Please use this identifier to cite or link to this item: http://dspace.aiub.edu:8080/jspui/handle/123456789/2141
Title: Investigation on spark plasma sintering of dissimilar ceramic and steel laminated composite materials
Other Titles: NA
Authors: Hasan, Mahadi
Keywords: spark plasma sintering, miniature tensile test, bonding interface, fracture phenomena.
Issue Date: 18-Nov-2019
Publisher: SCHOLARENA
Citation: Md Mahadi Hasan, J. Z., Fanghui Jia, Wu Hui, Hamidreza Kamali, Zhenyi Huang, Zhengyi Jiang, Investigation on spark plasma sintering of dissimilar ceramic and steel laminated composite materials”, SCON 2nd International Conference on Materials Science & Engineering, 18-19 Nov. 2019, Netherlands
Series/Report no.: 1;1
Abstract: Spark plasma sintering (SPS) is a powerful technique for consolidating metal and ceramic powders. The key benefits of SPS include rapid sintering capability, achievement of full density at a considerably low temperature and an excellent control over the grain sizes. Such technique can be used to clad dissimilar ceramic and steel materials. In this study, a laminated composite material of nanocrystalline WC-10Co and AISI4340 is fabricated using SPS, which has not been reported so far. The sintering behaviour of 100 nm particle size cemented carbides is analysed, and their bonding characteristics with steel are examined at the temperatures ranging from 1000 to 1150 °C, sintered for 5 min, under 80 MPa of constant pressure. The microstructure of the bonding interface is investigated, and the mechanical properties of the bond are evaluated. The phases formed at the interface are identified and their formation mechanisms are discussed. A novel miniature tensile test system is adopted to determine the tensile strength of the bond, and the fracture characteristics of the bonding interface is illustrated microscopically. It is expected that this research can provide a valuable reference for joining ceramic and steel materials to manufacture dissimilar laminated composite materials using SPS technique.
Description: In this study SPS is used to combine ceramic and steel materials and by which a laminated bilayered composite of dissimilar materials is successfully fabricated. The interface is found to be bonded tightly without any significant micro cracks. Significant elemental interdiffusion is observed leading to successful bonding of the dissimilar materials. The mechanical properties of sintered carbides as well as the bonding are observed to be of high quality compared to earlier studies. The composite can provide high strength in one side and high hardness on the other. Thus in the applications where high strength and hardness are required simultaneously, the developed composite has potential applications.
URI: http://dspace.aiub.edu:8080/jspui/handle/123456789/2141
ISSN: 2520 – 4890
Appears in Collections:Publications From Faculty of Engineering

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