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Primary creep deformation behaviors related with lamellar interface in TiAl alloy

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Abstract

Constant tensile stress creep tests under the condition of 760~816°C/172~276 MPa in an air environment are conducted, and the microstructural evolution during primary creep deformation at the creep condition of 816°C/172 MPa was observed by transmission electron microscopy (TEM) for the lamellar structured Ti-45. 5Al-2Cr-2.6Nb-0.17W-0.lB-0.2C-0.15Si (at.%) alloy. The amount of creep strain deformed during primary creep stage is considered to be the summation of the strains occurred by gliding of initial dislocations and of newly generated dislocations. Creep rate controlling process within the primary stage seems to be shifting from the initial dislocation climb controlled to the generation of the new dislocations by the phase transformation of 2 to as creep strain increases.

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Authors and Affiliations

  1. Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology, 373-1 Kusong-dong, Yusong-ku, 305-701, Taejon, Korea

    Han Seo Cho

  2. Jointly Appointed at the Center for the Advanced Aerospace Materials, Korea

    Soo Woo Nam

  3. Materials and Processes Division, UES, 4401 Dayton-Xenia Road, 45432, Dayton, OH, USA

    Young-Won Kim

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  1. Han Seo Cho
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  2. Soo Woo Nam
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  3. Young-Won Kim
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Cho, H.S., Nam, S.W. & Kim, YW. Primary creep deformation behaviors related with lamellar interface in TiAl alloy. Metals and Materials 4, 33–37 (1998). https://doi.org/10.1007/BF03026062

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