The following publications are possibly variants of this publication:
- Application of Multidirectional Robotic Wire Arc Additive Manufacturing Process for the Fabrication of Complex Metallic PartsLei Yuan, Donghong Ding, Zengxi Pan, Ziping Yu, Bintao Wu, Stephen van Duin, Huijun Li, Weihua Li 0001. tii, 16(1):454-464, 2020. [doi]
- Investigation of humping phenomenon for the multi-directional robotic wire and arc additive manufacturingLei Yuan, Zengxi Pan, Donghong Ding, Fengyang He, Stephen van Duin, Huijun Li, Weihua Li 0001. rcim, 63:101916, 2020. [doi]
- Realisation of a multi-sensor framework for process monitoring of the wire arc additive manufacturing in producing Ti-6Al-4V partsFangda Xu, Vimal Dhokia, Paul Colegrove, Anthony McAndrew, Stewart Williams, Andrew Henstridge, Stephen T. Newman. ijcim, 31(8):785-798, 2018. [doi]
- A digital shadow approach for enhancing process monitoring in wire arc additive manufacturing using sensor fusionHaochen Mu, Fengyang He, Lei Yuan, Philip Commins, Donghong Ding, Zengxi Pan. jiii, 40:100609, 2024. [doi]
- Remote Ultrasonic Imaging of a Wire Arc Additive Manufactured Ti-6AI-4V Component using Laser Induced Phased ArrayPeter Lukacs, Geo Davis, Theodosia Stratoudaki, Stewart Williams, Charles N. MacLeod, Anthony Gachagan. i2mtc 2021: 1-6 [doi]
- Study of Residual Stress Using Phased Array Ultrasonics in Ti-6AL-4V Wire-Arc Additively Manufactured ComponentsJoseph Walker, Brandon Mills, Yashar Javadi, Charles N. MacLeod, Yongle Sun, Pradeeptta Kumar Taraphdar, Bilal Ahmad, Sundar Gurumurthy, Jialuo Ding, Fiona Sillars. sensors, 24(19):6372, October 2024. [doi]