Research on Vibration Properties of Copper-Titanium Alloys

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The article addresses a method proposed for comprehensive research of vibration properties dedicated to new structural materials. The method in question comprises three-stage studies, thus enabling the related costs to be reduced on each stage of the process. Subjects of identification and assessment are both the properties and the material structure as well as numerically determined dynamic characteristics and actual vibration characteristics of materials. The article provides preliminary research results obtained for Cu-2Ti-1Co and Cu-6Ti-1Co alloys, the mechanical properties of which are very prospective. An additional advantage of the method proposed is the capability of identifying alloy types by application of non-destructive vibratory methods.

[1] A. Szkliniarz, L. Blacha, W. Szkliniarz, J. Łabaj, Characteristics of plasticity of hot deformed Cu-Ti alloys. Archives of Metallurgy and Materials 59 (4), 1113-1118 (2014).

[2] I. Batra, A. Laik, G. Kale, G. Dey, U. Kulkarni, Microstructure and properties of Cu-Ti-Co alloy. Materials Science and Engineering A 402, 118-125 (2005).

[3] S. Nagarjuna, D. Sarma. Effect of cobalt addition on the age hardening of Cu-4,5Ti alloy. Journal of Materials Science 37, 1929-1940 (2002).

[4] W. Duerrschnabel, F. Puckert, H.Strueer.Use of a coppertitanium- cobalt alloy as a material for electronic components. USA Patent no 4.734.255 (1998).

[5] B. Oleksiak, G. Siwiec, A. Blacha-Grzechnik, J .Wieczorek, The obtained of concentrates containing precious metals for pyrometallurgical processing, Metalurgija 53(4), 605-608 (2014).

[6] L. Blacha, R. Burdzik, A. Smalcerz, T. Matuła, Effects of pressure on the kinetics of manganese evaporation from the OT4 alloy, Archives Of Metallurgy And Materials 58 (1), 197-201 (2013).

[7] J. Łabaj, G. Siwiec, L. Blacha, R. Burdzik, The role of a gas phase in the evaporation process of volatile components of the metal bath, Metalurgija 53 ,2, 215-217 (2014).

[8] B. Oleksiak, J.Lipart, A. Karbownik, R. Burdzik, Effects of a reducer type on copper flash smelting slag decopperisation, Metalurgija 54, 1, 116-118 (2015).

[9] A. Klimpel, L. Dobrzański, A. Lisiecki, D. Janicki, The study of the technology of laser and plasma surfacing of engine valves face made of X40CrSiMo10-2 steel using cobalt-based powders, Mater. Process. Technol. 175, 1/3, 251-256 (2006).

[10] A. Kurc-Lisiecka, W. Ozgowicz, W. Ratuszek, J. Kowalska: ‘Analysis of Deformation Texture in AISI 304 Steel Sheets’, Sol. St. Phenomena 203-204, 105-110 (2013).

[11] G. Golański, A. Zieliński, J. Słania, J. Jasak,Mechanical Properties of VM12 steel after 30 000hrs of ageing at 600°C temperature, Arch. Metall. Mater. 59(4), 1357-1360 (2014).

[12] G. Golanski, A. Zielinska-Lipiec, S. Mrozinski, et al., Microstructural evolution of aged heat-resistant cast steel following strain controlled fatigue Materials Science And Engineering A-Structural Materials Properties Microstructure And Processing 627, 106-110 (2015).

[13] G. Golanski, Mechanical properties of GX12CrMoVNbN91 (GP91) cast steel after different heat treatments, Materials Science 48, 3, 384-391 (2012).

[14] T. Węgrzyn, J. Mirosławski, A. Silva, D. Pinto, M. Miros, Oxide inclusions in steel welds of car body, Mat. Sci. Forum 6, 585-591 (2010).

[15] T. Węgrzyn, J. Piwnik, D. Hadryś. Oxygen in steel WMD after welding with micro-jet cooling, Arch. Metall. Mater. 58(4), 1067-1070 (2013).

[16] T. Węgrzyn, J. Piwnik, B. Łazarz, W. Tarasiuk, Mechanical properties of shaft surfacing with micro-jet cooling, Mechanika, Kauno Technologijos Universitetas 21, 5, 419-423 (2015).

[17] R. Burdzik, Ł. Konieczny, Z. Stanik, P. Folega, A. Smalcerz, A. Lisiecki, Analysis of impact of chosen parameters on the wear of camshaft, Arch. Metall. Mater. 59(3), 957-963 (2014).

[18] A.N. Wieczorek, The role of operational factors in shaping of wear properties of alloyed Austempered Ductile Iron. Part I. Experimental studies abrasive wear of Austempered Ductile Iron (ADI) in the presence of loose quartz abrasive. Archives of Metallurgy and Materials 59(4), 1665-1674 (2014).

[19] W. Tuszyński, M. Kalbarczyk, M. Michalak, R. Michalczewski, A. Norbert Wieczorek, The effect of WC/C coating on the wear of bevel gears used in coal mines, Mater. Sci. - Medziagotyra 21, 3, 358-363 (2015).

[20] A. Fornalczyk, S. Golak, R. Przylucki, Investigation of the influence of supply parameters on the velocity of molten metal in a metallurgical reactor used for platinum recovery, Archives of Civil and Mechanical Engineering 15, 1, 171-178 (2015).

[21] R. Burdzik, Research on the influence of engine rotational speed to the vibration penetration into the driver via feet - multidimensional analysis, Journal of Vibroengineering 15(4), 2114-2123 (2013).

[22] R. Burdzik, Identification of structure and directional distribution of vibration transferred to car-body from road roughness, submitted to Journal of Vibroengineering 16(1), 324-333(2014).

[23] R. Doleček, J. Novák, O. Černý. Experimental Research of Harmonic Spectrum of Currents at Traction Drive with PMSM. Radioengineering 20(2), 512-515 (2011).

[24] R. Doleček, O. Černý, P. Sýkora, J. Pidanič, Z. Němec. The traction drive of the experimental rail vehicle. 4th International Conference on Power Engineering, Energy and Electrical Drives, 650 - 654 (2013).

[25] M. Kozłowski, W. Choromański, J. Kowara. Parametric sensitivity analysis of ATN‑PRT vehicle (automated transit network - personal rapid transit). Journal of Vibroengineering 17(3), 1436‑1451 (2015).

[26] Z. Dąbrowski, M. Zawisza, The choice of vibroacoustic signal measures, in mechanical fault diagnosis of diesel engines, Solid State Phenomena 236, 220-227 (2015).

[27] M. Zawisza, Energy loss and the choice of damper of torsional vibration combustion engines, Solid State Phenomena 236, 188-195 (2015).

[28] J. Pankiewicz, P. Deuszkiewicz, J. Dziurdź, M. Zawisza. Modeling of powertrain system dynamic behavior with torsional vibration damper, Advanced Materials Research 1036, 586-591 (2014).

[29] M. Kłaczyński, T. Wszołek, Artificial intelligence and learning systems methods in supporting long-term acoustic climate monitoring. Acta Physica Polonica A, 123 (6), 1024-1028 (2013)

[30] M. Kłaczyński, T. Wszołek, Detection and classification of selected noise sources in long-term acoustic climate monitoring. Acta Physica Polonica A, 121 (1-A), 179-182 (2012)

[31] R. Burdzik, Z. Stanik, J .Warczek, Method of assessing the impact of material properties on the propagation of vibrations excited with a single force impulse, Archives of Materials and Metallurgy 57(2), 409-416 (2012).

[32] Ł. Konieczny, R. Burdzik, B. Lazarz, Application of the vibration test in the evaluation of the technical condition of shock absorbers built into the vehicle, Journal of vibroengineering 15, 4, 2042-2048 (2013).

[33] Ł. Konieczny, R. Burdzik, T. Figlus, Possibility to Control and Adjust the Suspensions of Vehicles, Edited by: Mikulski, J, Activities of Transport Telematics Book Series: Communications in Computer and Information Science 395, 378-383 (2013).

[34] Ł. Jedliński, J. Caban, L. Krzywonos, S. Wierzbicki, F. Brumerčík. Application of vibration signal in the diagnosis of IC engine valve clearance. Journal of Vibroengineering 17(1), 175‑187 (2015).

Archives of Metallurgy and Materials

The Journal of Institute of Metallurgy and Materials Science and Commitee on Metallurgy of Polish Academy of Sciences

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