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专利名称 申请号 专利类型 申请日期
一种提高钛合金性能的热处理工艺 zl202011060291.5 发明 2020.09.30

代表性论文

  1. Polarization Spinodal at Ferroelectric Morphotropic Phase Boundary, Xiaoqin Ke, Dong Wang*, Xiaobing Ren, Yunzhi Wang, Physical Review Letters, 125,127602, 2020.
  2. A New Strategy for Large Dynamic Piezoelectric Responses in Lead-Free Ferroelectrics: The Relaxor/Morphotropic Phase Boundary Crossover, Le Zhang, Haoyu Wang, Dong Wang,* Mengyao Guo, Xiaojie Lou, and Danyang Wang*, Advanced Functional Materials, 30, 2004641, 2020.
  3. Novel transformation pathway and heterogeneous precipitate microstructure in Ti-Alloys, T Zhang, D Wang*, Y Wang*, Acta Materialia, 196, 409, 2020.
  4. Revealing the Atomistic Mechanisms of Strain Glass Transition in FerroelasticsChuanxin Liang, Dong Wang*, Zhao Wang, Xiangdong Ding, Yunzhi Wang*, Acta Materialia 194 (2020) 134.
  5. The role of nano-scaled structural non-uniformities on deformation twinning and stress-induced transformation in a cold rolled multifunctional β-titanium alloyQianglong Liang, Zachary Kloenne, Yufeng Zheng*, Dong Wang*, Stoichko Antonov, Yipeng Gao, Yulin Hao, Rui Yang, Yunzhi Wang, Fraser Hamish, Scripta Materialia 177(2020)181
  6. Non-conventional transformation pathways and ultrafine lamellar structures in g-TiAl alloys, Tianlong Zhang, Dong Wang,*, Jiaming Zhu, Hu Xiao, C.T. Liu, Yunzhi Wang, Acta Materialia 189 (2020)25
  7. Shuffle-nanodomain regulated strain glass transition in Ti-24Nb-4Zr-8Sn alloy, Qianglong Lianga, Dong Wang*, Yufeng Zheng**, Shuangshuang Zhao, Yipeng Gao,Yulin Hao, Rui Yang, Dipankar Banerjee, Hamish L. Fraser, Yunzhi Wang,***, Acta Materialia 186 (2020)415
  8. Nano-scale structural non-uniformities in gum like Ti-24Nb-4Zr-8Sn metastable β-Ti alloyQianglong Liang, Yufeng Zheng*, Dong Wang*, Yulin Hao, RuiYang, Yunzhi Wang, Hamish L.Fraser, Scripta Materialia158 95, 2019
  9. Laminated Modulation of Tricritical Ferroelectrics Exhibiting Highly Enhanced Dielectric Permittivity and Temperature StabilityJinghui Gao, Yan Wang, Zhixin He, Yongbin Liu, Dong Wang*, Li Jin, Tongxin Zhao, Lisheng Zhong*, Xiaobing Ren*, Advanced Functional Materials, 25, 1807162, 2019
  10. Reversible Domain wanll motion induced Low hysteretic Piezoelectric response in Ferroelectrics. Xinghao Hu, Jinghui Gao, Yan Wang YOngbin Liu LInglongLiDong Wang Fei LiThe journal of Physical chemistry C 2019, 123, 15434
  11. Phase field simulation of martensitic transformation in pre-strained nanocomposite shape memory alloysDong Wang*, Qianglong, Liang, Shuangshuang Zhao, Pengyang Zhao, Tianlong Zhang, Lishan Cui*, Yunzhi Wang*, Acta Materialia, 164, 99, 2019  
  12. Secondary hardening behavior in Ti alloy, Pei Li, Tianlong Zhang, Xun Sun, Hualei Zhang, Dong Wang,∗∗, Qiaoyan Sun,∗ Lin Xiao, Jun Sun, Materials cience & engineering A 759 (2019)640
  13. Effect of strain on the Curie temperature and band structure of low-dimensional SbSI, Yiping Wang, Yang Hu, Zhizhong Chen, Yuwei Guo, Dong Wang,Esther A. Wertz, and Jian Shi1,APPLIED PHYSICS LETTERS 112, 183104 (2018).
  14. Ferroelectric Domain Walls Approaching Morphotropic Phase BoundaryJinghui Gao, Xinghao Hu, Yongbin Liu, Yan Wang, Xiaoqin Ke, Dong Wang,* Lisheng Zhong,* and Xiaobing Ren*.The Journal of Physical Chemistry C 121,2243,2017
  15. High temperature-stability of (Pb0.9La0.1)(Zr0.65Ti0.35)O3 ceramic for energy-storage applications at finite electric field strength,Jinghui Gao, Yongbin Liu, Yan Wang, Dong Wang* , Lisheng Zhong, Xiaobing Ren, Scripta Materialia 137(2017)114
  16. Glass-Glass Transitions by Means of an Acceptor-Donor Percolating Electric-Dipole Network, Le Zhang,* Xiaojie Lou, Dong Wang,† Yan Zhou, Yang Yang, Martin Kuball, Michael A. Carpenter, and Xiaobing Ren,‡, PHYSICAL REVIEW APPLIED 8, 054018 (2017).
  17. Novel B19 strain glass with large recoverable strain, Qianglong Liang, Dong Wang,* Jian Zhang,† Yuanchao Ji, Xiangdong Ding, Yu Wang, Xiaobing Ren, and Yunzhi Wang,‡, PHYSICAL REVIEW MATERIALS 1, 033608 (2017).
  18. Defect strength and strain glass state in ferroelastic systemsD Wang,  D Lv, Y Gao, Y Wang, X Ren, Y Wang. Journal of Alloys and Compounds 661,100, 2016
  19. Glass-ferroic composite caused by the crystallization of ferroic glassY Ji*, X Ding, D Wang*, K Otsuka, and X Ren. Physical Review B 92, 241114(R), 2016
  20. Origin of ultrahigh piezoelectric activity of [001]-oriented ferroelectric single crystals at the morphotropic phase boundaryX Ke, D Wang, Y Wang. Applied Physics Letters 108, 012904, 2016
  21. Nanoscaled Martensitic Domains in Ferroelastic Systems: Strain GlassD Wang*, X Ren, Y Wang. Current Nanoscience 12, 192-201, 2016 
  22. Quantifying the abnormal strain state in ferroelastic materials: A moment invariant approachL Nguyen, D Wang, Y Wang, M D Graef . Acta Materialia 94, 172, 2015
  23. A new mechanism for low and temperature-independent elastic modulus L Zhang, D Wang*, X Ren, & Y Wang*. Scientific Reports 5, 11477, 2015 
  24. Glass-ferroic composite caused by the crystallization of ferroic glass, Yuanchao Ji,* Xiangdong Ding, Dong Wang,† Kazuhiro Otsuka, and Xiaobing Ren, PHYSICAL REVIEW B 92, 241114(R) (2015).
  25. Origin of an Isothermal R-Martensite Formation in Ni-rich Ti-Ni Solid Solution: Crystallization of Strain Glass,Y Ji, D Wang, X Ding, K Otsuka, X Ren. Physical review letters 114, 055701, 2015
  26. Integrated Computational Materials Engineering (ICME) Approach to Design of Novel Microstructures for Ti-Alloys, D Wang, R Shi, Y Zheng, R Banerjee, H L. Fraser, Y Wang. JOM 66, 1287,2014
  27. Superelasticity of slim hysteresis over a wide temperature range by nanodomains of martensite, Wang, S Hou, Y Wang, X Ding, S Ren,  X Ren,  Y Wang. Acta Materialia 66, 349, 2014
  28. Pseudospinodal mechanism for fine α/β microstructures in β-Ti alloys,A Boyne, D Wang,  R Shi, Y Zheng, A Behera, S  Nag,  J Tiley, H Fraser, R  Banerjee, Y Wang. Acta Materialia 64, 188, 2014
  29. Formation of monoclinic nanodomains at the morphotropic phase boundary of ferroelectric systems,X Ke, D Wang, X Ren, Y Wang. Physical Review B 88, 214105, 2013. 
  30. Unique properties associated with normal martensitic transition and strain glass transition – A simulation study,D Wang, Y Ni, J Gao,  Z Zhang,  X Ren, Y Wang.
     Journal of Alloys and Compounds 577, s102, 2013
  31. Phase diagram of polar states in doped ferroelectric systems,D Wang, X Ke, Y Wang, J Gao, Y Wang, L Zhang, S Yang, X Ren. Physical Review B 86, 054120,2012 
  32. Modeling Abnormal Strain States in Ferroelastic Systems: The Role of Point Defects,D Wang, Y Wang, Z Zhang, X Ren. Physical review letters 105 (20), 205702,2010 
  33. Strain glass in Fe-doped Ti–Ni,D Wang, Z Zhang, J Zhang, Y Zhou, Y Wang, X Ding, Y Wang, X Ren. Acta Materialia 58, 6206-6215,2010