A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures

Fei Liang; Ao Meng; Yixing Sun; Zhaoshuo Chen; Zhouwen Jiang; Yaping Zhang; Yong Zhang; Yuntian Zhu; Xiang Chen

doi:10.1016/j.triboint.2023.108383

Author(s)

Fei Liang
Ao Meng
Yixing Sun
Zhaoshuo Chen
Zhouwen Jiang
Yaping Zhang
Yong Zhang
Xiang Chen

Related Research Unit(s)

Department of Materials Science and Engineering

Detail(s)

Original language	English
Article number	108383
Journal / Publication	Tribology International
Volume	183
Online published	3 Mar 2023
Publication status	Published - May 2023

Link(s)

DOI	DOI https://doi.org/10.1016/j.triboint.2023.108383 Final Published version
	Check@CityULib
Link to Scopus	https://www.scopus.com/record/display.uri?eid=2-s2.0-85150836115&origin=recordpage
Permanent Link	https://scholars.cityu.edu.hk/en/publications/publication(423bca5b-5225-44e6-a780-875e9192ac07).html

Abstract

Tribo-induced structural and chemical modifications at elevated temperatures play paramount roles in the tribological performance of Ni-based superalloys. Here, we report on a novel face-centered-cubic Ni-27Cr superalloy with a low stacking fault energy exhibiting remarkable tribological properties at 25–800 ℃, especially the low wear rates at 400 ℃ (1.97 ×10⁻⁵ mm³/N·m) and 800 ℃ (3.1 ×10⁻⁶ mm³/N·m). First, at 25–600 ℃, tribo-induced deformation nanotwins show superior structural stability, contributing to the high wear resistance. Second, at 800 ℃, the tribo-induced nanotwins are not formed. Instead, the topmost glaze layer transits from homogeneous nanostructure to heterogeneous microstructure consisting of hard nanograined oxides and soft ultrafine grained matrix. The strong and ductile heterogeneous composite glaze layer accommodates large plastic deformation and reduces wear loss. © 2023 Elsevier Ltd

Research Area(s)

Composite glaze layer, Deformation nanotwins, Superalloy, Wear resistance

Citation Format(s)

[ RIS ] [ BibTeX ]

A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures. / Liang, Fei; Meng, Ao; Sun, Yixing et al.
In: Tribology International, Vol. 183, 108383, 05.2023.

Research output: Journal Publications and Reviews (RGC: 21, 22, 62) › 21_Publication in refereed journal › peer-review

Liang, F, Meng, A, Sun, Y, Chen, Z, Jiang, Z, Zhang, Y, Zhang, Y, Zhu, Y & Chen, X 2023, 'A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures', Tribology International, vol. 183, 108383. https://doi.org/10.1016/j.triboint.2023.108383

Liang, F., Meng, A., Sun, Y., Chen, Z., Jiang, Z., Zhang, Y., Zhang, Y., Zhu, Y., & Chen, X. (2023). A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures. Tribology International, 183, Article 108383. Advance online publication. https://doi.org/10.1016/j.triboint.2023.108383

Liang F, Meng A, Sun Y, Chen Z, Jiang Z, Zhang Y et al. A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures. Tribology International. 2023 May;183:108383. Epub 2023 Mar 3. doi: 10.1016/j.triboint.2023.108383

Liang, Fei ; Meng, Ao ; Sun, Yixing et al. / A novel wear-resistant Ni-based superalloy via high Cr-induced subsurface nanotwins and heterogeneous composite glaze layer at elevated temperatures. In: Tribology International. 2023 ; Vol. 183.