Contact

Department of Civil Engineering International University, Vietnam National University HCMC Linh Trung Ward, Thu Duc District, Ho Chi Minh City, Vietnam. Email: hlhphuc@hcmiu.edu.vn

• PhD in Engineering Mechanics, HCMC University of Technology and Education, Viet Nam, 2021.
• MSc in Civil Engineering, HCMC University of Technology, Viet Nam, 2013.
• BEng, in Civil Engineering, HCMC University of Technology, Viet Nam, 2011.

• 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

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. Ho, P. L., Le, C. V., & Nguyen, P. H. (2021). Kinematic yield design computational homogenization of micro-structures using the stabilized iRBF mesh-free method. Applied Mathematical Modelling, 91, 322-334.
2. Ho, P. L., & Le, C. V. (2020). A stabilized iRBF mesh-free method for quasi-lower bound shakedown analysis of structures. Computers & Structures, 228, 106157.
3. 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 Modelling, 53, 1-11.
4. 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.
5. 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 Elements, 71, 92-100.
6. 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 Elements, 50, 231-238.

National Journals

1. Le, C. V., & Ho, P. L. (2020). Limit analysis of microstructures based on homogenization theory and the element-free Galerkin method. Vietnam Journal of Mechanics, 42(4), 415-426.
2. Ho, P. L. , Le, C.V. & Hung, P. D. (2020). A computational homogenization analysis of materials using the stabilized mesh-free method based on the radial basis functions. Journal of Science and Technology in Civil Engineering (STCE)-NUCE, 14(1), 65-76.
3. 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 Mechanics, 38(3), 167-179.

 International Proceeding Conferences

1. Ho, P. L., Le, C. V., & Nguyen, P. H. (2021, June). A kinematic yield design of materials using computational homogenization analysis and stabilized radial point interpolation method. In The 12th International Conference on Computational Methods (ICCM2021).
2. 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.
3. 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.
4. 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.

 National conference

1. 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.
2. 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.
3. 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.
4. 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.
5. 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.
6. 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.