Increasing the tensile strength of oxide ceramic matrix mini-composites by two-step sintering |
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Authors: | Hedieh Farhandi Md Nurul Karim Renato S M Almeida Kamen Tushtev Kurosch Rezwan |
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Affiliation: | 1. Advanced Ceramics, University of Bremen, Bremen, Germany;2. Advanced Ceramics, University of Bremen, Bremen, Germany
MAPEX-Center for Materials and Processes, University of Bremen, Bremen, Germany |
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Abstract: | Adapting conventional sintering (CS) techniques of monolithic ceramics for the production of oxide ceramic matrix composites (Ox-CMCs) comes along with a few drawbacks, such as fiber degradation. Thus, the applicability of two-step sintering (TSS) for the production of Ox-CMCs based on Nextel™ 610 fibers and porous alumina matrix is investigated in this study for the first time. Uniaxial tensile tests were performed to evaluate the performance of mini-composites produced by TSS and compared with those produced by CS. Parameters known for influencing the mechanical behavior of the mini-composites, such as grain size, porosity, shrinkage, as well as matrix properties, were analyzed. Both sintering techniques resulted in similar grain size distributions, whereas TSS showed higher total porosity and lower amount of sintering-induced cracks. As a result, TSS samples showed a higher tensile strength of 230±27 MPa when compared to 133±8 MPa for CS. In general, it was observed that most of the densification happens during the first phase of TSS, while the matrix is slowly strengthened during the second step. Therefore, the reported TSS process is a very promising and easy-to-apply heat treatment for producing Ox-CMCs with controlled microstructure. |
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Keywords: | ceramic matrix composites mechanical testing microstructure two-step sintering |
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