学术论文:
1. Sunkulp Goel,Y.Wang, Y.M.Zhu, Y.Liu and J.T.Wang, Processing of bulk nanolamellar tantalum and justification of strengthening by grain boundary pre-stressed model, Int. J. Plasticity, 138(2021)102939
2. Rui Cong Gu, Yao Jiang, Yu Wei Liu, Ying Liu, Fan Liu, Jing Tao Wang, Exploring the size effect in scaling up ECAP using the theory of similarity, J. Mater. Proc. Tech. 298 (2021)117290
3. Zhi Qiang Ren, A.A.Churakova, Xiang Wang, Sunkulp Goel, Si Nan Liu, Ze Sheng You, Ying Liu, Si Lan, D.V.Gunderov, Jing Tao Wang, R.Z.Valiev, Enhanced tensile strength and ductility of bulk metallic glasses Zr52.5Cu17.9Al10Ni14.6Ti5 via high-pressure torsion, Materials Science and Engineering: A, 803(2021)140485
4. Rong An,Peng Peng Fan, Ming Jun Zhou, Yue Wang, Sunkulp Goel,Xue Feng Zhou, Wei Li, and Jing Tao Wang, Nanolamellar Tantalum Interfaces in the Osteoblast Adhesion, Langmuir 35 (2019) 2480−2489
5. Zheng Li, Pin Fang Zhang, Hao Yuan, Kui Lin, Ying Liu, De Liang Yin, Jing Tao Wang, Terence G. Langdon, Principle of one-step synthesis for multilayered structures using tube high-pressure shearing, Materials Science and Engineering: A, 658(2016)367-37
6. J.L. Sun , P.W. Trimby, F.K. Yan, X.Z. Liao, N.R. Tao, J.T. Wang, Shear banding in commercial pure titanium deformed by dynamic compression, Acta Materialia 79 (2014) 47–58
7. Jing Tao Wang, Zheng Li, Jin Wang and Terence G. Langdon, Principles of severe plastic deformation using tube high-pressure shearing, Scripta Materialia 67 (2012) 810–813
8. S.H. Xia, J.T. Wang. A micromechanical modeling for toughenging behavior in the dual-phase composite. Int. J. Plasticity, 26(2010)1442-1460
9. Jingtao WANG, Y.Iwahashi, Z.Horita, M.Furukawa, M.Nemoto, R.Z.Valiev, T.G.Langdon, An investigation of microstructural stability in an Al-Mg alloy with submicronmeter grain size, Acta Mater. , 1996;44(7):2973-2982
10. Yoshinori IWAHASI, Jingtao WANG, Zenji HORITA, Minoru NEMOTO, Ruslan Z. Valiev, Yan MA and Terence G. Langdon, Principle of Equal-channel Angular Pressing for processing of ultra-fine grained materials, Scr. Mater. 1996;35(2):143-146
等150余篇;
授权发明专利:
11. 王经涛, 林逵, 李政, 刘瑛, 马文龙, 符嫒嫒, 王嘉宇, 祝康, ZL201710648299.5, 一种用于固态介质的泰勒-库埃特实验装置, 2021-1-26
12. 王经涛, 李政, 周成平, 刘瑛, ZL201510150736.1, 一种高压扭转叠加制造方法及装置, 2020-7-6,
13. 王经涛, 李政, 张品芳, 林逵, 袁昊, 刘瑛, ZL201510918670.6, 多层金属复合材料的单工序加工方法, 2020-6-19
14. 王经涛, 李政, 王进, 安钰坤, ZL201110291933.7, 利用劈尖原理实现管材高压切变的方法及其装置, 2014-9-10
15. 王经涛, 李政, 王进, 刘金强, 尹德良, 刘冉, ZL201110030903.0, 管状材料高压剪切变形方法及其装置, 2014-8-11
等14项;
国际学术会议邀请报告:
16. Jing Tao Wang, New Opportunities in Restructuring of Materials by Deformation, Keynote Invited Talk, 7th International Conference on Nanomaterials by Severe Plastic Deformation (NanoSPD7), 2017, Sydney, Australia
等12 次,其中特邀报告4次;
教材:
17. 谭树青,王经涛,金属塑性加工物理基础, 陕西科学技术出版社,1996年12月,西安;
科技奖:
18. 王经涛,等径弯曲通道变形研究,2001.12, 国家冶金科学技术三等奖。