Tytuł artykułu
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Warianty tytułu
Konferencja
Fizyczne i Matematyczne Modelowanie Procesów Obróbki Plastycznej. FIMM 2005/sympozjum (20-21.05.2005; Warszawa, Polska)
Języki publikacji
Abstrakty
Compression testing of flanged and tapered specimens can provide the small regions of the fracture localization. In this work, analysis of compression of three specimens for low carbon steel, aluminum alloy containing 4% copper and 60/40 brass have been carried out. Typical stress/strain curves have been presented for the different materials. Effect of the initial H0/D0 ratio and other dimensional factors heve been investigated. Fracture modes for the different specimen geometries have been also detected.
Rocznik
Tom
Strony
165--170
Opis fizyczny
Bibliogr. 19 poz., rys., wykr.
Twórcy
autor
- Mechanical and Industrial Engineering Department, EL-FAETH University, Tripoli, Libya
autor
- Mechanical and Industrial Engineering Department, EL-FAETH University, Tripoli, Libya
Bibliografia
- [1] G. E. Deiter, in "Workability Testing Techniques", Metals Park, Ohio, ASM, 1983
- [2] D. V. Wilson, Influences of Metallurgical Structure on Formability" , in Formability and Metallurgical Structure. Proc. of a Symposium sponsored by TMS/AIME, Florida, Oct. 5-9 1986, the Metall. Soc., 1987, 3-32
- [3] T. Erturk, W. L. Otto and H. A. Kuhn, "Anisotropy of Ductile Fracture in Hot Rolled Steel Plates - An Application of the Upset Test". Metall. Trans., vol 5, Aug 1974, pp 1883-1886
- [4] D. Vilotic and A. H. Shabaik, "Analysis of Upsetting With Profiling Dies", Journal of Engineering Materials and Technology, 107, Oct 1985, pp 261-264
- [5]J. A. Schey and S. M Woodall, "Development of new Workability Testing Techniques", J. Mech. Working Tech., 2, 1979, pp 367-384
- [6] A. M Sabroff, F. W. Bougler and H. J. Henning, Forging Materials and Practices. Reinhold, 1968
- [7] H. Kudo and K. Aoi, "Effect of Compression Test Conditions Upon Fracturing of a Medium Carbon Steel-Study on Cold Forgeability Test, ll", J. Japan Soc. Tech. of Plasticity, 8, 1967, 17-27
- [8] S. Kobayashi, "Deformation Characteristics and Ductile Fracture of AISI 1040 Steel in Simple Upsetting of Solid Cylinders and Rings". J. Eng. For Ind., Trans ASME . May 1970, pp 391-399
- [9] H. A. Kukn, in Advances in Material Processing. Burke and Wells (Eds.), 1982
- [10] F. A. McClintock, "A Criterion for Ductile Fracture by the Groth of Holes", J. Applied Mech., Trans. ASME, June 1968, pp 363-371
- [11] Z. Marciniak and K. Kuczyński , "Limit Strains in the Process of Stretch Forming Sheet Metals", Int. J. Mech. Sci., 9, 1967, 609-620
- [12] M. G. Cockroft and D. J. Latham, "Ductility and the Workability of Metals'', J. Inst. Met., 96, 1968, 33-39
- [13] A. Jenner, Y. Bai and B. Dodd," A Thermoplastic Shear Instability Criterion Applied to Surface Cracking in Upsetting and Related Processes", J. Strain Anal. for
- [14] M. Oyane, T. Sato, K. Okimoto and S. Shima, "Criteria for Ductile Fracture and Their Applications", J. Mech. Wor. Tech., 4, 1980, 65-81
- [15] A. L. Hoffmanner, " The Use of Workability Test Results to Predict Processing limits", Metal Forming Interrelation Between Theory and Practice, Proceedings of a Symposium, Cleveland, OH, Oct 1970, Plenum Press, N. Y. 1971, pp 349-391
- [16] V. Vujovic and A. H. Shabaik, "A New Workability Criterion For Ductile Metals", J. Eng. Mat. and Tech, 108, July 1986. 245-249
- [17] E. Erman, H. A. Kuhn and G. Fitzsimons, "Novel Test Specimens for Workability Testing", Compression Testing of Homogeneous Materials and Composites, ASTM special technical paper no. 808 , American Society for Testing and Materials, R. Chait and R. Papirno (eds.) (1983), pp 279-290
- [18] Tool and Manufacturing Engineers Handbook. TMEH, vol. 2 Forming, Charles Wick and Raymond F. Veilleux (editors), 4th edition, Society for Mechanical Engineers, MI, 1984
- [19] Metals Handbook, vol 14 Forming and Forging, ASM, Metals Park, OH, 9 the edition, 1988
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-PWA3-0018-0027