程树良，男，工学博士，教授。主要从事结构振动控制，复合材料、超材料力学性能和结构优化研究。在《European Journal of Mechanics A-Solids》，《Materials & Design》，《International Journal of Solids And Structures》，《Physica B: Condensed Matter》，《Physica A: Statistical Mechanics and its Applications》，《Acta Mechanica》，《振动与冲击》，《工程力学》，《复合材料学报》，《材料研究学报》等国内外重要和有影响的学术刊物上发表学术论文80多篇，完成多项省级课题，获得一项省级科技进步奖。所带的多名研究生获得国家励志奖学金和省级优秀硕士论文，多名研究生毕业攻读东南大学、华中科技、武汉大学、中南大学等博士研究生。

近3年代表论文：

[1] Shu-liang Cheng, Xiao-feng Li, Qun Yan, Bin Wang, Yong-tao Sun, Ya-jun Xin, Qian Ding, Hao Yan, Ya-jie Li. Low frequency band gap and wave propagation mechanism of resonant hammer circular structure. Mechanics of Advanced Materials and Structures, 2024(31):20: 4818-4838.

[2] Yang, HY ; Cheng, SL ; Li, XF; Yan, Q ; Wang, B ; Xin, YJ ; Sun, YT ; Ding, Q ; Yan, H  ; Zhao, QX. Multiple broadband gaps and vibration suppression mechanisms for innovative star shaped metamaterial structures with triangular characteristics. MECHANICS OF ADVANCED MATERIALS AND STRUCTURES, 2024(31),27:9759-9777.

[3] Yang, HY ; Cheng, SL ; Li, XF; Yan, Q ; Wang, B ; Xin, YJ ; Sun, YT ; Ding, Q ; Yan, H  ; LI YJ ; Zhao, QX. Band gap tunability and wave propagation of a novel fully symmetric single-phase metamaterial. MECHANICS OF ADVANCED MATERIALS AND STRUCTURES, , 2024(31),29:9740-9758.

[4] Cheng, SL; Yang, HY; Du, XH; Ding, Q; Yan, Q; Sun, YT,  Xin, YJ; Wan, L; Xu, JX. Low-frequency band gap and wave attenuation mechanisms of novel hybrid chiral metamaterials. International Journal Of Modern Physics B, 2024(38)29

[5] Yang, HY,  Cheng, SL ; Li, XF ; Yan, Q ; Wang, B  ; Xin, YJ ,  ; Sun, YT ; Ding, Q; Yan, H ; Li, YJ  ; Zhao, QX. Innovative structural design of chiral lattices with low frequency wide multiple band gaps and vibration suppression, MECHANICS OF ADVANCED MATERIALS AND STRUCTURES, 2024(31)27:9563-9574

[6] Xin, YJ; Li, JY ; Li, XD; Cheng, SL; Sun, YT, Yan, Q; Ding, Q; Yan, H. Comprehensive analysis of band gap modulation of hexagonal fan blade and optimized ligament structure in the low-frequency range, MICRO AND NANOSTRUCTURES, 2024(193):207918

[7] Li, XD; Cheng, SL; Zhang, Q; Sun, YT; Xin, YJ; Bin, W. Novel three-dimensional acoustic metamaterials with low-frequency bandgap and strong vibration and noise attenuation. PHYSICA B-CONDENSED MATTER, 2024(689): 416213

[8] Li, XD; Cheng, SL; Li, JY; Sun, YT; Wang, S; Xin, YJ; Yan, Q; Ding, Q; Yan, H. Analysis of vibration and noise reduction performance of 3D flower-shaped resonance structure with low-frequency bandgap, PHYSICA B-CONDENSED MATTER, 2024(680): 415806

[9] Cheng, SL; Li, XD ; Zhang, Q; Sun, YT; Xin, Y. Vibration attenuation and wave propagation analysis of 3D star-shaped resonant plate structures and their derivatives with ultra-wide band gap. PHOTONICS AND NANOSTRUCTURES-FUNDAMENTALS AND APPLICATIONS, 2024(61): 101289

[10] Cheng, SL, Li, XF, Wang, YL, Wang, B, Sun, YT, Yan, Q, Ding, Q, Xin, YJ. Multi-frequency band gap and active frequency modulation of snowflake-like convex horn ligament structure. European Journal of Mechanics A-Solids, 2023, 97: 104843 (中科院二区)

[11] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Li YJ, Zhao, QX. Ultra-low-frequency multi-broadband and vibration suppression mechanism of innovative star-shaped hybrid metamaterials. Materials & Design, 2023, 230: 111966 (中科院一区、学生一作)

[12] Li, XF, Cheng, SL, Yang, HY, Yan, Q, Wang, B, Sun, YT, Ding, Q, Yan, H, Han HG, Zhao, QX, Xin, YJ. Optimization of vibration characteristics and directional propagation of plane waves in branching ligament structures of wind models. Results In Physics, 2023, 47: 106345 (中科院二区、学生一作)

[13] Cheng, SL, Li, XF, Yan, Q, Wang, B, Sun, YT, Xin, YJ, Ding, Q, Yan, H , Wang, L. Low and ultra-wide frequency wave attenuation performance and tunability of a new cruciate ligament structure. European Journal of Mechanics A-Solids, 2023, 97: 104865 (中科院二区)

[14] 程树良, 吴灵杰, 孙帅, 杨硕, 辛亚军. X型点阵夹芯结构受局部冲击时动态力学性能试验与数值模拟. 复合材料学报, 2022, 39(7): 3641-3651

[15] Li, XF, Cheng, SL, Wang, R, Yan, Q, Wang, B, Sun, YT, Yan, H, Zhao, QX, Xin, YJ. Design of novel two-dimensional single-phase chiral phononic crystal assembly structures and study of bandgap mechanism. Results In Physics, 2023, 48: 106431 (中科院二区、学生一作)

[16] Li, XF, Cheng, SL, Yang, HY, Yan, Q, Wang, B, Sun, YT, Ding, Q, Yan, H, Han HG, Zhao, QX, Xin, YJ. Bandgap tuning and in-plane wave propagation of chiral and anti-chiral hybrid metamaterials with assembled six oscillators. Physica A: Statistical Mechanics and its Applications, 2023, 615: 128600 (中科院二区、学生一作)

[17] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H,  Zhao, QX. Propagation mechanism of low-frequency elastic waves and vibrations in a new tetragonal hybrid metamaterial. International Journal of Solids And Structures, 2023, 285: 112536 (中科院二区、学生一作)

[18] Li, XF, Cheng, SL, Yang, HY, Yan, Q, Xin, YJ, Sun, YT, Ding, Q, Yan, H, Li YJ, Zhao, QX. Integrated analysis of bandgap optimization regulation and wave propagation mechanism of hexagonal multi-ligament derived structures. European Journal of Mechanics A-Solids, 2023, 99: 104952 (中科院二区、学生一作)

[19] Cheng, SL, Yang, HY, Yan, Q, Wang, B, Sun, YT, Xin, YJ, Ding, Q, Yan, H, Wang, L. Bandgap and Vibration Suppression Mechanisms of Novel Star-Shaped Hybrid Metamaterials. Physica Status Solidi B-Basic Solid State Physics, 2023, 260(2): 202200439

[20] Li, XF, Cheng, SL, Yang, HY, Yan, Q, Wang, B, Xin, YJ, Sun, YT, Ding, Q, Yan, H, Li, YJ. Analysis of low frequency vibration attenuation and wave propagation mechanism of graded maze structure. Physica B-Condensed Matter, 2023,649: 414519 (学生一作)

[21] Yang, HY, Cheng,SL, Li, XF, Yan, Q, Wang, B, Xin, YJ, Sun, YT, Ding, Q, Yan, H, Li, YL, Zhao, QX. Study on bandgap and vibration attenuation mechanism of novel chiral lattices. Physica B-Condensed Matter, 2023,651: 414596 (学生一作)

[22] Li, XF, Cheng, SL, Yang, HY, Yan, Q, Wang, B, Sun, YT, Yan, H, Zhao, QX, Xin, YJ. Vibration characteristics and elastic wave propagation properties of mirror-symmetric structures of trichiral ligaments. Photonics and Nanostructures - Fundamentals and Applications, 2023, 54: 101120 (学生一作)

[23] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Li YJ, Zhao, QX. Study on the bandgap and directional wave propagation mechanism of novel auxiliary semicircle rings lattices, Materials Today Communications, 2023, 35: 105680

[24] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Li YJ, Zhao, QX. Ultra-low-frequency multi-broadband and vibration suppression mechanism of innovative star-shaped hybrid metamaterials. Materials & Design, 2023, 230: 111966. (学生一作)

[25] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Zhao, QX. Low frequency elastic waves and vibration control mechanism of innovative phononic crystal thin plates. Physica B: Condensed Matter, 2023, 667: 415189  (学生一作)

[26] Cheng, SL, Yang, HY, Yan, Q, Wang, B, Sun, YT, Xin, YJ, Ding, Q, Yan, H, Wang, L. Study on the band gap and directional wave propagation mechanism of novel single-phase metamaterials. Physica B: Condensed Matter, 2023, 650: 414545

[27] Cheng, SL, Yang, HY, Li XF, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L. Numerical investigation of low band gap and vibration suppression for novel four-ligament chiral composite metamaterial structures. Acta Mechanica, 2023, 234(7): 2947-2961

[28] Cheng, SL, Liang JM, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L. Analysis of the band gap characteristics of a new type of three-dimensional single phase phononic crystal. Wave Motion, 2023, 122: 103195

[29] Cheng, SL, Li, XF, Yan, Q, Wang, B, Sun, YT, Xin, YJ, Ding, Q, Yan, H , Li, YJ. Low frequency band gap and wave propagation mechanism of resonant hammer circular structure. Mechanics of advanced materials and structures, 2023.4, Early Access

[30] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Li, YJ. Innovative structural design of chiral lattices with low frequency wide multiple band gaps and vibration suppression. Mechanics of advanced materials and structures, 2023.6, Early Access (学生一作)

[31] Wang H, Cheng SL, Wang C, Sun YT, Xin YJ. Tunable band gaps and double‑negative properties of innovative acoustic metamaterials. Applied Physics A, 2021, 27(6): 495

[32] Xin, YJ, Zhang, K, Du, XH, Ding, Q, Yan, Q, Sun, YT, Cheng, SL*, Wang, L. Bandgap and Wave Propagation Properties of 2D Curved and Chiral Hybrid Star-Shaped Metamaterials. Physica Status Solidi B-Basic Solid State Physics, 2023, 260(2): 202200333.

[33] Xin, YJ, Huang, RN, Li, P, Yan, H, Dong, XJ, Yan, Q, Sun, YT, Cheng, SL, Zhao, QX. Labyrinth acoustic metamaterials with fractal structure based on Hilbert curve. Physica B: Condensed Matter, 2023,667: 415150.

[34] Xin, YJ, Cai, PC, Li, P, Yan, Q, Sun, YT, Ding, Q, Cheng, SL*, Zhao, QX. Comprehensive analysis of band gap of phononic crystal structure and objective optimization based on genetic algorithm. Physica B: Condensed Matter, 2023,667: 415157.

[35] Xin, YJ, Huang, RN, Li, P, Qian, Q, Yan, Q, Sun, YT, Ding, Q, Huan, YJ, Cheng, SL. Labyrinthine acoustic metamaterials with triangular self-similarity for low-frequency sound insulation at deep subwavelength dimensions. Results In Physics, 2023,54: 107151.

[36] Huang, RN, Xin, YJ, Cheng, SL. Sun, YT, Yan, Q, Ding, Q. Scattering properties of labyrinthine metamaterials with different numbers of resonance units. Physica B: Condensed Matter, 2023,671: 415446.

[37] Cheng, SL, Yang, HY, Du, XH, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L, Xu JX. Low-frequency band gap and wave attenuation mechanisms of novel hybrid chiral metamaterials. International Journal Of Modern Physics B, 2023.4, Early Access

[38] Cheng, SL, Yang, HY, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L. Low Frequency Band Gap and Wave Propagation Properties of a Novel Fractal Hybrid Metamaterial. Physica Status Solidi B-Basic Solid State Physics, 2022, 259(11): 2200257

[39] Cheng, SL, Li, XF, Wu, LJ, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L, Xu, JX. Low-frequency bandgaps of 3D periodic superlight high stiffness resonant cavity plate-lattice structure with cubic symmetry. Applied Physics A-Materials Science & Processing, 2022, 128(11): 951.

[40] Cheng, SL, Yang, HY, Geng, C, Ding, Q, Yan, Q, Sun, YT, Xin, YJ, Wang, L, Xu, JX. Study on the sinusoidal honeycomb core metamaterial sandwich panel with high-performance and low-velocity impact resistance. Applied Physics A-Materials Science & Processing, 2022, 128(12):1092.

[41] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Zhao, QX.Multiple broadband gaps and vibration suppression mechanisms for innovative star shaped metamaterial structures with triangular characteristics. Mechanics of advanced materials and structures, 2023.11, Early Access (学生一作)

[42] Yang HY, Cheng, SL,, Li XF, Yan Q, Wang B, Xin YJ, Sun, YT, Ding, Q, Yan, H, Li, YJ. Band gap tunability and wave propagation of a novel fully symmetric single-phase metamaterial. Mechanics of advanced materials and structures, 2023.12, Early Access (学生一作)

[43] 辛亚军，孙帅，杨硕，吴灵杰，程树良*. 铝蜂窝夹芯板面外剪切性能试验研究与数值模拟. 复合材料学报, 2022, 39(12): 6119-6129.

[44] Xin, YJ, Wang, R, Sun, YT, Ding, Q, Cheng, SL*. Band Gap Mechanism and Design of a New Type of Six-Ligament Chiral Structure. Acoustics Australia, 2022, 35(2): 41-48

[45] Xin, YJ, Wang, H, Wang, C, Yao, JX, Ding, Q, Gao, HQ, Cheng, SL, Sun, YT. Design and Wave Propagation Characterization of Starchiral Metamaterials. Acta Mechanica Solida Sinica, 2022, 35(2): 215-227.

[46] Xin, YJ, Wang, H, Ding, Q, Yan, Q, Sun, YT, Cheng, SL*, Wang, L. Study on the bandgap and wave propagation characteristics of tetrachiral and star-shaped hybrid metamaterial. Nternational. Journal of Modern Physics B, 2022:36(14): 2250068.

[47] Xin, YJ, Wang, C, Wang, H, Yao, JX, Sun, YT, Cheng, SL*. Tuning the band structure of assembled anti-tetrachiral metamaterials. Applied Physics B-Lasers And Optics, 2022,128(8): 160

[48] Cheng, SL, Yao, JX, Ding, Q, Xin, YJ, Sun, YT, Gao, HQ. Lightweight high-stiffness single-phase foam metamaterials with fluted resonant cavities for low frequency bandgaps. Materials Today Communications, 2021, 28: 102703

[49] Xin, YJ, Yan, HM, Cheng, SL, Li, HJ. Drop weight impact tests on composite sandwich panel of aluminum foam and epoxy resin. Mechanics of Advanced Materials And Structures, 2021, 28(4): 343-356

[50] Xin, YJ, Yan, HM, Yang, S, Li, HJ, Cheng, SL. Experimental study on the indentation of epoxy resin–aluminum honeycomb composite sandwich panel. Mechanics of Advanced Materials And Structures, 2021, 28(9): 904-918

[51] Xin YJ, Wang H, Wang C, Cheng SL, Zhao QX, SunYT, Gao HQ, Ren FG. Properties and tunability of band gaps in innovative reentrant and star-shaped hybrid honeycomb metamaterials. Results in Physics, 2021, 24(5): 104024

[52] Xin YJ, Wang H, Wang C, Yao JX, Ding Q, Gao HQ, Cheng SL, SunYT. Design and Wave Propagation Characterization of Starchiral Metamaterials. ACTA Mechanica Solida Sinica, 2021, 35: 215-227

通讯/办公地址 : 燕山大学建工馆

邮箱 : slcheng@ysu.edu.cn