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. Proc. R. Soc. 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. Proc. R. Soc. 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. J. Mech. Phys. 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