Contact


Department of Civil Engineering
International University, Vietnam National University HCMC
Linh Trung Ward, Thu Duc District, Ho Chi Minh City, Vietnam.

 
Qualifications
  • MSc in Civil Engineering, HCMC University of Technology, Viet Nam, 2013.
  • BEng, in Civil Engineering, HCMC University of Technology, Viet Nam, 2011.
Research interests
  • Computational Mechanics, Computational Plasticity (Limit and Shakedown Analysis)
  • Numerical Methods: meshfree methods, finite elements, SFEM
  • Optimization algorithms: second-order cone programming
  • Multi-scale modelling, macro-micro computational homogenization

Research projects
  1. "Mechanical behavior of elastic-plastic materials and structures under cyclic loads" funded by NAFOSTED, 2018. Role: Researcher.
  2. "Direct methods for limit state analysis of structures and materials under varying thermo-mechanical loading" funded by NAFOSTED, 2016-2018. Role: Researcher.
  3. "Development of the Intergrated radial babsis function-based meshless method for limit and shakedown analysis of structures" funded by the Institute for Computational Science and Technology (ICST) and Science and Technology Incubator Youth Program, HCMC, 2017. Role: Principal Investigator.

Publications

International Peer-Reviewed Journals

  1. Le, C. V., Ho, P. L., Nguyen, P. H., & Chu, T. Q. (2015). Yield design of reinforced concrete slabs using a rotation-free meshfree method. Engineering Analysis with Boundary Elements50, 231-238.
  2. Ho, P. L., Le, C. V., & Tran-Cong, T. (2016). Displacement and equilibrium mesh-free formulation based on integrated radial basis functions for dual yield design. Engineering Analysis with Boundary Elements71, 92-100.
  3. Ho, P. L. H., Le, C. V., & Chu, T. Q. (2017). The equilibrium cell-based smooth finite element method for shakedown analysis of structures. International Journal of Computational Methods, 1840013.
  4. Ho, P. L., Le, C. V., & Tran-Cong, T. (2018). Limit state analysis of reinforced concrete slabs using an integrated radial basis function based mesh-free method. Applied Mathematical Modelling53, 1-11.

National Journals

  1. Le, C. V., Ho, P. L., & Nguyen, H. T. (2016). Airy-based equilibrium mesh-free method for static limit analysis of plane problems. Vietnam Journal of Mechanics38(3), 167-179.

 International Proceeding Conferences

  1. Phuc L.H. Ho, & Canh V. Le (2014). Upper-bound limit analysis of plane problems using radial basis function base mesh-free method. The 2nd International Conference on Computational Science and Engineering. HCM city, Vietnam, 2014.
  2. Phuc L.H. Ho, & Canh V. Le (2015). Computation of lower-bound limit load using radial point interpolation method. International Conference on Multiphisical Interaction and Environment. Vinh Long, Vietnam, 2015.
  3. Phuc L.H. Ho, Canh V. Le, & Thang Q. Chu (2016). The equilibrium cell-based smooth finite element method for shakedown analysis of structures. 7th International Conference on Computational Methods. Berkeley, CA, USA, 2016.

 National conference

  1. Phuc L.H. Ho, Canh V. Le, & Thang Q. Chu (2013). Computaion of upper-bound limit load for reinforced concrete slabs using EFG method. National Conference on Solid Mechanics. HCM city, Vietnam, 2013.
  2. Phuc L.H. Ho, Liem N. Anh, & Canh V. Le (2015). A multiple basis function-based mesh-free method for lower bound limit analysis. National Conference on Solid Mechanics. Danang, Vietnam, 2015.
  3. Phuc L.H. Ho, & Canh V. Le (2015).  Equilibrium formulation of limit and shakedown analysis using Element-free Galerkin method. National Conference on Engineering Mechanics. Danang, Vietnam, 2015.
  4. Phuc L.H. Ho, Canh V. Le, & Chanh T. Ngo (2017). A static shakedown formulation of structures using the node-based smoothed finite element method and second-order cone programming. National Conference on Mechanics. Hanoi, Vietnam, 2017.
  5. Phuc L.H. Ho, Canh V. Le, & Thanh Tran-Cong (2017). The shakedown state analysis of structures using an equilibrium mesh-free formulation based on the integrated radial basis functions.  National Conference on Mechanics. Hanoi, Vietnam, 2017.
  6. Phuc L.H Ho, Phuong H. Nguyen, Canh V. Le, Hung D. Phan, & Thanh Tran-Cong (2019). A computational homogenization analysis of materials using the integrated radial basis functions-based meshless method. National Conference on Engineering Mechanics. Hanoi, Vietnam, 2019.


dummy