Title of article
Dislocation reactions and microstructural instability during 1025 °C shear creep testing of superalloy single crystals
Author/Authors
Kolbe، نويسنده , , M. and Neuking، نويسنده , , K. and Eggeler، نويسنده , , G.، نويسنده ,
Pages
3
From page
877
To page
879
Abstract
Double shear creep tests of the nickel-base superalloy CMSX6 were performed in the high-temperature/low-stress regime where short dislocation segments move through the narrow γ-channels in between the γ′-cuboids and create long dislocation segments near the surface of the γ′-particles. At the same time there is a change in shape of the γ′-particles (rafting). The double shear technique allows for loading selected glide systems with high Schmid factors. We investigated the microstructure after creep testing in the macroscopic crystallographic shear system (001)[110]. Formation and transformation of the dislocation networks are analysed. This analysis yields an unambiguous determination of the activated glide systems. It is found that several glide systems with relatively high Schmid factors are not activated. Slip on cube glide planes was shown not to be important during primary creep.
Keywords
Shear creep deformation , Nickel-base superalloy SX , Cube slip , Dislocation networks
Journal title
Astroparticle Physics
Record number
2052490
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