丁东红，男，教授，硕士生导师。2005年南京理工大学武器系统与工程专业本科、2009年航空宇航推进理论与工程专业硕士，2011-2015国家公派澳大利亚卧龙岗大学机电工程博士、2016-2018年卧龙岗大学国防材料技术中心DMTC博士后。主要围绕金属增材制造系统开发、控形控性问题，开展数字模型、路径规划、熔池建模和数字孪生研究。发表SCI论文50余篇，ESI高被引3篇，谷歌学术总引用6500次。担任IEEE Trans on Industrial Electronics，Additive Manufacturing，Robotics and Computer-Integrated Manufacturing，International Journal of Machine & Tool等多个TOP期刊审稿人。

联系方式：

崇德楼C313，Email:donghong@njtech.edu.cn

研究方向：

(1)金属增材制造、修复与再制造、多模态信息传感与知识建模；

(2)数字化与智能化焊接、工业机器人自动化离线编程；

(3)机器学习、深度学习、数字孪生、算法开发（Matlab, C++, Python）；

(4)工艺-材料-结构有限元分析（ANSYS, ABAQUS）。

项目与荣誉：

(1)国家自然科学基金面上项目(2023)，50万，主持

(2)国家重点研发计划项目(2022)，3300万，参与

(3)广东省自然科学基金面上项目(2022)，10万，主持

(4)青年珠江学者(2019)

(5)国家自然科学基金青年项目(2018)，25万，主持

(6)企业横向项目(2023)：江苏省特检院(2项)、扬子石化(1项)、索特传动设备(1项)，主持

主讲课程：

(1)机械振动基础(双语)

(2)机器人学导论(双语)

(3)工程制图

(4)快速成型技术

(5)机械工程英语

代表性论文（10篇）：

[1]Donghong Ding*, Zengxi Pan, Dominic Cuiuri, Huijun Li, Wire-feed additive manufacturing of metal components: technologies, developments and future interests,International Journal of Advanced Manufacturing Technology, 2015, 81: 465~481.（ESI高被引论文，谷歌学术引用1323次）

[2]Donghong Ding, Zengxi Pan*, Dominic Cuiuri, Huijun Li, A multi-bead overlapping model for robotic wire and arc additive manufacturing (WAAM),Robotics and Computer-Integrated Manufacturing, 2015, 31: 101~110.（IF=10.103，ESI高被引论文，中科院1区TOP，谷歌学术引用494次）

[3]Donghong Ding, Zengxi Pan*, Dominic Cuiuri, Huijun Li, A practical path planning methodology for wire and arc additive manufacturing of thin-walled structures,Robotics and Computer-Integrated Manufacturing, 2015, 34: 8~19.（IF=10.103，中科院1区TOP，谷歌学术引用346次）

[4]Donghong Ding, Zengxi Pan*, Dominic Cuiuri, Huijun Li, et al, Bead modelling and implementation of adaptive MAT path in wire and arc additive manufacturing,Robotics and Computer-Integrated Manufacturing, 2016, 39: 32~42.（IF=10.103，中科院1区TOP，谷歌学术引用269次）

[5]Donghong Ding, Zengxi Pan*, Dominic Cuiuri, Huijun Li, et al, Automatic multi-direction slicing algorithms for wire based additive manufacturing,Robotics and Computer-Integrated Manufacturing, 2016, 37: 139~150.（IF=10.103，中科院1区TOP，谷歌学术引用194次）

[6]Donghong Ding^#, Fengyang He^#, Lei Yuan, Zengxi Pan, et al., The first step towards intelligent wire arc additive manufacturing: an automatic bead modelling system using machine learning through industrial information integration,Journal of Industrial Information Integration, 2021, 23: 100218.（IF=11.718，中科院1区TOP）

[7]Donghong Ding, Zengxi Pan*, Dominic Cuiuri, Huijun Li, Nathan Larkin, Adaptive path planning for wire-feed additive manufacturing using medial axis transformation,Journal of Cleaner Production, 2016, 133: 942~952.（IF=11.072，中科院1区TOP）

[8]Donghong Ding, Lei Yuan, Rong Huang, et al., Corner path optimization strategy for wire arc additive manufacturing of gap-free shapes. Journal of Manufacturing Processes, 2023, 85: 683-694.（IF=5.684，中科院2区）

[9]Lei Yuan,Donghong Ding*, Zengxi Pan et al., Application of Multi-directional Robotic Wire Arc AM Process for The Fabrication of Complex Metallic Parts,IEEE Transactions on Industrial Informatics, 2020, 16: 454-464.（IF=10.215，中科院1区TOP）

[10]Bintao Wu, Zengxi Pan,Donghong Ding*, et al, Effects of heat accumulation on microstructure and mechanical properties of Ti6Al4V alloy deposited by wire arc AM,Additive Manufacturing, 2018, 23: 151-160.（IF=11.632，中科院1区TOP）