Cathodic arc deposition of high entropy alloy thin films with controllable microstructure
- Creator: Zhao, Hong , Zheng, Zhong , Liu, Zongwen , Zhou, Haoruo , Chang, Li , Tsoutas, Kostadinos , Yang, Limei , Alavi, Seyedeh KH , Liu, Yanping , Akhavan, Behnam , Bilek, Marcela M
- Resource Type: journal article
- Date: 2023
Enhanced strength of AlCoCrCu0.5FeNi high entropy alloy thin films reinforced by multi-phase hardening and nanotwins
- Creator: Zheng, Zhong , Zhao, Hong , Akhavan, Behnam , Sun, Lixian , Liu, Hongwei , Tsoutas, Kostadinos , Liu, Yanping , Bilek, Marcela M. , Liu, Zongwen
- Resource Type: journal article
- Date: 2023
High entropy alloy thin films on SS304 substrates: Evolution of microstructure and interface modulated by energetic condensation in nanoscale
- Creator: Zhao, Hong , Zheng, Zhong , Jiang, Tenghao , Fu, Li , Akhavan, Behnam , Bilek, Marcela M. , Liu, Zongwen
- Resource Type: journal article
- Date: 2023
Introducing a new heterogeneous nanocomposite thin film with superior mechanical properties and thermal stability
- Creator: Zhao, Hong , Zheng, Zhong , Sun, Lixian , Liu, Hongwei , Tsoutas, Kostadinos , Akhavan, Behnam , Liu, Yanping , Bilek, Marcela M. , Liu, Zongwen
- Resource Type: journal article
- Date: 2023
Phase decomposition of AlCrFeCoNiCu0.5 HEA thin films by vacuum annealing
- Creator: Zheng, Zhong , Zhao, Hong , Sun, Lixian , Liu, Yanping , Fu, Li , Bilek, Marcela M. , Akhavan, Behnam , Liu, Zongwen
- Resource Type: journal article
- Date: 2023
The Fabrication and Growth Mechanism of AlCrFeCoNiCu0.5 HEA Thin Films By Substrate-Biased Cathodic Arc Deposition
- Creator: Zhao, Hong , Zheng, Zhong , Akhavan, Behnam , Tsoutas, Kostadinos , Sun, Lixian , Zhou, Haoruo , Bilek, Marcela M. , Liu, Zongwen
- Resource Type: journal article
- Date: 2023