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Volume 8 Issue 4
Dec.  2001
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Xiao Li, Lina Zhang, Jianxin Dong, Maicang Zhang, Yaohe Hu, and Xishan Xie, SEM In-situ Observation at Tensile Loading on Surface Inclusion in PM Rene95 Superalloy, J. Univ. Sci. Technol. Beijing, 8(2001), No. 4, pp. 286-289.
Cite this article as:
Xiao Li, Lina Zhang, Jianxin Dong, Maicang Zhang, Yaohe Hu, and Xishan Xie, SEM In-situ Observation at Tensile Loading on Surface Inclusion in PM Rene95 Superalloy, J. Univ. Sci. Technol. Beijing, 8(2001), No. 4, pp. 286-289.
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Materials

SEM In-situ Observation at Tensile Loading on Surface Inclusion in PM Rene95 Superalloy

  • The observation on crack initiation and propagation of surface inclusion Al2O3 in seeded PM Rene95 was conducted by SEM in-situ tension test. The results show that the cracks often initiate at the inclusion/matrix interface vertical to the applied stress direction, and easily propagate along the interface into the matrix. The interface of inclusion/matrix is just mechanically bounded on the base of SEM observation. The weak bonding of inclusion/matrix interface and stress concentration around inclusions are the main reasons of the matrix/inclusion interface debonding and local plastic deformation under the tensile loading in the in-situ tension test. Surface inclusion does not definitely lead to the failure of in-situ tension test. But the early surface crack initiation caused by ceramic inclusion is critically harmful to the LCF property of PM Rene95 superalloy, which can't be ignored.
  • Materials

    SEM In-situ Observation at Tensile Loading on Surface Inclusion in PM Rene95 Superalloy

    + Author Affiliations
    • The observation on crack initiation and propagation of surface inclusion Al2O3 in seeded PM Rene95 was conducted by SEM in-situ tension test. The results show that the cracks often initiate at the inclusion/matrix interface vertical to the applied stress direction, and easily propagate along the interface into the matrix. The interface of inclusion/matrix is just mechanically bounded on the base of SEM observation. The weak bonding of inclusion/matrix interface and stress concentration around inclusions are the main reasons of the matrix/inclusion interface debonding and local plastic deformation under the tensile loading in the in-situ tension test. Surface inclusion does not definitely lead to the failure of in-situ tension test. But the early surface crack initiation caused by ceramic inclusion is critically harmful to the LCF property of PM Rene95 superalloy, which can't be ignored.
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