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This elaboration shows the effect of combined heat treatment and cold working on the structure and utility properties of alloyed copper. As the test material, alloyed copper CuTi4 was employed. The samples were subjected to treatment according to the following schema: 1st variant - supersaturation and ageing, 2nd variant - supersaturation, cold rolling and ageing. The paper presents the results of inicrostructure, hardness, and abrasion resistance. The analysis of the wipe profile geometry was realized using a Zeiss LSM 5 Exciter confocal microscope. Cold working of the supersaturated solid solution affects significantly its hardness but the cold plastic deformation causes deterioration of the wear resistance of the finally aged CuTi4 alloy.
Słowa kluczowe
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Czasopismo
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Tom
Strony
1277--1282
Opis fizyczny
Bibliogr. 20 poz., rys., tab., wykr.
Twórcy
autor
- Silesian University of Technology, Institute of Engineering Materials and Biomaterials, 18A Konarsktego Str, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Institute of Engineering Materials and Biomaterials, 18A Konarsktego Str, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Institute of Engineering Materials and Biomaterials, 18A Konarsktego Str, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Institute of Engineering Materials and Biomaterials, 18A Konarsktego Str, 44-100 Gliwice, Poland
Bibliografia
- [1] J. Dutkiewicz. Metall Trans A. 8A, 751-759 (1977).
- [2] J. Dutkiewicz, Met Technol. 5, 333- 400 (1978).
- [3] S. Semboshi, S. Orirno. H. Suda. W. Gao, A. Sugawara. Mater. Trans. 50. 185-189 (2011).
- [4] A. W. Thomson. J. C. Williams, Metall Trans A. 15A, 931-937 (1984).
- [5] J. Ružić, J. Stašić, V. Rajković. D. Božić. Mater Design. 49, 746-754 (2013).
- [6] S. Nagarjuna, K. Balasubranianian, D.S. Sarma, Mater T JIM. 36. (8), 1058-1066(1995).
- [7] R. Markandeya, S. Nagarjuna, D. S. Sarma. Materials Characterization 54. 360- 369 (2005).
- [8] S. Nagarjuna, K. Balasubramanian, D. S. Sarma, J Mater Sei. 32, 3375-3385 (1997).
- [9] R. Markandeya, S. Nagarjuna, D.S. Sarma, Mater Characterization 57, 348-357 (2006).
- [10] S. Nagarjuna, M. Srinivas, Mat Sei EngA-Struct. A 498, 468-474 (2008).
- [11] S. Nagarjuna, U. Chinta Babu, P. Ghosal, Mat Sei Eng A-Struct A 491, 331-337 (2008).
- [12] R. Markandeya, S. Nagarjuna, D.S. Sarma, Mat Sei Eng A-Struct. A 404, 305-313 (2005).
- [13] S. Nagarjuna, K. Balasubramanian, D. S. Sarma, J Mater Sei. 34, 2929-2942(1999).
- [14] S. Seniboshi. H. Numakura, W.L. Gao, H. Suda, A. Sugawara, Mater Sei Forum. 654-656, 1315-131 (2010).
- [15] C. S. Çetinarslan. Mater Design. 30. 671-673 (2009).
- [16] S. Nagarjuna, M. Srinivas. Mat Sei Eng A-Struct. A 335 (1-2). 89-93 (2002).
- [17] J. Dutkiewicz, Mechanisms of spinodal decomposition and discontinuous transformation as well as ordering processes in aged alloys with Al lattice. Metallurgy and Foundry, AGH Scientific notebooks 80, 1977 Krakow
- [18] L. Blacha, W. Szkliniarz. A. Koscielna, A. Dudzik-Trus, Mater Engineering 1, 42-45 (2010).
- [19] Z. Rdzawski, The mechanism and kinetics of precipitation in selected copper alloys. Institute of Non Ferrous Metals, Scientific work, 2010 Gliwice.
- [20] S. Asadi Kouhanjani. A. Zare-Bidaki, M. Abedini, N. Parvin, J Alloy Compd. 480. 505-509 (2009).
Uwagi
EN
This publication was financed by the Ministry of Science and Higher Education of Poland as the statutory financial grant of the Faculty of Mechanical Engineering SUT.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8b1dbe75-b2a3-4618-b581-d2f6657d9f28