ОБРАБОТКА МЕТАЛЛОВ Том 27 № 1 2025 166 МАТЕРИАЛОВЕДЕНИЕ 20. Eff ect of La on the wettability of Al2O3 by molten aluminum / N. Shao, J.W. Dai, G.Y. Li, T. Hane // Materials Letters. – 2004. – Vol. 58 (14). – P. 2041–2044. 21. Abd El-Aziz Kh. Mechanical properties improvements of the materials used in manufacturing of food processing equipment’s and containers using diff erent techniques // Asian Journal of Applied Science and Technology. – 2023. – Vol. 7 (4). – P. 156–175. 22. Saber D., Taha I.B.M., Abd El-Aziz Kh. Prediction of the corrosion rate of Al–Si alloys using optimal regression methods // Intelligent Automation & Soft Computing. – 2021. – Vol. 29 (3). – P. 757–769. – DOI: 10.32604/iasc.2021.018516. 23. Gorny A., Tyrala E. Eff ect of cooling rate on microstructure and mechanical properties of thin-walled ductile iron castings // Journal of Materials Engineering and Performance. – 2013. – Vol. 22. – P. 300–305. 24. Infl uence of casting mould wall thickness on the properties and microstructure of A356 alloy reinforced with micro/nanoalumina particles / Kh. Abd El-Aziz, A.A. Abo El-Nasr, A. Elfasakhany, D. Saber, M. Helal // Arctic Journal. – 2018. – Vol. 71 (7). – P. 26–39. 25. Ashwath P., Xavior M.A. Compression and diametral tensile strength analysis of graphene–Al2O3 reinforced AA 2024 and AA 2219 hybrid nanocomposites // Advances in Micro and Nano Manufacturing and Surface Engineering. – Singapore: Springer, 2019. – P. 19–32. 26. Role of CNT in infl uencing the mechanical properties of the Mg-based composites: an overview / B. Chandrasekhar, A. Dharme, S. Kumar Sharma, R. Taluja, O.A. Jarali, R. Kalra, G. Kumar // Materials Today: Proceedings. – 2023. – DOI: 10.1016/j. matpr.2023.02.385. 27. Eff ect of mould wall thickness on rate of solidifi cation of centrifugal casting / Madhusudhan, S. Narendranaath, G.C. Mohankumar, P.G. Mukunda // International Journal of Engineering Science and Technology. – 2010. – Vol. 2 (11). – P. 6092–6096. 28. On infl uence of Ti and Sr on microstructure, mechanical properties and quality index of cast eutectic Al–Si–Mg alloy / S. Haro-Rodríguez, R.E. GoytiaReyes, R. Goytia, K.D. Dheerendra // Materials & Design. – 2011. – Vol. 32. – P. 1865–1871. 29. Microstructural characterization of recycled Al–Mg–Si-based alloys upon the synergistic eff ect of ultrasonic technology (UT) and novel refi ners / Q. He, G. Zhang, S. Zhang, D. Teng, H. Jia, J. Li, R. Guan // Journal of Materials Research and Technology. – 2024. – Vol. 31. – P. 481–495. 30. Hamasaiid A., Dargusch M.S., Dour G. The impact of the casting thickness on the interfacial heat transfer and solidifi cation of the casting during permanent mold casting of an A356 alloy // Journal of Manufacturing Processes. – 2019. – Vol. 47. – P. 229–237. 31. Eff ect of cooling rate on microstructure and mechanical properties in Al-Si alloys / S.B. Kang, J. Zhang, S. Wang, J. Cho, V.U. Stetsenko // Proceedings of the 12th International Conference on Aluminium Alloys, Yokohama, Japan. – The Japan Institute of Light Metals, 2010. – P. 675–680. 32. Eff ect of mould sand type and casting wall thickness on properties andmicrostructure of multivariate Al–7·5Si–4Cu alloy / G.L. Liu, N.C. Si, S.C. Sun, Q.F. Wu // Materials Research Innovations. – 2013. – Vol. 17, suppl. 1. – P. 246–250. – DOI: 10.1179/1432891 713Z.000000000224. 33. Study of the eff ect of hafnium and erbium content on the formation of microstructure in aluminium alloy 1590 cast into a copper chill mold / A.A. Ragazin, V.Yu. Aryshensky, S.V. Konovalov, E.V. Aryshenskii, I. Bakhtegareev // MetalWorking andMaterial Science. – 2024. – Vol. 26 (1). – P. 99–112. 34. Liu X., Zhao Q., Jiang Q. Eff ects of cooling rate and TiC nanoparticles on the microstructure and tensile properties of an AleCu cast alloy // Materials Science & Engineering: A. – 2020. – Vol. 790. – P. 139737. 35. The control of NbB2 particles in Al-NbB2 master alloy and its eff ect on grain refi nement of AZ91 magnesium alloy / W. Fan, Y. Bai, G. Zuo, H. Hao // Materials Science &Engineering:A. – 2022. –Vol. 854. – P. 143808. 36. Relationship between cooling rate, microstructure evolution, and performance improvement of an AleCu alloy prepared using diff erent methods / C. He, W. Yu, Y. Li, Z. Wang, D. Wu, G. Xu // Materials Research Express. – 2020. – Vol. 7 (11). – P. 116501. 37. The role of cooling rate on microstructure in a sand-cast Al-Cu-Ag alloy containing high amounts of TiB2 / L. Ravkov, B. Diak, M. Gallerneault, P. Clark, G. Marzano // Canadian Metallurgical Quarterly. – 2021. – Vol. 60 (2). – P. 57–65. 38. Grain refi ning performance of Al-B master alloys with diff erent microstructures on Al-7Si alloy / T.M. Wang, Z.N. Chen, H.W. Fu, T.J. Li // Metals and Materials International. – 2013. – Vol. 19 (2). – P. 367–370. 39. Eff ect of high cooling rate on the solidifi cation microstructure of Al-Cu/TiB2 alloy fabricated by freezeablation casting / X. Kong, Y. Wang, H. Fan, J. Wu, H. Xu, H. Mao // Journal of Materials Research and Technology. – 2023. – Vol. 25. – P. 593–607. 40. Dewangan R., Sharma B.P., Sharma S.S. Investigation of hardness behavior in aluminum matrix composites reinforced with coconut shell ash and red mud using Taguchi analysis // Metal Working and Material Science. – 2024. – Vol. 26 (3). – P. 179–191. 41. Eff ect of reinforcement concentration on the properties of hot extruded Al-Al2O3 composites
RkJQdWJsaXNoZXIy MTk0ODM1