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Ming Liu

Ming Liu

Georgia Institute of Technology

H-index: 7

North America-United States

About Ming Liu

Ming Liu, With an exceptional h-index of 7 and a recent h-index of 6 (since 2020), a distinguished researcher at Georgia Institute of Technology,

His recent articles reflect a diverse array of research interests and contributions to the field:

Force relaxation response in the poroelastic axisymmetric Boussinesq problem for an indenter of arbitrary profiles I: Permeable and impermeable surface drainage conditions

Legitimacy of the Hertzian Assumptions for Poroelastic Spherical Indentation

Finite element modeling of poroelastic spherical indentation with frictionless contact

On Poroelastic and Poro-elasto-plastic Hertzian Contact Problems

Poroelastic response of spherical indentation into a half space with an impermeable surface via step displacement

Finite element modeling of spherical indentation in a poro‐elasto‐plastic medium via step displacement loading

Finite element implementation for fully coupled hydromechanical modeling of spherical indentation

Ming Liu Information

University

Position

___

Citations(all)

182

Citations(since 2020)

121

Cited By

106

hIndex(all)

7

hIndex(since 2020)

6

i10Index(all)

4

i10Index(since 2020)

4

Email

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University Profile Page

Georgia Institute of Technology

Google Scholar

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Top articles of Ming Liu

Title

Journal

Author(s)

Publication Date

Force relaxation response in the poroelastic axisymmetric Boussinesq problem for an indenter of arbitrary profiles I: Permeable and impermeable surface drainage conditions

Journal of the Mechanics and Physics of Solids

Ming Liu

Xin Wen

2024/3/1

Legitimacy of the Hertzian Assumptions for Poroelastic Spherical Indentation

Ming Liu

Haiying Huang

2023/6/25

Finite element modeling of poroelastic spherical indentation with frictionless contact

Ming Liu

Haiying Huang

2021/6/18

On Poroelastic and Poro-elasto-plastic Hertzian Contact Problems

Ming Liu

2021/5/4

Poroelastic response of spherical indentation into a half space with an impermeable surface via step displacement

Journal of the Mechanics and Physics of Solids

Ming Liu

Haiying Huang

2021/10/1

Finite element modeling of spherical indentation in a poro‐elasto‐plastic medium via step displacement loading

International Journal for Numerical and Analytical Methods in Geomechanics

Ming Liu

Haiying Huang

2021/7

Finite element implementation for fully coupled hydromechanical modeling of spherical indentation

Ming Liu

Haiying Huang

2020/6/28

See List of Professors in Ming Liu University(Georgia Institute of Technology)