Effect of W on the Mechanical Properties and Tribological Behavior of CoCrFeNiWx Compositionally Complex Alloy

Introducing the hard second phase into soft matrix and reducing the grain size are key strategies to enhance the strength and wear performance of metallic alloys. Herein, to investigate the effect of hard second phase on the mechanical properties and tribological behavior of face‐centered‐cubic (FCC...

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Bibliographic Details
Published in:Advanced engineering materials 2024-04, Vol.26 (8), p.n/a
Main Authors: Huang, Zhikun, Li, Zongyuan, Cheng, Zhuo, Zhu, Mingyu, Zhu, Weiwei, Wang, Xiaofei, Wan, Tian, Ren, Fuzeng
Format: Article
Language:English
Subjects:
compositionally complex alloys
mechanical properties
microstructures
sliding wears
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Summary:Introducing the hard second phase into soft matrix and reducing the grain size are key strategies to enhance the strength and wear performance of metallic alloys. Herein, to investigate the effect of hard second phase on the mechanical properties and tribological behavior of face‐centered‐cubic (FCC) CoCrFeNi compositionally complex alloy (CCA), a series of ultrafine‐grained CoCrFeNiWx (x = 0, 0.3, 0.5, and 1.0) CCAs with varying W contents are fabricated. The results show that the single FCC CCA transforms to the dual phase of FCC and μ phase after addition of W. With increasing W content, the hardness and yield strength show a linear increase due to the additional solid solution strengthening and secondary phase strengthening, but the fracture strain shows an opposite trend. Dry sliding wear tests show that both coefficients of friction and wear rates decrease with the W content. The wear mode changes from abrasive wear for CoCrFeNi CCA to multiple wear modes of abrasive wear, oxidative wear, and fatigue wear for W‐containing CCAs. These results suggest that adding W into the FCC CCA matrix could strengthen the FCC alloy and simultaneously improve wear performance. This study investigates how adding W affects the mechanical and tribological behaviors of a CoCrFeNi alloy. Adding W induces the additional formation of a hard μ phase. Increasing W content increases hardness and yield strength but decreases fracture strain. Additionally, friction coefficients and wear rates decrease with higher W content, suggesting enhanced strength and wear resistance.
ISSN:1438-1656
1527-2648
DOI:10.1002/adem.202302198