代表性论文

1. Defect strength and strain glass state in ferroelastic systems
D Wang, D Lv, Y Gao, Y Wang, X Ren, Y Wang.
Journal of Alloys and Compounds 661,100, 2016

 

2. Glass-ferroic composite caused by the crystallization of ferroic glass
Y Ji, X Ding, D Wang*, K Otsuka, and X Ren
Physical Review B 92, 241114(R), 2016

 

3. Origin of ultrahigh piezoelectric activity of [001]-oriented ferroelectric single crystals at the morphotropic phase boundary
X Ke, D Wang, Y Wang
Applied Physics Letters 108, 012904, 2016

4. Nanoscaled Martensitic Domains in Ferroelastic Systems: Strain Glass
D Wang*, X Ren, Y Wang
Current Nanoscience 12, 192-201, 2016

 

5. Crystallographic analysis and phase field simulation of transformation plasticity in a multifunctional β-Ti alloy
Jiaming Zhu, Honghui Wu, Dong Wang, Yipeng Gao, Haoliang Wang, Yulin Hao, Rui Yang, Tong-Yi Zhang, Yunzhi Wang
International Journal of Plasticity, 2016

 

6. Accelerating ferroic ageing dynamics upon cooling
J Zhang, Y Mao, D Wang, J Li, Y Wang
NPG Asia Materials, 8, e319, 2016


7. Quantifying the abnormal strain state in ferroelastic materials: A moment invariant approach
L Nguyen, D Wang, Y Wang, M D Graef
Acta Materialia 94, 172, 2015

 

8. A new mechanism for low and temperature-independent elastic modulus
L Zhang, D Wang*, X Ren, & Y Wang
Scientific Reports 5, 11477, 2015

 

9. 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

 

10. 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

 

11. Superelasticity of slim hysteresis over a wide temperature range by nanodomains of martensite
D Wang, S Hou, Y Wang, X Ding, S Ren, X Ren, Y Wang
Acta Materialia 66, 349, 2014

 

12. 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

 

13. Pattern formation during cubic to orthorhombic martensitic transformations in shape memory alloys
Y Gao, N Zhou, D Wang, Y Wang
Acta Materialia 68, 93-105,2014

 

14. Spontaneous strain glass to martensite transition in ferromagnetic Ni-Co-Mn-Ga strain glass
Y Wang, C Huang, H Wu, J Gao, S Yang, D Wang, X Ding, X Song, X Ren
Applied Physics Letters 102 (14), 141909 ,2014

 

15. Strain glass transition in a multifunctional β-type Ti alloy
Yu Wang, Jinghui Gao, Haijun Wu, Sen Yang, Xiangdong Ding, D Wang, Xiaobing Ren, Yunzhi Wang, Xiaoping Song, Jianrong Gao
Scientific reports 4,3995, 2014

 

16. 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.

 

17. 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

 

18. New intrinsic mechanism on gum-like superelasticity of multifunctional alloys
JP Liu, YD Wang, YL Hao, Y Wang, ZH Nie, D Wang, Y Ren, ZP Lu, J Wang, H Wang, X Hui, N, M J Kim, R Yang
Scientific reports 3, 2156, 2013

 

19. Time-dependent ferroelectric transition in Pb (1− x)(Zr0. 4Ti0. 6)(1− x/4) O3− xLa system
Z Sun, D Xue, H Wu, Y Ji, X Ding, D Wang, Y Yang, X Ren
Applied Physics Letters 102, 222907,2013

 

20. 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

 

21. 铁性智能材料的计算机模拟进展
王栋, 王云志, 李巨
中国材料进展 31 (3),8-14,2012

 

22. The effect of point defects on ferroelastic phase transition of lanthanum-doped calcium titanate ceramics
Y Ni, Z Zhang, D Wang, Y Wang, X Ren
Journal of Alloys and Compounds, 577(S1) S468,2012

 

23. Large piezoelectricity and dielectric permittivity in BaTiO3-xBaSnO3 system: The role of phase coexisting
Y Yao, C Zhou, D Lv, D Wang, H Wu, Y Yang, X Ren
EPL (Europhysics Letters) 98 (2), 27008,2012

 

24. Evidence for crossover martensite in Ti50Ni45Fe5: An intermediate state between normal martensite and strain glass
S Hou, Y Wang, J Zhang, D Wang, S Ren, X Ren
EPL (Europhysics Letters) 100 (5), 58001,2012

 

25. Modeling magnetic nanotubes using a chain of ellipsoid-rings approach
J Gong, S Yang, C Han, W Guan, Y Wang, B Gao, D Wang, X Song, Z Sun, M Xu
Journal of Applied Physics 111 (6), 063912-063912-8,2012


26. Microstructure basis for strong piezoelectricity in Pb-free Ba (Zr0. 2Ti0. 8) O3-(Ba0.7Ca0.3) TiO3 ceramics
J Gao, D Xue, Y Wang, D Wang, L Zhang, H Wu, S Guo, H Bao, C Zhou, W Liu, S Hou, G Xiao, X Ren
Applied Physics Letters 99, 092901,2011

 

27. Spontaneous strain glass to martensite transition in a Ti50Ni44.5Fe5.5 strain glass
J Zhang, Y Wang, X Ding, Z Zhang, Y Zhou, X Ren, D Wang, Y Ji, M Song, K Otsuka, J Sun
Physical Review B 84 (21), 214201,2011

 

28. 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

 

29. Strain glass in Fe-doped Ti–Ni
D Wang, Z Zhang, J Zhang, Y Zhou, Y Wang, X Ding, Y Wang, X Ren
ActaMaterialia 58, 6206-6215,2010

 

30. Phase diagram of Ti50-x Ni50+x: Crossover from martensite to strain glass
Z Zhang, Y Wang, D Wang, Y Zhou, K Otsuka, X Ren
Physical Review B 81 (22), 224102,2010

 

31. Strain glass in ferroelastic systems: Premartensitic tweed versus strain glass
X Ren, Y Wang, Y Zhou, Z Zhang, D Wang, G Fan, K Otsuka, T Suzuki, Y Ji, J Zhang, Y Tian, S Hou, X Ding
Philosophical Magazine 90 (1-4), 141-157,2010

 

32. Strain glass in doped Ti50Ni50− xDx(D= Co, Cr, Mn) alloys: Implication for the generality of strain glass in defect-containing ferroelastic systems
Y Zhou, D Xue, X Ding, Y Wang, J Zhang, Z Zhang, D Wang, K Otsuka, J Sun, X Ren
Acta Materialia 58 (16), 5433-5442,2010