Microstructure evolution and frictional wear behavior of laser cladding FeCrCoNiMo0.5Wx high-entropy alloy coatings

Xunan Duan(University of Jinan), Xuefeng Yang(University of Jinan), Shaoping Gao(University of Jinan), Gaoqi Wang(University of Jinan), Shouren Wang(University of Jinan)

Intermetallics

April 1, 2023

10.1016/j.intermet.2023.107888

Cited by 72

Related Papers

Preparation of underwater superoleophobic membranes via TiO2 electrostatic self-assembly for separation of stratified oil/water mixtures and emulsions

|Journal of Membrane Science|2020|89

Electron shuttle potential of biochar promotes dissimilatory nitrate reduction to ammonium in paddy soil

|Soil Biology and Biochemistry|2022|81

Investigation on friction and wear performance of laser cladding Ni-based alloy coating on brake disc

|Optik|2021|74

Recent progress in additive manufacturing of ceramic dental restorations

|Journal of Materials Research and Technology|2023|64

Investigation on the Surface Properties of 5A12 Aluminum Alloy after Nd: YAG Laser Cleaning

|Coatings|2019|61