Abstract
The failure stress distributions of developmental Yb0.27Co4Sb12.08 (n-type) and Ce0.86Co1.02Fe2.98Sb11.97 (p type) skutterudites were measured as a function of temperature. These thermoelectric materials are attractive candidates for use in devices under consideration for power generation sourced from intermediate to high-temperature waste heat recovery. A self-aligning, high-temperature-capable, three-point-bend fixture was developed and used to test specimens whose cross-sectional dimensions were equivalent to those typically used in thermoelectric device legs. The strength of the n-type skutterudite was approximately 115 MPa and independent of temperature to 500簞C. The strength of the p-type skutterudite was equivalent to that of the n type material and independent of temperature to at least 200簞C, but its strength dropped by ~20% at 400簞C. Compared to other skutterudites, the herein tested compositions have equivalent or even superior strength.
