1. Zhang JY#, Li YW#, Zhao TY, Zhang Q, Zuo L, Zhang K*, Machine-learning based design of digital materials for elastic wave control. Extreme Mechanics Letters, 2021, 48, 101372.
2. Zhao TY; Li YW; Zuo L*; Zhang K*, Machine-learning optimized method for regional control of sound fields. Extreme Mechanics Letters, 2021, 45, 101297.
3. Chen LZ#, Zeng GZ#, Guo DK, Liu JH, Zhang X, Lin ST, Zhang K*, Soft elastic hydrogel couplants for ultrasonography. Materials Science Engineering: C, 2021,119,111609.
4. Zhang YW, Ji SC, Jian NN, Zhang K*, He XQ*, Duan HL*, Caudicles in vandoid orchids: A carotenoid-based soft material with unique properties. Acta Biomaterialia, 2020, 113, 478-487.
5. Zeng GZ, Zhao TY, Chen JL, Yan D, Zhang K*, Buckling-driven periodic wrinkle patterns in a film-lattice structure. Extreme Mechanics Letters, 2020, 38, 100750.
6. Shao LH*, Zhao BX, Zhang Q, Xing YF, Zhang K*, 4D printing composite with electrically controlled local deformation. Extreme Mechanics Letters, 2020, 39, 100793.
7. Zhang Q, Chen Y, Zhang K*, Hu GK*, Dirac degeneracy and elastic topological valley modes induced by local resonant states. Physical Review B, 2020, 101, 014101.
8. Zhang K, Ma C, He Q, Lin S, Chen Y, Zhang Y, Fang N* & Zhao XH*, Metagel with broadband tunable acoustic properties over air–water–solid ranges. Advanced Functional Materials, 2019, 1903699. (封面論文);
9. Liu H, Zhang Q, Zhang K*, Hu G & Duan H*, Designing 3D digital metamaterial for elastic waves: From elastic wave polarizer to vibration control. Advanced Science, 2019, 1900401. (封面論文)
10. Zuo S, Liu Y, Zhang K* & Hu G, Wave boundary control method for vibration suppression of large net structures. Acta Mechanica, 2019 10.1007/s00707-019-02464-1; doi.org/10.1007/s00707-019-02464-1
11. Ding X, Zhao Y, Yan D & Zhang K*, Controllable propagation of bending waves in wrinkled films. Journal of Applied Mechanics, 2019, 86(6): 061005.
12. Zhang Q, Chen Y, Zhang K & Hu G*, Programmable elastic valley Hall insulator with tunable interface propagation routes. Extreme Mechanics Letters, 2019, 28: 76–80.
13. Zhang Q, Zhang K* & Hu G. Tunable fluid-solid metamaterials for manipulation of elastic wave propagation in broad frequency range. Applied Physics Letters, 2018, 112: 221906.
14. Xu X W, Zuo S, Zhang K* & Hu G. Wave-based transfer matrix method for dynamic response of large net structures. Journal of Sound and Vibration, 2018, 433: 265-286.
15. Liu y, Zhang K*, Zhang W* & Meng X, Wave-based vibration control of large cable net structures. Wave Motion, 2018, 77:139-155.
16. Guo X, Liu H, Zhang K & Duan H*. Dispersion relations of elastic waves in two-dimensional tessellated piezoelectric phononic crystals. Applied Mathematical Modelling, 2018, 56: 65.
17. 周姣, 張凱*, 彭福軍, 胡更開*. 基于變換方法的索網結構波傳播控制研究. 《中國科學:物理學 力學 天文學》, 2017年10期: 104610;
18. Zhou J, Zhang K & Hu G*. (2017). Wave-Based Control of a Crane System With Complex Loads. Journal of Dynamic Systems, Measurement, and Control, 2017, 139(8): 081016.
19. Yan D, Huangfu D, Zhang K* & Hu G. Wrinkling of the membrane with square rigid element, Europhysics Letters, 2016,116, 24005.
20. Wang Z, Zhang Q, Zhang K* & Hu G, Tunable digital metamaterial for broadband vibration isolation at low frequency, Advanced Materials, 2016, 28: 9857–9861.
21. Yan D, Zhang K* & Hu G, Wrinkling of structured thin films via contrasted materials, Soft matter, 2016. 12: 3937-3942.
22. Zhang Q, Zhang K* & Hu G, Smart three-dimensional lightweight structure triggered from a thin composite sheet via 3D printing technique, Scientific reports, 2016. 6: 22431.
23. Zhang Q, Yan D, Zhang K* & Hu G, Pattern transformation of heat-shrinkable polymer by three-dimensional (3D) printing technique, Scientific reports, 2015. 5: 8936.
24. Yan D, Zhang K*, Peng F & Hu G, Tailoring the wrinkle pattern of a microstructured membrane, Applied Physics Letters, 2014. 105: 071905.
25. Yan D, Liu C, Tian Q, Zhang K, Liu XN & Hu G, A new curved gradient deficient shell element of absolute nodal coordinate formulation for modeling thin shell structures, Nonlinear Dynamics, 2013,74: 153-164.
26. Karihaloo B, Zhang K & Wang J. Honeybee combs: How the circular cells transform into rounded hexagons. Journal of the Royal Society Interface, 2013. 10: 20130299. (Reported by Nature, Discovery News, Livescience (New York), ABC Science, Huffington Post, Futurity, Sydney Morning Herald)
27. Zhang K, Zhao XW, Duan HL, Karihaloo BL & Wang J, Pattern transformations in periodic cellular solids under external stimuli. Journal of Applied Physics, 2011. 109: 084907.
28. Zhang K, Han T, Duan HL & Wang J, A theoretical study of possible shape and phase changes of carbon nanotube crystals during contraction and expansion. Carbon, 2010. 48: 2948-2952.
29. Zhao XW, Zhang K, Wang J & Duan HL, Structural transformation of single wall carbon nanotube bundles under pressure. Mathematics and Mechanics of Solids, 2010. 15: 744-754.
30. Zhang K, Si F W, Duan HL & Wang J, Microstructures and mechanical properties of silks of silkworm and honeybee. Acta Biomaterialia, 2010. 6: 2165-2171.
31. Zhang K, Duan HL, Karihaloo BL & Wang J, Hierarchical, multilayered cell walls reinforced by recycled silk cocoons enhance the structural integrity of honeybee combs. Proceedings of the National Academy of Sciences of the United States of America, 2010. 107: 9502-9506. (Highlighted paper).
主持多項國家項目
軍委科技委基礎加強項目,XX,XXX,2020.01-2023.12,課題負責人, 1000萬;
國家自然科學基金重大項目,11991031,“力學超材料/結構波動能量輸運與調控”,2020.01-2024.12,子課題負責人,210萬;
國家自然科學基金面上項目,11672037,“非均質薄膜結構褶皺産生機理及其結構動力學特性研究”,2017.1—2020.12,主持,80萬;
上海航天科技重點實驗室基金項目,201720141046,“空間大型輕質薄膜天線動力學特性研究”,2017.1—2019.12,主持,10萬;
國家自然科學青年基金項目,11202025,“熱驅動下周期性多孔材料斑圖演化規律的理論與實驗研究”,2013.1—2015.12,主持,26萬;
上海航天科技創新基金項目,SAST201253,“空間大型輕質薄膜天線設計的關鍵力學問題研究”,2012.8-2014.7,主持,10萬;
國家自然科學基金重大項目,11290153,“大型可展開空間結構的非線性動力學建模、分析與控制”,2013.11—2017.12,參與,50萬。
承擔多項教學和相關活動
本科生《結構力學》、《力學中的數理方法II》;研究生《波動力學》、《複合材料力學》;
《科研訓練》,面向本科生開設過近10項研究型科研訓練課題;
