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    Isothermal LCF behavior in aluminide diffusion coated René 80 near the DBTT

    New search for: Rahmani, Kh.
    New search for: Nategh, S.

    AbstractNi-base superalloys such as René 80 are widely used for aircraft turbine blades manufacture, due to possesses suitable mechanical, oxidation and hot corrosion properties. It is usually coated in order to increase its wear, oxidation, erosion and hot corrosion properties against environmental degradation. One the most important properties of coatings is its DBTT. In this paper the behavior of uncoated and coated (CODEP-B) René 80 has been studied near the DBTT (871°C), R=(&z.epsiv;min/&z.epsiv;max)=0 and strain rate of about 2×10−3s−1. Experimental results show that in coated specimens while the total cyclic strain is lower than 1%, coating leaves longer fatigue life, at this condition the nucleation of the cracks occurs merely in substrate, but in strains more than 1% as a result of nucleation of cracks in the coating surface, diffusion layer and substrate simultaneously, fatigue life time of the coated specimens is lower than that of uncoated specimens.

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    Isothermal LCF behavior in aluminide diffusion coated René 80 near the DBTT

    New search for: Rahmani, Kh.
    New search for: Nategh, S.

    AbstractNi-base superalloys such as René 80 are widely used for aircraft turbine blades manufacture, due to possesses suitable mechanical, oxidation and hot corrosion properties. It is usually coated in order to increase its wear, oxidation, erosion and hot corrosion properties against environmental degradation. One the most important properties of coatings is its DBTT. In this paper the behavior of uncoated and coated (CODEP-B) René 80 has been studied near the DBTT (871°C), R=(&z.epsiv;min/&z.epsiv;max)=0 and strain rate of about 2×10−3s−1. Experimental results show that in coated specimens while the total cyclic strain is lower than 1%, coating leaves longer fatigue life, at this condition the nucleation of the cracks occurs merely in substrate, but in strains more than 1% as a result of nucleation of cracks in the coating surface, diffusion layer and substrate simultaneously, fatigue life time of the coated specimens is lower than that of uncoated specimens.

    Access

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    Order at Subito €

    Isothermal LCF behavior in aluminide diffusion coated René 80 near the DBTT

    New search for: Rahmani, Kh.
    New search for: Nategh, S.

    AbstractNi-base superalloys such as René 80 are widely used for aircraft turbine blades manufacture, due to possesses suitable mechanical, oxidation and hot corrosion properties. It is usually coated in order to increase its wear, oxidation, erosion and hot corrosion properties against environmental degradation. One the most important properties of coatings is its DBTT. In this paper the behavior of uncoated and coated (CODEP-B) René 80 has been studied near the DBTT (871°C), R=(&z.epsiv;min/&z.epsiv;max)=0 and strain rate of about 2×10−3s−1. Experimental results show that in coated specimens while the total cyclic strain is lower than 1%, coating leaves longer fatigue life, at this condition the nucleation of the cracks occurs merely in substrate, but in strains more than 1% as a result of nucleation of cracks in the coating surface, diffusion layer and substrate simultaneously, fatigue life time of the coated specimens is lower than that of uncoated specimens.

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    Title:

    Isothermal LCF behavior in aluminide diffusion coated René 80 near the DBTT

    Contributors:

    Rahmani, Kh. (author) / Nategh, S. (author)

    Publication date:

    2008-06-09

    Size:

    10 pages

    ISSN:

    0261-3069

    DOI:

    https://doi.org/10.1016/j.matdes.2008.06.064

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Ni-base superalloy , René 80 , Aluminide coating , Fatigue properties , Fracture strain , DBTT

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