Year 2024,
Volume: 8 Issue: 1, 26 - 34, 31.07.2024
Umut Kaya
,
Öztürk Özdemir Kanat
,
Cihan Özorak
References
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- [8]. Amiri, A., & Cavalli, M. N. 2013. Experimental investigation of fatigue behavior of carbon fiber composites using fully reversed four point bending test. In Composite Materials and Joining Technologies for Composites, 7(2013), 131-137. Springer New York.
- [9]. Arriaga, A., Lazkano, J. M., Pagaldai, R., Zaldua, A. M., Hernandez, R., Atxurra, R., Chrysostomou, A. 2007. Finite-element analysis of quasi-static characterisation tests in thermoplastic materials: Experimental and numerical analysis results correlation with ANSYS. Polymer Testing, 26(2007), 284-305.
- [10]. Kagzi, S. A., Gandhi, A. H., Raval, H. K. 2012. Stress analysis of frame structure of three roller bending machine using ANSYS. Journal of manufacturing engineering, 7(2012), 164-170.
- [11]. Venugopal, M. M., Maharana, S. K., Badarinarayan, K. S. 2013. Finite element evaluation of composite sandwich panel under static four point bending load. Journal of Engineering, Science and Technology Management, 2 (2013), 1-6
- [12]. Al-Anazi, D., Hashmi, M. S. J., Yilbas, B. S. 2006. Three-point bend testing of HVOF AMDRY 9954 coating on Ti–6Al–4V alloy. Journal of materials processing technology, 174(2006), 204-210.
- [13]. Arif, A. F. M., Yilbas, B. S. 2006. Three-point bend testing of HVOF Inconel 625 coating: FEM simulation and experimental investigation. Surface and Coatings Technology, 201(2006), 1873-1879.
- [14]. Vanam, B. C. L., Rajyalakshmi, M., Inala, R. 2012. Static analysis of an isotropic rectangular plate using finite element analysis (FEA). Journal of Mechanical Engineering Research, 4(2012), 148-162.
- [15]. Heirani, H., & Naseri, R. 2023. Investigation of Magnitude and Position of Maximum von Mises Stress in The Cylindrical Contact Problems. ADMT Journal, 16(2023), 39-45.
- [16]. Lavocat, J. C. 2013. Active photonic devices based on liquid crystal elastomers. European Laboratory for Non-Linear Spectroscopy, PhD. Dissertation, p125, Barcelona
Investigation of Aluminum Material Behavior: An Integrated Experimental and Simulation-Based Approach
Year 2024,
Volume: 8 Issue: 1, 26 - 34, 31.07.2024
Umut Kaya
,
Öztürk Özdemir Kanat
,
Cihan Özorak
Abstract
In this research, the importance of experimental studies and simulations is emphasized, and it is stated that these two methodologies complement each other and are used to understand and optimize material behavior. For this purpose, three-point bending test was applied to an aluminum sample, and the results were supported by ANSYS Software simulations. It is stated that the simulation results agree with the experimental data and are a powerful tool for understanding the material's behavior. Thus, a cross-validation mechanism is established by comparing experimental data with simulation results, and it is stated that this integrated approach allows for a wide range of investigation possibilities. It is also emphasized that experimental studies and simulations play an essential role in validating and solving complex theoretical models in materials science and engineering. It is presented both graphically and visually that basic material properties such as yield point, elastic region, and plastic deformation are similar according to the data obtained from experimental and simulation results.
Thanks
The authors would like to thank Hacettepe University for permission to use Ansys Software in this study.
References
- [1]. Eroğlu, G., & Şahiner, M. 2018. Dünyada ve Türkiye’de Alüminyum. Maden Tetkik Arama Genel Müdürlüğü, Fizibilite Etütleri Başkanlığı, 1-15.
- [2]. Campbell, J. 2002. Castings: The New Metallurgy Of Cast Metals. 2nd International Aluminium Casting Technology Symposium, 1 January, USA, 11-17.
- [3]. Zhao, J. W., & Wu, S. S. 2010. Microstructure and Mechanical Properties of Rheodiecasted A390 Alloy. Transactions of Nonferrous Metals Society of China, 20(2010), s754-s757.
- [4]. Askeland, D. R., Phulé, P. P., Wright, W. J., & Bhattacharya, D. K. 2003. The Science And Engineering Of Materials. Second SI edition, Chapman & Hall, p268
- [5]. Callister Jr, W. D., & Rethwisch, D. G. 2020. Fundamentals of materials science and engineering: an integrated approach. John Wiley & Sons, New York, p992
- [6]. Shackelford, J. F. 2000. Materials science for engineers. Upper Saddle River, New Jersey.
- [7]. Beer, F.P. & Johnston Jr., E.R. 1992. Mechanics of materials. 2nd Edition, McGraw-Hill, New York, p735.
- [8]. Amiri, A., & Cavalli, M. N. 2013. Experimental investigation of fatigue behavior of carbon fiber composites using fully reversed four point bending test. In Composite Materials and Joining Technologies for Composites, 7(2013), 131-137. Springer New York.
- [9]. Arriaga, A., Lazkano, J. M., Pagaldai, R., Zaldua, A. M., Hernandez, R., Atxurra, R., Chrysostomou, A. 2007. Finite-element analysis of quasi-static characterisation tests in thermoplastic materials: Experimental and numerical analysis results correlation with ANSYS. Polymer Testing, 26(2007), 284-305.
- [10]. Kagzi, S. A., Gandhi, A. H., Raval, H. K. 2012. Stress analysis of frame structure of three roller bending machine using ANSYS. Journal of manufacturing engineering, 7(2012), 164-170.
- [11]. Venugopal, M. M., Maharana, S. K., Badarinarayan, K. S. 2013. Finite element evaluation of composite sandwich panel under static four point bending load. Journal of Engineering, Science and Technology Management, 2 (2013), 1-6
- [12]. Al-Anazi, D., Hashmi, M. S. J., Yilbas, B. S. 2006. Three-point bend testing of HVOF AMDRY 9954 coating on Ti–6Al–4V alloy. Journal of materials processing technology, 174(2006), 204-210.
- [13]. Arif, A. F. M., Yilbas, B. S. 2006. Three-point bend testing of HVOF Inconel 625 coating: FEM simulation and experimental investigation. Surface and Coatings Technology, 201(2006), 1873-1879.
- [14]. Vanam, B. C. L., Rajyalakshmi, M., Inala, R. 2012. Static analysis of an isotropic rectangular plate using finite element analysis (FEA). Journal of Mechanical Engineering Research, 4(2012), 148-162.
- [15]. Heirani, H., & Naseri, R. 2023. Investigation of Magnitude and Position of Maximum von Mises Stress in The Cylindrical Contact Problems. ADMT Journal, 16(2023), 39-45.
- [16]. Lavocat, J. C. 2013. Active photonic devices based on liquid crystal elastomers. European Laboratory for Non-Linear Spectroscopy, PhD. Dissertation, p125, Barcelona