (1959) 30.
N. Eustathopoulos andA. Passerone, in Proceedings of 7th International Conference “Physicochimie et siderurgie” (Societé Française de Métallurgie, Paris, 1978) p. 61.
V. F. Ukov, O. A. Esin, N. A. Vatolin andE. L. Dubinin, in “Physicochimie des phenomenes de surface a haute temperature” (Akad. Nauk. USSR, “Naukova Dumka”, Kiev, 1971) p. 139.
K. Aratani andY. Tamai, in “Surfaces and Interfaces in Ceramic and Ceramic-Metal Systems”, edited by J. Pask and A. Evans (Plenum Press, New York, 1981) p. 433.
G. A. Halden andW. D. Kingery,J. Phys. Chem. 59 (1956) 557.
S. P. Mehrotra andA. C. D. Chaklader,Metall. Trans. 16B (1985) 567.
R. L. Mehan,J. Compos. Mater. 4 (1970) 90.
B. F. Quigley, G. J. Abbaschian, R. Wunderlin andR. Mehrabian,Metall. Trans. 13A (1982) 93.
J. T. Klomp, in “Electronic Packaging Materials Science”, edited by E. A. Geiss, King-Nnig Tu and D. R. Uhlmann (Materials Research Society, Pittsburgh, 1985) p. 381.
O. Kubaschewski andC. B. Alcock, “Metallurgical Thermochemistry”, 5th Edn (Pergamon, Oxford, 1979).
A. K. Niessen, F. R. de Boer, R. Boom, P. F. de Chatel, W. C. M. Mattens andA. R. Miedema,Calphad 7 (1983) 51.
L. Coudurier, J. Adorian, D. Pique andN. Eustathopoulos,Rev. Int. Hautes Temp. Refr. 21 (1984) 81.
D. Widdows andM. G. Nicholas, Report AERE-R5625, (UK Atomic Energy Authority, Harwell, 1967).
C. R. Manning andT. B. Gurganus,J. Amer. Ceram. Soc. 52 (1969) 115.
N. Eustathopoulos, J. C. Joud, P. Desre andJ. M. Hicter,J. Mater. Sci 9 (1974) 1233.
L. Froyen andA. Deruyttere, in Proceedings of 4th European Symposium on Materials Science and Microgravity, Madrid, ESA SP-191, edited by T. D. Guyenne and J. Hunt (Noordwijk, 1983) p. 31.
R. Warren andC. H. Andersson,Composites 15 (1984) 101.
W. Kohler,Aluminium 51 (1975) 443.
R. C. Rossi, R. T. Pepper, J. W. Upp andW. C. Riley,Ceram. Bull. 50 (1971) 484.
J. A. Cornie, R. J. Suplinskas andA. W. Hauze,Ceram. Eng. Sci. Proc. 1 (1980) 728.
K. Prapriputaloong andM. R. Piggot,J. Amer. Ceram. Soc. 56 (1973) 184.
R. T. Swann andD. M. Esterling,Composites 15 (1984) 305.
D. M. Goddard, Met. Progr. (April 1984) 49.
G. R. Cappleman, J. F. Watts andT. W. Clyne,J. Mater. Sci. 20 (1985) 2159.
L. Aggour, E. Fitzer, M. Heym andE. Ignatowitz,Thin Solid Films 40 (1977) 97.
F. A. Badia andP. K. Rohatgi,Trans. Amer. Foundrymen's Soc. 77 (1969) 402.
A. C. D. Chaklader andK. R. Linger,Composites 7 (1976) 239.
T. Ishikawa, J. Tanaka, H. Teranishi, T. Okamura andT. Hayase, US Patent US4440571 (1981).
R. Lignon, O.N.E.R.A., French Patent 2183371 (1972).
D. M. Goddard andR. W. Sexton, French Patent 2 494 260 (1982).
B. C. Pai andP. K. Rohatgi,Mater. Sci. Eng. 21 (1975) 161.
S. M. Savvateeva andP. Sebo, in Proceedings of International Symposium on Composite Materials, 1978, Paper No. 21.
D. M. Goddard,J. Mater. Sci. 13 (1978) 1841.
J. P. Rocher, J. M. Quenisset andR. Naslain,J. Mater. Sci. Lett. 4 (1985) 1527.
Mitsubishi Industries, Japanese Patent 5834148 (1983).
Idem, Japanese Patent 5 834 148 (1983).
G. Imich, US Patent 2 793 949 (1957).
B. C. Pai, S. Rai, K. V. Prabhakar andP. K. Rohatgi,Mater. Sci. Eng. 24 (1976) 31.
T. P.Murali, M. K.Surrappa andP. K. Rohatgi,Metall. Trans. 13B (1982) 485.
Y. Kimura, Y. Mishima, S. Umekawa andT. Suzuki,J. Mater. Sci. 19 (1984) 3107.
W. C. Harrigan, J. Strife andA. K. Dhingra (eds), Proceedings of 5th International Conference on Composite Materials, ICCM-V, San Diego, 1985, (The Metallurgical Society, Warrendale, 1985).
A. R. Bunsell, P. Lamicq and A. Massiah (eds), Proceedings of the 1st European Conference on Composite Materials, Bordeaux, 1985 (European Association for Composite Materials, 1985) p. 634.
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Delannay, F., Froyen, L. & Deruyttere, A. The wetting of solids by molten metals and its relation to the preparation of metal-matrix composites composites. J Mater Sci 22, 1–16 (1987). https://doi.org/10.1007/BF01160545
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DOI: https://doi.org/10.1007/BF01160545