Influence of secondary orientation on [111]-orientated high temperature creep properties of single crystal alloy with a thin-wall structure

Designing single-crystal superalloy blades to thin wall structures produces the secondary orientation which is the perpendicularity orientation of the wall surface, becoming a newly-concerned crucial factor of performance. Here, we have studied the influence of [110] and [112] secondary orientations...

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Veröffentlicht in:Materials & design 2024-01, Vol.237, p.112609, Article 112609
Hauptverfasser: Zhang, Shuangqi, Wang, Haibo, Ru, Yi, Hu, Bin, Shang, Yong, Zhao, Haigen, Ma, Guoquan, Li, Shusuo, Pei, Yanling, Gong, Shengkai
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Sprache:eng
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Zusammenfassung:Designing single-crystal superalloy blades to thin wall structures produces the secondary orientation which is the perpendicularity orientation of the wall surface, becoming a newly-concerned crucial factor of performance. Here, we have studied the influence of [110] and [112] secondary orientations on 1100 °C/137 MPa creep properties of [111]-orientated single-crystal superalloys. The plastic deformation accumulation and the plastic limit during creep vary with secondary orientations. Our results give microstructural evidence of the change in the slip systems operation and micro-pore growth, and correlate the possible stress state in the thin wall to plastic deformation mechanism, and finally to properties, which can explain such influence. The results show that the activation of slip systems with different secondary orientations is different due to the different shear stress, and this difference of slip systems causes the difference of plastic deformation ability and pore growth and finally affects the creep performance.
ISSN:0264-1275
DOI:10.1016/j.matdes.2023.112609