Temperature Dependent Tensile Fracture Stress of n- and p-Type Filled-Skutterudite Materials

Salvador, James R; Yang, Jihui; Wereszczak, Andrew A; Wang, Hsin; Cho, Jung Y

doi:10.1166/sam.2011.1185

Title: Temperature Dependent Tensile Fracture Stress of n- and p-Type Filled-Skutterudite Materials

Journal Article · Sat Jan 01 00:00:00 EST 2011 · Science of Advanced Materials

DOI:https://doi.org/10.1166/sam.2011.1185· OSTI ID:1024317

Salvador, James R ^[1]; Yang, Jihui ^[2]; Wereszczak, Andrew A ^[3]; Wang, Hsin ^[3]; Cho, Jung Y ^[1]

GM R&D and Planning, Warren, Michigan
General Motors Corporation
ORNL

While materials with excellent thermoelectric performance are most desirable for higher heat to electrical energy conversion efficiency, thermoelectric materials must also be sufficiently mechanically robust to withstand the large number of thermal cycles and vibrational stresses likely to be encountered while in service, particularly in automotive applications. Further these TE materials should be composed of non-toxic and naturally abundant constituent elements and be available as both n- and p-type varieties. Skutterudite based thermoelectric materials seemingly fit this list of criteria. In this contribution we report on the synthesis, tensile fracture strengths, low temperature electrical and thermal transport properties, and coefficients of thermal expansion (CTE), of the n-type skutterudite La{sub 0.05({+-}0.01)}Ba{sub 0.07({+-}0.04)}Yb{sub 0.08({+-}0.02)}Co{sub 4.00({+-}0.01)}Sb{sub 12.02({+-}0.03)} and the p-type Ce{sub 0.30({+-}0.02)}Co{sub 2.57({+-}0.02)}Fe{sub 1.43({+-}0.02)}Sb{sub 11.98({+-}0.03)}. Both materials have tensile fracture strengths that are temperature independent up to 500 C, and are in the range of {approx}140 MPa as measured by a three point bend flexure test fixture described herein. The CTE's were measured by dual rod dilatometry and were determined to be 10.3 ppm/C for the n-type material and 11.5 ppm/C for p-type up to 450 C.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE Office of Energy Efficiency and Renewable Energy (EERE)

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 1024317

Journal Information:: Science of Advanced Materials, Vol. 3, Issue 4

Country of Publication:: United States

Language:: English

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36 MATERIALS SCIENCE
DILATOMETRY
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Title: Temperature Dependent Tensile Fracture Stress of n- and p-Type Filled-Skutterudite Materials

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