Engineering Transactions

Engineering Transactions, 47, 3-4, pp. 351–367, 1999
10.24423/engtrans.637.1999

Design of intelligent technologies based on the structural criterion is intended both to reduce the work of plastic deformation and to generate advantageous structure and mechanical parameters of metallic products. It enables external control of the deformation mechanism oriented towards time-spatial organization of the slip and localization of plastic flow in the transgranular shear bands. One of the industrial solutions presented in the paper refers to the production of rods of lead brass by the KOBO method, consisting in a complex extrusion of the ingot on a press with reversibly rotating die. The performed experimental investigations and their analysis comprised the mechanical aspects of the new, energy-saving technology of metal working and were concentrated on the evaluation of the possibility of formation of the final structure and by that means, of the expected mechanical properties of the products.

Copyright © Polish Academy of Sciences & Institute of Fundamental Technological Research (IPPT PAN).

M. HATHERLY, A.S. MALIN, Deformation of copper and low stacking energy copper-base alloys, Metals Technology, 308–319, 1979.

M. HATHERLY, A.S. MALIN, Shear bands in deformed metals, Scripta Metall., 18 , 449–454, 1984.

W. BOCHNIAK and A. KORBEL, Strain softening effect during cross-rolling of aluminum, 4th Inter. Conf. on Aluminum Alloys, Georgia Institute of Alloys, 283–290, Atlanta 1994.

C.A. BRONKHORST, S.R. KALIDINDI, L. ANANDI, Polycrystalline plasticity and the evolution of texture in FCC metals, Phil. Trans. R. Soc. Lond., A341, 443, 1992.

A. KORBEL, Mechanical instability of metal structure – catastrophic flow in single and polycrystals, Int. Symp. on Advances in Crystal Plasticity, Canadian Institute of Mining and Metallurgy, 42–86, Kingston 1992.

A. KORBEL, Structural and mechanical aspects of homogeneous and non-homogeneous deformation in solids, Localization and fracture phenomena in inelastic solids [Ed. P. Perzyna], CISM Courses and Lectures, 286, 21–98, Springer Wien New York 1998.

W. BOCHNIAK, Strain localization and superplastic-like flow in copper at high temperature, Mat. Sci. Eng., A190, 81–86, 1995.

A. KORBEL, W. BOCHNIAK, Economical solutions in metal forming technology, Australasia–Pacific Forum on Intelligent Processing and Manufacturing [Ed. by T. Chandra et al.], 1143–1149, Gold Coast 1997.

W. BOCHNIAK and A. KORBEL, High energy-saving technology of metal forming, Int. Conf. on Minerals and Materials, South African Institute of Mining and Metallurgy, 478–485, Cape Town 1996.

W. BOCHNIAK, Structural aspects of the mechanical behavior of deformed metal, 14th Danubia–Adria Symp. on Experimental Methods in Solid Mechanics, Croatian Society of Mechanics, 159–160, Porec 1997.

A. KORBEL and W. BOCHNIAK, The structure-based design of metal forming operations, J. Mater. Proc. Technol., 53, 229–237, 1995.

A. KORBEL and W. BOCHNIAK, Method of metals extrusion, Polish patent No. 174474 (31.08.1998).

A. KORBEL and W. BOCHNIAK, Method of plastic forming of materials, USA patent No. 5, 737, 959 (14.04.1998).

W. BOCHNIAK, Instability of dislocation substructure and its effect on mechanical properties of deformed metal, Z. Metalkunde, 1999.

A. KORBEL, W. BOCHNIAK, F. CIURA, H. DYBIEC and K. PIELA, The natural metal-matrix composite formation by thermo-mechanical treatments 3. Mater. Proc. Technol., 78, 104–111, 1998.

T. TADAKI, C.J. QIANG, K. SHIMIZU, Y. FUXING and G. NANJU, Composition dependence of the bainitic transformation in $ beta $ phase Cu-Zn-Au alloy, Inter. Conf. on Martensitic Transformations, Monterey Institute for Advanced Studies, 827–832, California 1993.