Publications

Ni-based

Welcome to cite our work

1 Wei, B.; Lin, Y.; Huang, Z.; Huang, L.; Zhou, K.; Zhang, L.; Zhang, L., A Novel Re-Free Ni-Based Single-Crystal Superalloy with Enhanced Creep Resistance and Microstructure Stability, Acta Materialia, 2022, 240, 118336
2 Juan Chen, Jinkun Xiao, Zhao Lu, Chengyin Wang, Lijun Zhang, Atomic mobilities and interdiffusivities in Ni-rich fcc Ni-Co-Cr and Ni-Al-Co-Cr systems evaluated using composition profiles and HitDIC, Journal of Alloys and Compounds, 865 (2021) 158645
3 Juan Chen, Jinkun Xiao, Chengyin Wang, Lijun Zhang, Diffusion behavior of fcc and L12 Ni-Al-Cr alloys, Vaccum, 189 (2021) 110238
4 Juan Chen, Yue Wang, Jinkun Xiao, Xiao-Gang Lu, Lijun Zhang, Experimental investigation of diffusion behaviors in γ and γ′ Ni-Al-Co alloys, CALPHAD, 74 (2021) 102286
5 Juan Chen, Lijun Zhang, Xiao-Gang Lu, Diffusion behaviors of Rh, Ta, W, Re, Os and Ir in ternary L12-Ni3Al alloys, Intermetallics, 102 (2018) 11-20
6 Juan Chen, Lijun Zhang, Composition-dependent interdiffusivity matrices in face centered cubic Ni-Al-X (X = Rh and W) alloys at 1423, 1473 and 1523 K: A high-throughput experimental measurement, Calphad, 60 (2018) 106-115
7 Shiyi Wen, Ying Tang, Jing Zhong, Lijun Zhang, Yong Du, Feng Zheng, High-throughput measurements of interdiffusivity matrices in face centered cubic Ni-Al-Mo alloys at 1273 ˜1473 K, Journal of Materials Research, 32 (11) (2017) 2188-2201
8 Juan Chen, Lijun Zhang, Jing Zhong, Weimin Chen, Yong Du, High-throughput measurement of the composition dependent interdiffusivity matrices in Ni-rich fcc Ni-Al-Ta alloys at elevated temperatures, Journal of Alloys and Compounds, Part A (2016) 320-328
9 Liu F, Wang Z, Wang Z, Zhong J, Wu X, Qin Z, Li Z, Tan L, Zhao L, Zhu L, Jiang L. , High-throughput determination of interdiffusivity matrices in Ni-Al-Ti-Cr-Co-Mo-Ta-W multicomponent superalloys and their application in optimization of creep resistance, Materials Today Communications, 20 (2020) 101018