Abstract
The wettability of the metal/SiC system is not always excellent, resulting in the limitation of the widespread use of SiC ceramic. In this paper, three implantation doses of Si ions (5 × 1015, 1 × 1016, 5 × 1016 ions/cm2) were implanted into the 6H-SiC substrate. The wetting of Cu-(2.5, 5, 7.5, 10) Sn alloys on the pristine and Si-SiC were studied by the sessile drop technique, and the interfacial chemical reaction of Cu-Sn/SiC wetting couples was investigated and discussed. The Si ion can markedly enhance the wetting of Cu-Sn on 6H-SiC substrate, and those of the corresponding contact angles (θ) are raised partly, with the Si ion dose increasing due to the weakening interfacial chemical reactions among four Cu-Sn alloys and 6H-SiC ceramics. Moreover, the θ of Cu-Sn on (Si-)SiC substrate is first decreased and then increased from ~62° to ~39°, and ~70° and ~140°, with the Sn concentration increasing from 2.5%, 5% and 7.5% to 10%, which is linked to the reactivity of Cu-Sn alloys and SiC ceramic and the variation of liquid-vapor surface energy. Particularly, only a continuous graphite layer is formed at the interface of the Cu-10Sn/Si-SiC system, resulting in a higher contact angle (>40°).
Highlights
Silicon carbide (SiC) has been widely applied in the field of electronics industries and metal-ceramic composites, due to its sublime properties such as high strength, high modulus, high melting point and erosion resistance [1,2,3]
Good wettability between liquid metals and SiC ceramic plays a vital role in these areas
We found that the Si ion can markedly enhance the wetting of Cu-Sn on
Summary
Silicon carbide (SiC) has been widely applied in the field of electronics industries and metal-ceramic composites, due to its sublime properties such as high strength, high modulus, high melting point and erosion resistance [1,2,3]. The equilibrium value of θ, used to explore the wetting behavior of liquid on a flat and chemically homogeneous solid surface, observes the traditional Young’s equation [5] cosθ = σSV − σSL /σLV (where σSV and σLV describe the surface tension of the solid and liquid, respectively, and the σSL defines the solid/liquid interfacial energy) Based on this equation, two leading technologies can be performed to reduce the θ of metal on the SiC substrate. One is increasing the σSV by changing the SiC surface The wettability of metal/ceramic system is further influenced As discussed above, both the surface modification of SiC and other metal element additions are the most promising methods to improve the wetting of metal/SiC systems. 6H-SiC substrate, and the θ of Cu-Sn on (Si-)SiC substrate basically decreases first, and increases alongside the Sn concentration
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