Tytuł artykułu
Autorzy
Identyfikatory
Warianty tytułu
Pianki metalowe - ultralekkie materiały do zastosowań konstrukcyjnych.
Konferencja
XVIth Physical Metallurgy and Materials Science Conference on Advanced Materials and Technologies AMT'2001, Gdańsk-Jurata, 16-20 September 2001
Języki publikacji
Abstrakty
Metallic foams are relatively unknown structural materials, however with enormous future potential for applications where lightweight combined with high stiffness and acceptable manufacturing costs are of prime interest. The performance of metallic foams, in particular those made of aluminium, in various prototypes, such as foamed panels, sandwiches, complex 3-D parts, foamed hollow profiles as well as castings with foamed cores, has been discussed with respect to the expected and achieved goals. The important contributions of aluminium foam to the improvement of the product's properties are highlighted and most promising utilisation is suggested.
Wydawca
Czasopismo
Rocznik
Tom
Strony
823--828
Opis fizyczny
Bibliogr. 19 poz., rys.
Twórcy
autor
- Institute of Materials and Machine Mechanics SAS, Bratislava, Slovakia
- Institute of Materials and Machine Mechanics SAS, Bratislava, Slovakia.
Bibliografia
- [1] Ashby, M. F.: Metall. Trans. 14 A, 1983, PP. 1755-1769.
- [2] Banhart, J., Baumeister, J.: Production methods for metallic foams. In: MRS Symposium Proceedings, Ed. by D.S. Schwartz, D.S. Shih, A.G. Evans and H.N.G. Wadley, Vol. 521, Materials Research Society, Warrendale, Pennsylvania, 1998, p. 121.
- [3] Ruch, W., Kirevag, B.: Int. Patent PCT/N090/0015, WO 91/01387.
- [4] Sosnik, A.: US Patent 2434775,1948.
- [5] Elliott, J. C.: US Patent 2751289,1956.
- [6] Akiyama, S.: EP 0 210 803 A1, 1986.
- [7] Shapovalov, V.I.: US Patent 5181 549, 1991.
- [8] Allen, B.C.: US Patent 3087 807, 1963.
- [9] Símančík F., Jerz J., Kováčik J., Minár P.: Aluminium foam – a new light weight structural material. In: Kovove mater., 35 4,1997 pp. 265-277.
- [10] Schwartz, D.S., et al.: Development and scale up of the Low-Density-Core proces for Ti-64. In: MRS Symposium proceedings, Ed. By D.S. Schwartz, D.S. Shih, A.G. Evans and H.N.G. Wadley, Vol. 521, Materials Research Society, Warrendale, Pennsylvania, 1998, p. 225.
- [11] Knüver, M.: Pore formation during reactive sintering of iron-aluminium powder mixtures. In: Metal Foams and Porous Metal Structures, Ed. By J. Banhart, M.F. Ashby, N.A. Fleck, Verlag MIT Publishing, Bremen, 1999, p. 203
- [12] Schoerghuber, F., Simancik, F., Hartl, E.: US Patent 5 865 237, 1999.
- [13] Simančík, F., Rajner, W., Laag, R.: Potential of PM foams for use in lightweight load bearing structures of future vehicles. In: Euro PM 2000. Materials and Processing Trends for PM Components in Transportation – Shrewsbury: EPMA, 2000, P. 57-64.
- [14] Simančík F., Schoerghuber F.: Complex foamed aluminium parts permanent cores in aluminium castings. In: MRS Symposium Proceedings, Ed. by D.S. Schwartz, D.S. Shih, A.G. Evans and H Wadley, Vol. 521, Materials Research Society, Warrenda Pennsylvania, 1998, P. 151.
- [15] Simančík, F.; Rajner, W.; Laag, R.: Alulight – Aluminum foam for lightweight construction. In: SAE Technical Paper Series 2000-01-0337. Warrendale: SAE, Inc., 2000, P. 31-38.
- [16] Gibson, L.J. and Ashby, M. F.: Cellular Solids, Pergamon Press, Oxford, 1988
- [17] Kováčik J., Simančík F.: Aluminium foam modulus of elasticity and electrical conductivity according to percolation theory. In: Scripta Mater., 39, 2, 1998, p. 239-246.
- [18] Simančík F. Reproducibility of aluminium foam properties. In: Metal Foams and Porous Metal Structures, Ed. by J. Banhart, M.F. Ashby, N.A. Fleck, Verlag MIT Publishing, Bremen, 1999, p. 235.
- [19] Haberling, C. et al.: Aluminium foams for energy absorbing structures undr axial loading. In: Metal Foams and Porous Metal Structures, Ed. By J. Banhart, M.F. Ashby, N.A. Fleck, Verlag MIT Publishing, Bremen, 1999, p. 37.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS5-0003-0041