Superplastic diffusion bonding is now established as an important technique for solid state bonding. There are two types of superplastic diffusion bonding using either transformation or isothermal superplasticity. In this overview, the principles of these two types are summarised and the applications are discussed, including superplastic forming with concurrent diffusion bonding (the SPF-DB process), pressure welding, and the use of superplastic diffusion bonding in sintering.
MST/835
Get full access to this article
View all access options for this article.
References
1.
OHASHIO.: Kinzoku, 1986, 56, 14.
2.
HASHIMOTOT. and TAMURAK.: J. Jpn Weld. Soc., 1972, 41, 19.
3.
ENJOT.: J. Jpn Weld. Soc., 1981, 50, 335.
4.
BARTLEP. M.: Br. Weld. J., 1969, 16, 241.
5.
OHASHIO. and HASHIMOTOT.: J. Jpn Weld. Soc., 1976, 45, 295.
6.
ENJOT., IKEUCHIK., and AKIKAWAN.: J. Jpn Weld. Soc., 1982, 51, 1028.
7.
‘Superplasticity and superplastic forming’; 1980, Tokyo, The Japanese Society of Superplasticity (in Japanese).
8.
SCHWARTZM. M.: ‘Modern metal joining’; 1969, New York, Wiley.
9.
INoxucinN.: Bull. Jpn Inst. Met., 1974, 13, 125.
10.
ENJOT. and IKEUCHIK.: Bull. Jpn Inst. Met., 1982, 21, 959.
11.
MIYAGAWAM. and KOBAYASHIM.: Bull. Jpn Inst. Met., 1986, 25, 8.
ENJOT., IKEUCHIK., AKIKAWAN., and MARUYAMAT.: J. High Temp. Soc. Jpn, 1980, 6, 81.
17.
KATOH., SHIBATAM., and YOSHIKAWAK.: Mater. Sci. Technol., 1986, 2, 405.
18.
KELLERERH. G. and MILACEKL. H.: Weld. J., 1970, 49, 219s.
19.
REHDERR. H. and LOVELLD. T.: Weld. J., 1970, 49, 213s.
20.
ENJOT., IKEUCHIK., AKIKAWAN., and ITOM.: J. Jpn Inst. Met., 1980, 44, 659.
21.
PILLINGJ., LIVESEYD. W., HAWKYARDJ. B., and RIDLEYN.: Met. Sci., 1984, 18, 117.
22.
WILKINSOND. S. and ASHBYM. F.: Ada Metall., 1975, 23, 1277.
23.
CHENI. -W. and ARGONA. S.:Ada Metall.,1981, 29, 1759.
24.
HANCOCKJ. W.: Met. Sci., 1976, 10, 319.
25.
CHOKSHIA. H. and LANGDONT. G.: Ada Metall., 1987, 35, 1089.
26.
x.Z. and RIDLEYN.: Mater. Sci. Technol., 1987, 3, 945.
27.
SHERRYO. D., WADSWORTHJ., R. D. CALIGIURI, L. F’. EISELSTEIN, B. C. SNYDER, and WHALENR. T.:Scr. Metall., 1979, 13, 941.
28.
SHERBYO. D. and RUANOO. A.: in ‘Superplastic forming of structural alloys’, (ed. PatonN. E. and HamiltonC. H.), 242-254; 1982, Warrendale, PA, The Metallurgical Society of AIME.
29.
ISONISHIK. and TOKIZANEM.: J. Jpn Inst. Met., 1984, 48, 623.
30.
KOMIZOY. and MAEHARAY.: Trans. Iron Steel Inst. Jpn, submitted for publication.
31.
MAEHARAY.: Trans. Iron Steel Inst. Jpn, 1985, 25, 69.
32.
MAEHARAY. and OHMORIY.: Metall. Trans., 1987, 18A, 663.
33.
MAEHARAY.: Trans. Iron Steel Inst. Jpn, 1987, 27, 705.
34.
OHSHITAT., TAKEIH., and HATAYAMAT.: J. Jpn Inst. Met., 1985, 49, 552.
35.
NISHIGUCHIK. and TAKAHASHIY.: J. Jpn Weld. Soc., 1985, 3, 303.
36.
LANGDONT. G.: in ‘Superplastic forming of structural alloys’, (ed. PatonN. E. and HamiltonC. H.), 27-40; 1982, Warrendale, PA, The Metallurgical Society of AIME.
37.
KIRKJ. N.: Met. Mater., 1987, 3, (11), 647.
38.
WEISERTE. D. and STACHERG. W.: Met. Prog., 1977, 111, (3), 33.
39.
HAMILTONC. H.: in ‘Formability — Analysis, modeling, and experimentation’, (ed. HeckerS. S. et al.), 232–258; 1978, Warrendale, PA, The Metallurgical Society of AIME.
40.
COLLINSJ. F. and HIGHBERGERW. T.: Met. Prog., 1981, 119, (4), 79.
41.
KOBAYASHIM.: J. Jpn Soc. Technol. Plast., 1982, 23, 1026.
42.
WEISERTE. D. and STACHERG. W.: in ‘Superplastic forming of structural alloys’, (ed. PatonN. E. and HamiltonC. H.), 273-289; 1982, Warrendale, PA, The Metallurgical Society of AIME.
43.
wiLLI AmsoNJ. R.: in ‘Superplastic forming of structural alloys’, (ed. PatonN. E. and HamiltonC. H.), 291-306; 1982, Warrendale, PA, The Metallurgical Society of AIME.
