Publication date: 5 January 2018
Source:Materials & Design, Volume 137
Author(s): Rui Pan, Tiesong Lin, Peng He, Zhao Huang, Dusan P. Sekulic, Hongmei Wei, Zhihua Yang
In the study summarized in this paper, it is hypothesized that ZrCx with fewer carbon vacancies (e.g. stoichiometric ZrC) could form a homogenous joint when using a new multilayered design of the interlayer, consisting of a set of transition metals Ti/Zr/Ti. The proof of the hypothesis is obtained by performing diffusion bonding of ZrC with Ti/Zr/Ti interlayer under different temperature and time conditions, notably at 1400°C/1h/20MPa. This design also applies to ZrCx with a larger population of carbon vacancies, like ZrC0.85. It is established that the mechanical integrity of the joint zone has been dramatically improved by the homogenization of the joint, which is comparable to that of the base ceramics. The homogeneous microstructure and outstanding mechanical properties demonstrate the great potential of this multiple interlayer design.
Graphical abstract
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