Yong Pang

 

Research Overview

Solid Mechanics, Laser Optics, Digital Image Correlation, Finite Element Simulation

Interests

  1. Pang Y.Busfield J and Liu T (2024). Ultra-soft cellular solids inspired by marine mussel plaques: scaling of the mechanical properties. Proceedings of The Royal Society A, 480 (2300).
  2. Pang Y., Sun W and Liu T (2024). Quasi-static responses of marine mussel plaques detached from deformable wet substrates under directional tensions. Proceedings of The Royal Society A,  480 (2290).
  3. Pang Y., Huang, S., Li, H., Liu, T. & Sun. W. (2024) An analytical method for elastic-plastic strain conversion of non-conventional miniaturized tensile test, Theor. Appl. Fract. Mech., 104532.
  4. Bhuwal ASPang Y., Ashcroft I, Sun W and Liu T (2023). Discovery of quasi-disordered truss metamaterials inspired by natural cellular materials. Journal of The Mechanics and Physics of Solids,  105294-105294.  
  5. Pang Y., Chen BK, Yu SF and Lingamanaik SN (2020). Enhanced laser speckle optical sensor for in situ strain sensing and structural health monitoring. Optics Letters, 45 (8), 2331-2334.
  6. Pang Y., Chen, B. K., Liu, W., Yu, S. F., & Lingamanaik, S. N. (2020). Development of a non-contact and non-destructive laser-speckle imaging system for remote sensing of anisotropic deformation around fastener holes. NDT & E Int., 111, 102219.
  7. Pang Y., Lingamanaik, S. N., Chen, B. K., & Yu, S. F. (2020). Measurement of deformation of the concrete sleepers under different support conditions using non-contact laser speckle imaging sensor. Eng. Struct., 205, 110054