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王中钢

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Journal Publications

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[1]Zhonggang Wang*. Recent advances in novel metallic honeycomb structure. Composites Part B: Engineering 2019; 166:731-741.
[2]Zhendong Li, Xinwei Li, Zhonggang Wang*, Wei Zhai*. Multifunctional sound-absorbing and mechanical metamaterials via a decoupled mechanism design approach. Materials Horizons 2023; 10(1):75-87.
[3]Xinxin Wang, Xinwei Li, Zhendong Li, Zhonggang Wang*, Wei Zhai*.Superior strength, toughness, and damage-tolerance observed in microlattices of aperiodic unit cells.Small, 2023
[4]Zhendong Li, Wei Zhai, Xinwei Li, Xiang Yu, Zichao Guo, Zhonggang Wang*. Additively manufactured dual-functional metamaterials with customisable mechanical and sound-absorbing properties. Virtual and Physical Prototyping 2022; 17(4):864-880.
[5]Zhendong Li, Xinxin Wang, Xinwei Li, Zhonggang Wang*, Wei Zhai*. New Class of Multifunctional Bioinspired Microlattice with Excellent Sound Absorption, Damage Tolerance, and High Specific Strength. ACS Applied Materials & Interfaces 2023; 15:9940-9952.
[6]Zhendong Li, Xinwei Li, Jun Wei Chua, Chong Heng Lim, Xiang Yu, Zhonggang Wang*, Wei Zhai*. Architected lightweight, sound-absorbing, and mechanically efficient microlattice metamaterials by digital light processing 3D printing. Virtual and Physical Prototyping 2023; 18(1):e2166851.
[7]Xinxin Wang, Zhendong Li, Xinwei Li, Kai Wei, Zhonggang Wang*.Customizable plateau in face-centered cubic hierarchical lattices achieved by self-similar embedded design.Materials & Design, 2023, 233: 112186.
[8]Tianyu Gao, Kai Liu, Xinxin Wang, Lumin Shen, Yiming Zhao, Kai Wei, Zhonggang Wang*.Elastic wave manipulation via functional incorporation of air-solid phases in hybrid TPMS.Composites Communications, 2023, 44: 101745.
[9]Zhendong Li, Xinwei Li, Xinxin Wang, Zhonggang Wang*, and Wei Zhai*.Interpenetrating Hollow Microlattice Metamaterial Enables Efficient Sound-Absorptive and Deformation-Recoverable Capabilities.ACS Applied Materials & Interfaces, 2023, 15: 24868-24879.
[10]Kai Liu, Pei Li, Zhonggang Wang*. Buckling-regulated origami materials with synergy of deployable and undeployable features. International Journal of Mechanical Sciences 2023; 247:108167.
[11]Lumin Shen, Xinxin Wang, Zhendong Li, Kai Wei, Zhonggang Wang*. Elastic properties of an additive manufactured three-dimensional vertex-based hierarchical re-entrant structure. Materials & Design 2022; 216:110527.
[12]Tianyu Gao, Kai Liu, Xinxin Wang, Zhendong Li, Zhonggang Wang*. Elastic mechanical property hybridization of configuration-varying TPMS with geometric continuity. Materials & Design 2022; 221:110995.
[13]Kexin Zeng, Zhendong Li, Zichao Guo, Xifeng Liang, Zhonggang Wang*. Acoustic metamaterial for highly efficient low-frequency impedance modulation by extensible design. Extreme Mechanics Letters 2022; 56:101855.
[14]Zhendong Li, Zhonggang Wang*, Zichao Guo, Xinxin Wang, Xifeng Liang. Ultra-broadband sound absorption of a hierarchical acoustic metamaterial at high temperatures. Applied Physics Letters 2021; 118:161903.
[15]Zhonggang Wang, Zichao Guo, Zhendong Li*, Kexin Zeng. Coupling and scaling effect for low frequency broadband sound absorption via vertex-based hierarchy. Applied Physics Letters 2021; 119:171903.
[16]Zhonggang Wang, Zichao Guo, Zhendong Li*, Kexin Zeng. Design manufacture and characterisation of hierarchical metamaterials for simultaneous ultra broadband sound absorbing and superior mechanical. Virtual and Physical Prototyping 2022; 18(1):e2111585.
[17]Ke Yuan, Lumin Shen, Wei Xiong, Shaocheng Yao, Jiajie He, Zhonggang Wang. The impact and post-impact flexural behaviors of CFRP/aluminum-honeycomb sandwich. International Journal of Impact Engineering 2023; 174:104507.
[18]Zhonggang Wang, Chong Shi*, Sansan Ding, Xifeng Liang. Crashworthiness of Innovative Hexagonal Honeycomb-like Structures Subjected to out-of-plane Compression. Journal of Central South University 2020; 27: 621-628.
[19]Zhonggang Wang*, Wei Zhou, Jiefu Liu. Initial Densification Strain Point's Determination of Honeycomb Structure Subjected to out-of-plane Compression. Journal of Central South University 2017; 24:1671-1675.
[20]刘杰夫, 雷紫平, 朱玉雯, 王中钢*. 高速列车设备舱底板夹芯结构异物冲击压痕行为及抗性强化[J]. 中南大学学报(自然科学版), 2022, 53(5):1976-1988.

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