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This study evaluated the effect of milling speed and compaction pressure on the densification and morphology of the CuZn-Gr composite. The composite was prepared by using the powder metallurgy technique. The effect on the microstructural and compaction was determined based on different milling speeds. The different milling speeds involved were 175, 200, 225, and 250 rpm. Meanwhile, the different compaction pressures used in this study were 127, 250, 374, and 500 MPa. The properties of the milled powder gave the result to green density and densification parameters. The XRD pattern of Cu and Zn broadened as milling time increased.
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1051--1053
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Bibliogr. 12 poz., rys., wzory
Twórcy
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Urich Technology (KC0023880-A), No. 457, Lorong 7/1, Taman Semarak, 08000 Sungai Petani, Kedah, Malaysia
autor
- Universiti Malaysia Perlis, Faculty of Mechanical Engineering Technology, Perlis, Malaysia
- Universiti Malaysia Perlis, Center of Excellence Geopolymer and Green Technology (CEGeoGTech), Perlis, Malaysia
autor
- Sharda University, School of Basic Sciences and Research, Department of Physics, Center of Excellence on Solar Cells & Renewable Energy, Greater Noida, Uttar Pradesh 201308, India
Bibliografia
- [1] M. Yusoff, M. Mohamad, M.B.A. Bakar, M.N. Masri, N.Z. Noriman, O.S. Dahham, AIP Conference Proceedings 2213 (1), 020264 (2020).
- [2] M.N. Masri, M. Yusoff, N.N. Nordin, IOP Conference Series: Materials Science and Engineering 440 (1), 012021 (2018).
- [3] I.H. Abdullah, M.N. Masri, M.H. Razali, M. Yusoff, AIP Conference Proceedings 2068 (1), 020052 (2019).
- [4] S. Kahar, M.N. Masri, M. Mohamed, M.H.M. Amini, S.A. Sobri, W.S. Hashim, IOP Conference Series: Earth and Environmental Science 765 (1), 012116 (2021).
- [5] M.N. Masri, M.B.A. Bakar, N.W. Rusli, M.F. Ismail, M.H.M. Amini, A.A. Al-Rashdi, International Journal of Integrated Engineering 13 (4), 172-179 (2021).
- [6] V. Srinivasan, S. Kunjiappan, P. Palanisamy, International Nano Letters. 1-25 (2021).
- [7] S.A. Shabalovskaya, Bio-Medical Materials And Engineering 12, 1, 69-109 (2002).
- [8] S. Li, H. Imai, H. Atsumi, K. Kondoh, Materials & Design 32, 1, 192-197 (2011).
- [9] C. Jun, D. Lifeng, L. Qiang, C. Chongyan, W. Ruonan, K. Xiangpeng, S. Zhengwei, Z. Xiaohong, N. Yulan, Journal of Applied Electrochemistry 50, 4, 475-488 (2020).
- [10] S.V. Morozov, K.S. Novoselov, M.I. Katsnelson, F. Schedin, D.C. Elias, J.A. Jaszczak, A.K. Geim, Phys. Rev. Lett. 100, 016602 (2008).
- [11] J.W. Jiang, J.. Wang, B. Li, Phys. Rev. B 80, 113405 (2009).
- [12] H. Ahamed, V.S. Kumar, Journal of Minerals & Materials Characterization & Engineering 10, 507-515 (2011).
Uwagi
1. The authors would like to express heart-felt gratuity to Universiti Malaysia Kelantan for the facilities provided.
2. Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-4b31a5c5-c688-400a-b560-c7d18c93d7a6