Since 1963
ARTICLE
The influence of thermal effects on elastoplastic properties of Ti/Cu bimetal bars obtained by extrusion
1
Department of Mechanics and Applied Computer Science, Faculty of Mechanical Engineering, Bialystok University of Technology, Bialystok, Poland
Submission date: 2024-12-10
Final revision date: 2025-02-11
Acceptance date: 2025-02-18
Online publication date: 2025-05-23
Corresponding author
Robert Uścinowicz
Department of Mechanics and Applied Computer Science, Bialystok University of Technology, Wiejska 45C, 15-351, Bialystok, Poland
Department of Mechanics and Applied Computer Science, Bialystok University of Technology, Wiejska 45C, 15-351, Bialystok, Poland
KEYWORDS
TOPICS
ABSTRACT
The article presents the results of the study of the elastic-plastic properties of bimetallic titanium/copper rods subjected to short-term thermal action in the temperature range of 600 ◦C–900 ◦C. The study used the impulse vibration excitation technique and a quasi-static tensile test.
The final stage of the study was a microscopic SEM analysis of the interface. Macroscopic observations of the destruction surface were also carried out. Short-term annealing of the Ti/Cu bimetal caused a decrease in strength and proof stress, as well as an increase in ductility and diffusion. The destructive and dangerous processes were mainly at a temperature of 900 ◦C.
REFERENCES (24)
1.
ASTM International. (2022). Standard Test Methods for Tension Testing of Metallic Materials (ASTM Standard No. E8/E8M-22). https://doi.org/10.1520/E0008_....
2.
ASTM International. (2022). Standard Test Method for Dynamic Young’s Modulus, Shear Modulus, and Poisson’s Ratio by Impulse Excitation of Vibration (ASTM Standard No. E1876-22). https://doi.org/10.1520/E1876-....
3.
Bateni, M.R., Mirdamadi, S., Ashrafizadeh, F., Szpunar, J.A., & Drew, R.A.L. (2001). Formation of Ti–Cu intermetallic coatings on copper substrate. Materials and Manufacturing Processes, 16 (2), 219–228. https://doi.org/10.1081/AMP-10....
4.
Bateni, M.R., Szpunar, J.A., Ashrafizadeh, F., & Zandrahimi, M. (2003). The effect of novel Ti-Cu intermetallic compound coatings on tribological properties of copper. Surfaces, 10 (11), 55-62.
5.
Bockris, J. O’M., Conway, B.E., Yeager, E., & White, R.E. (Eds.). (1981). Comprehensive treatise of electrochemistry. Volume 2: Electrochemical processing. Springer. https://doi.org/10.1007/978-1-....
6.
Chawla, S.L., & Gupta, R.K. (1993). Materials selection for corrosion control. ASM International.
7.
International Organization for Standardization. (2005). Methods of test for refractory products – Part 1: Determination of dynamic Young’s modulus (MOE) by impulse excitation of vibration (ISO Standard No. 12680-1:2005). https://www.iso.org/standard/3...
8.
Lee, J.S., Son, H.T., Oh, I.H., Kang, C.S., Yun, C.H., Lim, S.C., & Kwon, H.C. (2007). Fabrication and characterization of Ti–Cu clad materials by indirect extrusion. Journal of Materials Processing Technology, 187–188, 653–656. https://doi.org/10.1016/j.jmat....
9.
Lord, J.D., & Morrell, R. (2006). Elastic modulus measurement. Measurement Good Practice Guide No. 98. National Physical Laboratory.
10.
Mahmoudi, P., Akbarpour, M.R., Lakeh, H.B., Jing, F., Hadidi, M.R., & Akhavan, B. (2022). Antibacterial Ti–Cu implants: A critical review on mechanisms of action. Materials Today Bio, 17, Article 100447. https://doi.org/10.1016/j.mtbi....
11.
Matsushita, T., Noguchi, M., & Arimura, K. (1988). Hot hydrostatic extrusion of Ti/Cu-alloy composite materials (in Japanese). Journal of the Society of Materials Science, Japan, 37 (413), 107–113. https://doi.org/10.2472/jsms.3....
12.
O’Brien, T.F., Bommaraju, T.V., & Hine, F. (2007). Handbook of chlor-alkali technology. Volume II: Brine treatment and cell operation. Springer Science & Business Media.
13.
Paul, H., Chulist, R., Bobrowski, P., Perzyński, K., Madej, Ł., Mania, I., Miszczyk, M., & Cios, G. (2020). Microstructure and properties of the interfacial region in explosively welded and post-annealed titanium-copper sheets. Materials Characterization, 167, Article 110520. https://doi.org/10.1016/j.matc....
14.
Puškár, A. (2001). Internal friction of materials. Cambridge International Science Publishing Ltd.
15.
Raggio, L.I., Etcheverry, J., Sánchez, G., & Bonadeo, N. (2010). Error analysis of the impulse excitation of vibration measurement of acoustic velocities in steel samples. Physics Procedia, 3 (1), 297–303. https://doi.org/10.1016/j.phpr....
16.
Roebben, G., Bollen, B., Brebels, A., Van Humbeeck, J., & Van Der Biest, O. (1997). Impulse excitation apparatus to measure resonant frequencies, elastic moduli, and internal friction at room and high temperature. Review of Scientific Instruments, 68 (12), 4511–4515. https://doi.org/10.1063/1.1148....
17.
Sanjurjo, A., Wood, B.J., Lau, K.H., Tong, G.T., Choi, D.K., McKubre, M.C.H., Song, H.K., & Church, N. (1991). Titanium-based coatings on copper by chemical vapor deposition in fluidized bed reactors. Surface and Coatings Technology, 49 (1–3), 110–115. https://doi.org/10.1016/0257-8....
18.
Song, W., Zhong, Y., & Xiang, J. (2017). Mechanical parameters identification for laminated composites based on the impulse excitation technique. Composite Structures, 162, 255–260. https://doi.org/10.1016/j.comp....
19.
Stratigaki, M., Pabst, W., Nečina, V., Hajíček, M., & Gotsis, A.D. (2019). Microstructure and mechanical properties study of slip-cast copper–alumina composites. SN Applied Sciences, 1, Article 40. https://doi.org/10.1007/s42452....
20.
Uscinowicz, R. (2019). Characterization of directional elastoplastic properties of Al/Cu bimetallic sheet. Journal of Materials Engineering and Performance, 28 (3), 1350–1359. https://doi.org/10.1007/s11665....
21.
Uścinowicz, R. (2022). Effect of elevated temperature and annealing time on mechanical properties of Ti/Cu bimetal. Materials, 15 (23), Article 8707. https://doi.org/10.3390/ma1523....
22.
Xu, F., Fredette, J.C., Holt, R.A., Rogge, R.B., Pickard, D., & Tuck, L. (2007). Investigation of residual stress in a bent Ti-clad Cu bus-bar by neutron diffraction and finite element modelling. Journal of Neutron Research, 15 (3–4), 259–266. https://doi.org/10.1080/102381....
23.
Yang, W.S., Biamino, S., Padovano, E., Fuso, L., Pavese, M., Marchisio, S., Vasquez, D., Vega Bolivar, C., Fino, P., & Badini, C. (2012). Microstructure and mechanical properties of short carbon fibre/SiC multilayer composites prepared by tape casting. Composites Science and Technology, 72 (6), 675–680. https://doi.org/10.1016/j.comp....
24.
Youn, C.-S., & Lee, D.-G. (2020). Effects of post heat treatment on the mechanical properties of cold-rolled Ti/Cu clad sheet. Metals, 10 (12), Article 1672. https://doi.org/10.3390/met101....
| eISSN: | 2543-6309 |
| ISSN: | 1429-2955 |
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
