Gradient composites Al2O3-Ni obtained via the CSC technique in a magnetic field - microstructure and mechanical properties

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作者
Zygmuntowicz, Justyna [1 ]
Kosiorek, Magdalena [2 ,3 ]
Piotrkiewicz, Paulina [1 ]
Wachowski, Marcin [4 ]
Szachogluchowicz, Ireneusz [4 ]
Kaszuwara, Waldemar [1 ]
Konopka, Katarzyna [1 ]
Falkowski, Pawel [5 ]
Piątek, Milena [6 ]
机构
[1] Warsaw University of Technology, Faculty of Materials Science and Engineering, 141 Woloska St., Warsaw,02-507, Poland
[2] Institute of Power Engineering – National Research Institute, 8 Mory St., Warsaw,01-330, Poland
[3] Warsaw University of Technology, Faculty of Power and Aeronautical Engineering, Institute of Heat Engineering, 21/25 Nowowiejska St., Warsaw,00-665, Poland
[4] Military University of Technology, Faculty of Mechanical Engineering, 2 gen. S. Kaliskiego St., Warsaw,00-908, Poland
[5] Warsaw University of Technology, Faculty of Chemistry, 3 Noakowskiego St., Warsaw,00-664, Poland
[6] Lukasiewicz Research Network, Institute of Ceramics and Building Materials, Advanced Ceramics and Prefabrication Centrum, Ceramics Research Group, 8 Cementowa St., Krakow,31-983, Poland
来源
Journal of Alloys and Compounds | 2024年 / 1008卷
关键词
This article presents the formation of composite microstructures by combining two established concepts: centrifugal slip casting and the utilization of a magnetic field to control the distribution of magnetic particles. The integration of these methodologies offers the potential to create zones within the composite with distinct hardness values. The study introduces a novel method for fabricating ceramic-metal composites; with a key focus on determining the feasibility of manipulating the location of the metallic phase using a magnetic field. Through this innovative approach; the research aims to produce composite hollow cylinders with a gradient distribution of metallic particles. The relative density of the composites was 97 %. The hardness values for the samples range from 970 HV to 2700 HV; displaying variability based on the metallic phase content within the material. The compressive strength for Al2O3-Ni samples was equal to 128.92 MPa. The Al2O3 grains in zone III after the sintering process have an average size of 1.27 ± 0.68 µm. The Al2O3-Ni composites indicate a smaller heat capacity of the material compared to pure Al2O3 samples. © 2024 The Authors;
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