Cite
Tunable low-frequency bandgaps of a new two-dimensional multi-component phononic crystal under different pressures, geometric parameters and pre-compression strains.
MLA
Sun, Xiao-Wei, et al. “Tunable Low-Frequency Bandgaps of a New Two-Dimensional Multi-Component Phononic Crystal under Different Pressures, Geometric Parameters and Pre-Compression Strains.” Mechanics of Advanced Materials & Structures, vol. 29, no. 25, Dec. 2022, pp. 4019–31. EBSCOhost, https://doi.org/10.1080/15376494.2021.1916139.
APA
Sun, X.-W., Zhu, H.-F., Gao, X.-L., Song, T., & Liu, Z.-J. (2022). Tunable low-frequency bandgaps of a new two-dimensional multi-component phononic crystal under different pressures, geometric parameters and pre-compression strains. Mechanics of Advanced Materials & Structures, 29(25), 4019–4031. https://doi.org/10.1080/15376494.2021.1916139
Chicago
Sun, Xiao-Wei, Hai-Fei Zhu, Xing-Lin Gao, Ting Song, and Zi-Jiang Liu. 2022. “Tunable Low-Frequency Bandgaps of a New Two-Dimensional Multi-Component Phononic Crystal under Different Pressures, Geometric Parameters and Pre-Compression Strains.” Mechanics of Advanced Materials & Structures 29 (25): 4019–31. doi:10.1080/15376494.2021.1916139.