Interfacial and thermomechanical characterization of reaction formed joints in silicon carbide-based materials

The microstructure and mechanical properties of reaction formed joints of Refel TM reaction bonded SiC (RB-SiC) and Hexoloy TM sintered SiC were studied in order to achieve a better understanding of the influence of base materials and joining process parameters on the high temperature strength of re...

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Bibliographic Details
Published in:Journal of the European Ceramic Society 2000-12, Vol.20 (14), p.2641-2648
Main Authors: Martı́nez Fernández, J., Muñoz, A., Varela-Feria, F.M., Singh, M.
Format: Article
Language:English
Subjects:
Applied sciences
Building materials. Ceramics. Glasses
Ceramic industries
Chemical industry and chemicals
Exact sciences and technology
Interfaces
Joining
Mechanical properties
Microstructure-final
SiC
Structural ceramics
Technical ceramics
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Summary:The microstructure and mechanical properties of reaction formed joints of Refel TM reaction bonded SiC (RB-SiC) and Hexoloy TM sintered SiC were studied in order to achieve a better understanding of the influence of base materials and joining process parameters on the high temperature strength of reaction formed joints. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), and optical microscopy were used to characterize the joints prior to mechanical tests. The microstructural analysis indicated that the joints consist of silicon carbide (SiC) grains (with grain sizes ranging from 0.1 to 2 μm) and crystalline silicon as an intergranular phase. Most of the silicon carbide grains in the joint have hexagonal crystal structure with certain preferential orientations related to the silicon matrix. The high temperature strength of joints was measured by constant strain rate experiments in compression where joints were forming 45° with the compression axe. The strength of the joined Refel RB-SiC has been found to be at least equal to that of the bulk materials (550 MPa at 1235°C and 400 MPa at 1385°C). The joined Hexoloy specimens had strengths (1.4 GPa at 1290°C and 750 MPa at 1420°C) lower than the bulk material but higher than the joints of RB-SiC.
ISSN:0955-2219
1873-619X
DOI:10.1016/S0955-2219(00)00156-4