A combination 2/4-probe method was used to measure electrical resistances across a pure, monolithic CVD-SiC disc sample with contact resistance at the SiC/metallic electrode interfaces. By comparison of the almost simultaneous 2/4-probe measurements, the specific contact resistance (Rc) and its temperature dependence were determined for two types (sputtered gold and porous nickel) electrodes from room temperature (RT) to ~973 K. The Rc-values behaved similarly for each type of metallic electrode: Rc > ~1000 O cm2 at RT, decreasing continuously to ~1–10 O cm2 at 973 K. The temperature dependence of the inverse Rc indicated thermally activated electrical conduction across the SiC/metallic interface with an apparent activation energy of ~0.3 eV. For the flow channel insert application in a fusion reactor blanket, contact resistance potentially could reduce the transverse electrical conductivity by about 50%.
Revised: January 23, 2014 |
Published: June 30, 2013
Citation
Youngblood G.E., E.C. Thomsen, and C.H. Henager. 2013.Effects of contact resistance on electrical conductivity measurements of SiC-based materials.Journal of Nuclear Materials 442, no. 1-3:S410-S413.PNNL-SA-98386.doi:10.1016/j.jnucmat.2013.04.096