Publications
Full list of publications (ISI peer-reviewed only):
http://scholar.google.com/citations?hl=en&user=arV1Pk8AAAAJ
https://www.researchgate.net/profile/Tinh_Quoc_Bui
Note: * represents the Corresponding Author
* Continuum damage & phase field models
Main Collaborators: Nguyen TT (Luxembourg Univ.), XF Hu (Dalian Univ. Tech.), Le VL (Tech Univ.)
Nguyen TT, Waldmann D, Bui QT*. Role of interfacial transition zone in phase field modeling of fracture in layered heterogeneous structures. Journal of Computational Physics 2019; 386:585-610.
Nguyen TT, Waldmann D, Bui QT. Computational chemo-thermo-mechanical coupling phase-field model for complex fracture induced by early-age shrinkage and hydration heat in cement-based materials. Computer Methods in Applied Mechanics and Engineering 2019; 348:1-28.
Nguyen TT, Waldmann D, Bui QT. Phase field simulation of early-age fracture in cement-based materials. International Journal of Solids and Structures 2020 (In Press)
Zhang P, Feng Y, Bui QT, Hu XF, Yao W. Modelling distinct failure mechanisms in composite materials by a combined phase field method. Composite Structures 2020; 232:111551.
Zhang P, Hu XF, Bui QT, Yao W. Phase field modeling of fracture in fiber reinforced composite laminate. International Journal of Mechanical Sciences 2019; 161-162:105008
Nguyen HAT, Bui QT*, Hirose S. Smoothing gradient damage model with evolving anisotropic nonlocal interactions tailored to low-order finite elements. Computer Methods in Applied Mechanics and Engineering 2018; 328:498-541.
Patil RU, Mishra BK, Singh IV, Bui QT. A new multiscale phase field method to simulate failure in composites. Advances in Engineering Software 2018; 126:9-33
Doan DH, Bui QT*, Do VT, Nguyen DD. A rate-dependent hybrid phase field model for dynamic crack propagation. Journal of Applied Physics 2017; 122:115102.
Doan HD, Bui QT*, Nguyen DD, Fushinobu K. Hybrid phase field simulation of dynamic crack propagation in functionally graded glass-filled epoxy. Composites Part B: Engineering2016; 99:266-276.
Le VL, Shimada Ta, Wang J, Dinh VH, Bui QT, Kitamura T. Switching the chirality of a ferroelectric vortex in designed nanostructures by a homogeneous electric field. Physical Review B 2017, 96:134119
* Mechanics of Plates/Shells
Main Collaborators: S. Tanaka (Hiroshima Univ.), TT Yu (Hohai Univ), Ozdemir (Ordu Univ.)
Vu TV, Khosravifard A, Hematiyan MR, Bui QT*. A new refined simple TSDT-based meshfree method for analysis of through-thickness FG plates. Applied Mathematical Modelling 2018; 57:514-534.
Liu S, Yu TT, Le VL, Yin SH, Bui QT*. Size effect on cracked functionally composite micro-plates by an XIGA-based effective approach. Meccanica 2018; 53:2637-2658.
Wattanasakulpong N, Bui QT*. Vibration analysis of third-order shear deformable FGM beams with elastic support by Chebyshev collocation method. International Journal of Structural Stability and Dynamics 2018; Vol. 18, No. 5, 1850071.
Do VT, Doan HD, Nguyen DD, Bui QT*. Phase-field thermal buckling analysis of cracked functionally graded composite plates considering neutral surfaces. Composites Structures 2017; 182:542–548
Bui QT*, Nguyen NM. A novel meshfree model for buckling and vibration analysis of rectangular orthotropic plates. Structural Engineering and Mechanics 2011; 39:579-598.
Bui QT*, Khosravifard A, Zhang Ch, Hematiyan MR, Golub MV. Dynamic analysis of sandwich beams with functionally graded core using a truly meshfree radial point interpolation method. Engineering Structures 2013; 47:90-104.
Valizadeh N, Natarajan S, Gonzalez-Estrada OA, Rabczuk T, Bui QT, Bordas SPA. NURBS-based finite element analysis of functionally graded plates: Static bending, vibration, buckling and flutter. Composite Structures 2013; 99:309-326.
Valizadeh N, Bui QT*, Vu TV, Thai HT, Nguyen NM. Isogeometric simulation for buckling, free and forced vibration of orthotropic plates. International Journal of Applied Mechanics 2013; 5:1350017.
Bui QT*, Nguyen NM. Meshfree Galerkin Kriging model for bending and buckling analysis of simply supported laminated composite plates. International Journal of Computational Methods 2013; 10:1350011.
Shojaee S, Valizadeh N, Izadpanah E, Bui QT, Vu TV. Free vibration and buckling analysis of laminated composite plates using the NURBS-based isogeometric finite element method. Composite Structures 2012; 94:1677-1693.
Ozdemir M, Tanaka S, Sadamoto S, Yu TT, Bui QT. Numerical buckling analysis for flat and cylindrical shells including through crack employing effective reproducing kernel meshfree modeling. Engineering Analysis with Boundary Elements 2018; 97:55-66.
Liu P, Duan HG, Le VL, Ye T, Bui QT*. Buckling of stomatopod-dactyl-club-inspired functional gradient plates: A numerical study. Composite Structures 2019; 207:801-815.
* Mechanics of 3D Braided Composites
Main Collaborators: C. Zhang (Jiangsu Univ.), Curiel-Sosa (Sheffield Univ.)
Zhang C, Curiel-Sosa LT, Bui QT*. Meso-scale progressive damage modeling and life prediction of 3D braided composites under fatigue tension loading. Composite Structures 2018; 201:62-71
Zhang C, Curiel-Sosa LJ, Bui QT. Meso-scale finite element analysis of mechanical behavior of 3D braided composites subjected to biaxial tension loadings. Applied Composite Materials 2019; 26:139-157
Zhang C, Mao CJ, Curiel-Sosa LJ, Bui QT. Meso-scale finite element simulations of 3D braided textile composites: Effects of force loading modes. Applied Composite Materials 2018; 25:823-841.
Zhang C, Curiel-Sosa LJ, Bui QT. A novel interface constitutive model for prediction of stiffness and strength in 3D braided composites. Composite Structures 2017; 163:32-43.
Zhang C, Curiel-Sosa LJ, Bui QT. Comparison of periodic mesh and free mesh on the mechanical properties prediction of 3D braided composites. Composite Structures 2017; 159:667-676.
* Fracture in Smart Functional Materials
Lei J, Yun L, Bui QT. Numerical simulation of crack growth in piezoelectric structures by BEM. Engineering Analysis with Boundary Elements 2017; 85:30-42.
Bui QT*, Hirose S, Zhang Ch, Rabczuk T, Wu CT, Saitoh T, Lei J. Extended isogeometric analysis for dynamic fracture in multiphase piezoelectric/piezomagnetic composites. Mechanics of Materials2016; 97:135-163.
Sharma K, Bui QT*, Bhargava RR, Yu TT, Lei J, Hirose S. Numerical studies of an array of equidistant semi-permeable inclined cracks in 2-D piezoelectric strip using distributed dislocation method. International Journal of Solids and Structures 2016; 80:137-145.
Bui QT*. Extended isogeometric dynamic and static fracture analysis for cracks in piezoelectric materials using NURBS. Computer Methods in Applied Mechanics and Engineering, 2015; 295:470-509.
Yu TT, Bui QT*, Liu P, Zhang Ch, Hirose S. Interfacial dynamic impermeable cracks analysis in dissimilar piezoelectric materials under coupled electromechanical loading with the extended finite element method. International Journal of Solids and Structures2015; 67-68:205-218.
Lei J, Zhang Ch, Bui QT. Transient dynamic interface crack analysis in magnetoelectroelastic bi-materials by a time-domain BEM. European Journal of Mechanics - A/Solids2015; 49:146-157.
Lei J, Sun P, Bui QT. Determination of fracture parameters for interface cracks in transverse isotropic magnetoelectroelastic composites. Curved and Layered Structures2015; 2:271-278.
Liu P, Yu TT, Bui QT*, Zhang Ch, Xu Y, Lim CW. Transient thermal shock fracture analysis of functionally graded piezoelectric materials by the extended finite element method. International Journal of Solids and Structures2014; 51:2167-2182.
Liu P, Yu TT, Bui QT*, Zhang Ch. Transient dynamic crack analysis in non-homogeneous functionally graded piezoelectric materials by the X-FEM. Computational Materials Science 2013; 69:542-558.
Sharma K, Bui QT*, Zhang Ch, Bhargava RR. Analysis of a subinterface crack in piezoelectric bimaterials with the extended finite element method. Engineering Fracture Mechanics2013; 104:114-139.
Bui QT*, Zhang Ch. Analysis of generalized dynamic intensity factors of cracked magnetoelectroelastic solids by X-FEM. Finite Elements in Analysis and Design 2013; 69:19-36.
Bui QT*, Zhang Ch. Extended finite element simulation of stationary dynamic cracks in piezoelectric solids under impact loading. Computational Materials Science 2012; 62:243-257.
* Fracture in Solids & Functional Composites
Bui QT*, Nguyen TN, Le VL, Nguyen NM, Truong TT. Analysis of transient dynamic fracture parameters of cracked functionally graded composites by improved meshfree methods. Theoretical and Applied Fracture Mechanics 2018; 96:642-657
Kang Z, Bui QT*, Nguyen DD, Hirose S. Dynamic stationary crack analysis of isotropic solids and anisotropic composites by enhanced local enriched consecutive-interpolation elements. Composite Structures 2017; 180:221-233.
Bhattacharya S, Singh IV, Mishra BK, Bui QT. Fatigue crack growth simulations of interfacial cracks in bi-layered FGMs using XFEM. Computational Mechanics 2013; 52:799-814.
[120] Gu J, Yu TT, Le VL, Nguyen TT, Tanaka S, Bui QT*. Multi-inclusions modeling by adaptive XIGA based on LR B-splines and multiple level sets. Finite Elements in Analysis and Design 2018 (In Press)
[119] Gu J, Yu TT, Le VL, Nguyen TT, Bui QT*. Adaptive multi-patch isogeometric analysis based on locally refined B-splines. Computer Methods in Applied Mechanics and Engineering 2018; 339:704-738
[114] Thai DK, Kim SE, Bui QT. Modified empirical formulas for predicting the thickness of RC panels under impact loading. Construction and Building Materials 2018; 169:261-275
[113] Phan HD, Bui QT, Nguyen TLH, Pham CV. Computation of interface wave motions by reciprocity considerations. Wave Motion 2018; 79:10-22
[112] Yu TT, Lai W, Bui QT*. Three-dimensional elastoplastic solids simulation by an effective IGA based on Bezier extraction of NURBS. International Journal of Mechanics and Materials in Design 2018 (In Press)
[110] Sun SH, Yu TT, Nguyen TT, Atroshchenko E, Bui QT*. Structural shape optimization by IGABEM and particle swarm optimization. Engineering Analysis with Boundary Elements 2018; 88:26-40.
[109] Le VL, Shimada T, Wang J, Masuda K, Bui QT, Dinh VH, Kitamura T. Continuum thermodynamics of unusual domain evolution-induced toughening effect in nanocracked strontinum titanate. Engineering Fracture Mechanics 2018; 190:232-244.
[108] An Z, Yu TT, Bui QT*, Wang C, Trinh AN. Implementation of isogeometric boundary element method for 2-D steady heat transfer analysis. Advances in Engineering Software 2018; 116:36-49.
[105] Yu TT, Bui QT*. Numerical simulation of 2-D weak and strong discontinuities by a novel approach based on XFEM with local mesh refinement. Computers & Structures 2018, 196:112-133
[104] Yi G, Yu TT, Bui QT*, Tanaka S. Bi-material V-notched SIFs analysis by XFEM and conservative integral approach. Computers & Structures 2018, 196:217-232
[103] Imachi M, Tanaka S, Bui QT. Mixed-mode DSIFs evaluation using ordinary state-based peridynamics employing the path-independent interaction integral. Theoretical and Applied Fracture Mechanics 2018, 94:97-104
[2017]
[101] Liu S, Yu TT, Bui QT*. Size effects of functionally graded moderately thick microplates: A non-classical simple-FSDT isogeometric analysis. European Journal of Mechanics - A/Solids 2017, 66:446-458.
[100] Nguyen NM, Bui QT*, Nguyen TN, Truong TT, Le VL. Simulation of dynamic and static thermoelastic fracture problems by extended nodal gradient finite elements. International Journal of Mechanical Sciences 2017, 134:370-386
[95] Wu CT, Bui QT, Wu Y, Luo TL, Wang M, Liao CC, Chen PY, Lai YS. Numerical and experimental validation of a particle Galerkin method for metal grinding simulation. Computational Mechanics 2017 (Online, In Press)
[94] Ma C, Yu TT, Le VL, Bui QT*. An effective computational approach based on XFEM and a novel three-step detection algorithm for multiple complex flaw clusters. Computers & Structures 2017; 193:207-225
[92] Do VT, Nguyen DK, Nguyen DD, Doan HD, Bui QT*. Analysis of bi-directional functionally graded plates by FEM and a new third-order shear deformation plate theory. Thin-Walled Structures 2017; 119:687-699.
[91] Yin S, Yu TT, Bui QT, Zheng X, Yi G. Rotation-free isogeometric analysis of functionally graded thin plates considering in-plane material inhomogeneity. Thin-Walled Structures 2017; 119:385-395
[90] Do VT, Bui QT*, Yu TT, Pham TD, Nguyen TC. Role of material combination and new results of mechanical behavior for FG sandwich plates in thermal environment. Journal of Computational Science 2017; 21:164-181.
[89] Mehar K, Panda SK, Bui QT, Mahapatra TR. Nonlinear thermoelastic frequency analysis of functionally graded CNT-reinforced single/doubly curved shallow shell panels by FEM. Journal of Thermal Stresses 2017; 40:899-916.
[88] Sadamoto S, Tanaka S, Taniguchi K, Ozdemir M, Bui QT, Murakami C, Yanagihara D. Buckling analysis of stiffened plate structures by an improved meshfree flat shell formulation. Thin-Walled Structures 2017; 117:303-313
[87] Nguyen NM, Bui QT*, Truong TT, Tanaka S, Hirose S. Numerical analysis of 3-D solids and composite structures by an enhanced 8-node hexahedral element. Finite Elements in Analysis and Design 2017; 131:1-16
[86] Liu S, Yu TT, Bui QT*, Yin SH, Thai DK, Tanaka S. Analysis of functionally graded plates by a simple locking-free quasi-3D hyperbolic plate isogeometric method. Composites Part B: Engineering 2017; 120:182-196
[85] Vu TV, Nguyen NH, Khosravifard A, Hematiyan MR, Tanaka S, Bui QT*. A simple FSDT-based meshfree method for analysis of functionally graded plates. Engineering Analysis with Boundary Elements 2017, 79:1-12
[84] Hu X, Bui QT*, Wang J, Yao W, Ton THL, Singh IV, Tanaka S. A new cohesive crack tip symplectic analytical singular element involving plastic zone length for fatigue crack growth prediction under variable amplitude cyclic loading. European Journal of Mechanics - A/Solids 2017, 65:79-90
[83] Liu S, Yu TT, Bui QT*, Xia S. Size-dependent analysis of homogeneous and functionally graded microplates using IGA and a non-classical Kirhhoff plate theory. Composite Structures 2017; 172:34-44
[82] Liu P, Zhu D, Wang JW, Bui QT. Structure, mechanical behavior and puncture resistance of grass carp scales. Journal of Bionic Engineering 2017, 14:356-368
[81] Yoshida K, Sadamoto S, Setoyama Y, Tanaka S, Bui QT, Murakami C, Yanagihara D. Meshfree flat-shell formulation for evaluating buckling loads and mode shapes of structural plates. Journal of Marine Science and Technology 2017; 22:501-512
[80] Sadamoto S, Ozdemir M, Tanaka S, Taniguchi K, Yu TT, Bui QT. An effective meshfree reproducing kernel method for buckling analysis of cylindrical shells with and without cutouts. Computational Mechanics 2017 59:919-932
[79] Yi G, Yu TT, Bui QT*, Ma C, Hirose S. SIFs evaluation of sharp V-notched fracture by XFEM and strain energy approach. Theoretical and Applied Fracture Mechanics 2017; 89:35-44
[78] Singh SK, Singh IV, Mishra BK, Bhardwaj G, Bui QT. A simple, efficient and accurate Bézier extraction based T-spline XIGA for crack simulations. Theoretical and Applied Fracture Mechanics 2017; 88:74-96
[77] Nguyen TN, Bui QT*, Truong TT. Transient dynamic fracture analysis by an extended meshfree method with different crack-tip enrichments. Meccanica 2017; 52:2363-2390.
[76] Lai W, Yu TT, Bui QT*, Wang Z, Curiel-Sosa J, Das R, Hirose S. 3-D elasto-plastic large deformations: IGA simulation by Bézier extraction of NURBS. Advances in Engineering Software 2017; 168:68-82
[75] Tanaka S, Suzuki H, Sadamoto S, Okazawa S, Yu TT, Bui QT. Accurate evaluation of mixed-mode intensity factors of cracked shear-deformable plates by an enriched meshfree Galerkin formulation. Archive of Applied Mechanics 2017; 87:279-298.
[74] Yu TT, Yin SH, Bui QT*, Liu C, Wattanasakulpong N. Buckling isogeometric analysis of functionally graded plates under combined thermal and mechanical loads. Composite Structures 2017; 162:54-69.
[73] Sannomaru S, Tanaka S, Yoshida K, Bui QT, Okazawa S, Hagihara S. Treatment of Dirichlet-type boundary conditions in the spline-based wavelet Galerkin method employing multiple point constraints. Applied Mathematical Modelling 2017; 43:592-610.
[72] Kang Z, Bui QT*, Saitoh T, Hirose S. Quasi-static crack propagation simulation by an enhanced nodal gradient finite element with different enrichments. Theoretical and Applied Fracture Mechanics 2017; 87:61-77.
[71] Khosravifard A, Hematiyan MR, Bui QT*, Do VT. Accurate and efficient analysis of stationary and propagating crack problems by meshless methods. Theoretical and Applied Fracture Mechanics 2017; 87:21-34.
[68] Wang Z, Yu TT, Bui QT*, Tanaka S, Zhang Ch, Hirose S, Curiel-Sosa LJ. 3-D local mesh refinement XFEM with variable-node hexahedron elements for extraction of stress intensity factors of straight and curved planar cracks. Computer Methods in Applied Mechanics and Engineering 2017; 313:375-405.
[2016]
[67] Bui QT*, Doan HD, Do VT, Hirose S, Nguyen DD. High frequency modes meshfree analysis of Reissner–Mindlin plates. Journal of Science: Advanced Materials and Devices 2016; 1:400-412.
[66] Wang Z, Yu TT, Bui QT*, Trinh AN, Nguyen THL, Nguyen DD, Hoan HD. Numerical modeling of 3-D inclusions and voids by a novel adaptive XFEM. Advances in Engineering Software 2016; 102:105-122.
[65] Yin SH, Yu TT, Bui QT*, Zheng XJ, Tanaka S. In-plane material inhomogeneity of functionally graded plates: A higher-order shear deformation plate isogeometric analysis. Composites Part B: Engineering 2016; 106:273-284.
[64] Yin SH, Yu TT, Bui QT*, Liu P, Hirose S. Buckling and vibration extended isogeometric analysis of imperfect graded Reissner-Mindlin plates with internal defects using NURBS and level sets. Computers & Structures 2016; 177:23-38.
[63] Nguyen NM, Bui QT*, Truong TT, Trinh AN, Singh IV, Yu TT, Doan HD. Enhanced nodal gradient 3D consecutive-interpolation tetrahedral element (CTH4) for heat transfer analysis. International Journal of Heat and Mass Transfer 2016; 103: 14-27.
[62] Wu L, Liu P, Shi C, Zhang Z, Bui QT, Jiao D. Edge-based smoothed extended finite element method for dynamic fracture analysis. Applied Mathematical Modelling 2016; 40:8564-8579.
[61] Tanaka S, Suzuki H, Sadamoto S, Sannomaru S, Yu TT, Bui QT. J-integral evaluation for 2D mixed-mode crack problems employing a meshfree stabilized conforming nodal integration method. Computational Mechanics 2016; 58:185-198.
[59] Liu P, Zhu D, Yao Y, Wang JW, Bui QT. Numerical simulation of ballistic impact behavior of bio-inspired scale-like protection system. Materials & Design 2016; 99:201-210.
[58] Bui QT*, Do VT, Ton THL, Doan HD, Tanaka S, Pham TD, Nguyen-Van TA, Yu TT, Hirose S. On the high temperature mechanical behaviors analysis of heated functionally graded plates using FEM and a new third-order shear deformation plate theory. Composites Part B: Engineering 2016; 92:218-241.
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[56] Maruyama T, Saitoh T, Bui QT, Hirose S. Transient elastic wave analysis of 3-D large-scale cavities by fast multipole BEM using implicit Runge–Kutta convolution quadrature. Computer Methods in Applied Mechanics and Engineering 2016; 303:231-259.
[55] Bui QT*, Nguyen DD, Zhang XD, Hirose S, Batra RC. Analysis of 2-dimensional transient problems for linear elastic and piezoelectric structures using the consecutive-interpolation quadrilateral element (CQ4). European Journal of Mechanics - A/Solids 2016; 58:112-130.
[54] Yu TT, Yin SH, Bui QT*, Xia SF, Tanaka S, Hirose S. NURBS-based isogeometric analysis of buckling and free vibration problems for laminated composites plates with complicated cutouts using a new simple FSDT theory and level set method. Thin-Walled Structures 2016; 101:141-156.
[2015]
[51] Yu TT, Bui QT*, Liu P, Hirose S. A stabilized discrete shear gap extended finite element for the analysis of cracked Reissner–Mindlin plate vibration problems involving distorted meshes. International Journal of Mechanics and Materials in Design 2015; 12:85-107.
[50] Yu TT, Yin SH, Bui QT*, Hirose S. A simple FSDT-based isogeometric analysis for geometrically nonlinear analysis of functionally graded plates. Finite Elements in Analysis and Design 2015; 96:1-10.
[49] Bhardwaj G, Singh IV, Mishra BK, Bui QT. Numerical simulation of functionally graded cracked plates using NURBS based XIGA under different loads and boundary conditions. Composite Structures 2015; 126:347-359.
[47] Shi L, Yu TT, Bui QT. Numerical modeling of hydraulic fracturing in rock mass by XFEM. Soil Mechanics and Foundation Engineering 2015; 52:74-83.
[45] Yu TT, Bui QT*, Yin SH, Doan HD, Wu CT, Do VT, Tanaka S. On the thermal buckling analysis of functionally graded plates with internal defects using extended isogeometric analysis. Composite Structures 2015; 136:684-695.
[44] Kang Z, Bui QT*, Nguyen DD, Saitoh T, Hirose S. An extended consecutive-interpolation quadrilateral element (XCQ4) applied to linear elastic fracture mechanics. Acta Mechanica 2015; 226:3391-4015.
[43] Tanaka S, Suzuki H, Sadamoto S, Imachi M, Bui QT. Analysis of cracked shear deformable plates by an effective meshfree plate formulation. Engineering Fracture Mechanics 2015; 144:142-157.
[41] Liu P, Bui QT*, Zhu D, Yu TT, Wang JW, Yin SH, Hirose S. Buckling failure analysis of cracked functionally graded plates by a stabilized discrete shear gap extended 3-node triangular plate element. Composites Part B: Engineering 2015; 77:179-193.
[40] Yin SH, Yu TT, Bui QT*, Xia SF, Hirose S. A cutout isogeometric analysis for thin laminated composite plates using level sets. Composite Structures2015; 127:152-164.
[39] Yin SH, Yu TT, Bui QT, Nguyen NM. Geometrically nonlinear analysis of functionally graded plates using isogeometric analysis. Engineering Computations 2015; 32:519-558.
[38] Zhang XD, Bui QT. A fictitious crack XFEM with two new solution algorithms for cohesive crack growth modeling in concrete structures. Engineering Computations 2015; 32:473-497
[2014]
[37] Yin SH, Hale JS, Yu TT, Bui QT*, Bordas SPA. Isogeometric locking-free plate element: A simple first order shear deformation theory for functionally graded plates. Composite Structures 2014; 118:121-138.
[36] Nguyen NM, Bui QT*, Yu TT, Hirose S. Isogeometric analysis for unsaturated flow problems. Computers and Geotechnics 2014; 257-267.
[35] Tsai MC, Lee HH, Bui QT, Zhang Ch. Offshore structural dynamic analysis considering soil-structure interaction by a coupled BEM and meshfree method. Journal of Marine Science and Technology 2014; 22:625-642.
[34] Lei J, Wang HY, Zhang Ch, Bui QT, Garcia-Sanchez F. Comparison of several BEM-based approaches in evaluating crack-tip field intensity factors in piezoelectric materials. International Journal of Fractures 2014; 189:111-120.
[33] Bui QT*, Vo QD, Zhang Ch, Nguyen DD. A consecutive-interpolation quadrilateral element (CQ4): Formulation and applications. Finite Elements in Analysis and Design 2014; 84:14-31.
[32] Nguyen TN, Bui QT*, Zhang Ch, Truong TT. Crack growth modeling in elastic solids by the extended meshfree Galerkin radial point interpolation method. Engineering Analysis with Boundary Elements 2014; 44:87-97.
[31] Tong LH, Lim CW, Li YC, Zhang Ch, Bui QT. Generation of mirage effect by heated carbon nanotube thin film. Journal of Applied Physics 2014; 115:244905.
[30] Fomenko SI, Golub MV, Zhang Ch, Bui QT, Wang YS. In-plane elastic wave propagation and band-gaps in layered functionally graded phononic crystals. International Journal of Solids and Structures 2014; 51:2491-2503.
[28] Bui QT*, Tran AV, Shah AA. Improved knowledge-based neural network (KBNN) model for predicting spring-back angles in metal sheet bending. International Journal of Modeling, Simulation, and Scientific Computing 2014; 05:1350026.
[27] Hedayatrasa S, Bui QT*, Zhang Ch, Lim CW. Numerical modeling of wave propagation in functionally graded materials using time-domain spectral Chebyshev elements. Journal of Computational Physics 2014; 258:381-404.
[26] Thai HT, Vo T, Bui QT, Nguyen TK. A quasi-3D hyperbolic shear deformation theory for functionally graded plates. Acta Mechanica 2014; 225:951-964.
[2013]
[18] Hematiyan MR, Khosravifard A, Bui QT. Efficient evaluation of weakly/strongly singular domain integrals in the BEM using a singular nodal integration method. Engineering Analysis with Boundary Elements 2013; 37:691-698.
[2012]
[15] Razmjoo H, Movahhedi M, Aminian A, Bui QT. Photonics bandgap computations using novel periodic meshless methods. ACES Journal - The Applied Computational Electromagnetics Society 2012;27: 977-982
[14] Vu TV, Lee HE, Bui QT. Nonlinear analysis of cable-supported structures with a spatial catenary cable element. Structural Engineering and Mechanics 2012; 43:583-605.
[13] Liu P, Bui QT*, Zhang Ch, Yu TT, Liu GR, Golub MV. The singular edge-based smoothed finite element method for stationary dynamic crack problems in 2D elastic solids. Computer Methods in Applied Mechanics and Engineering 2012; 233:68-80.
[12] Racz D, Bui QT. Novel adaptive meshfree integration techniques in meshless methods. International Journal for Numerical Methods in Engineering2012; 90:1414-1434.
[10] Golub MV, Fomenko SI, Bui QT, Zhang Ch, Wang Y-S. Transmission and band gaps of elastic SH waves in functionally graded periodic laminates. International Journal of Solids and Structures 2012; 49:344-354.
[2011]
[9] Bui QT*, Nguyen NM, Zhang Ch. A meshfree model without shear-locking for free vibration analysis of first-order shear deformable plates. Engineering Structures 2011; 33:3364-3380.
[8] Bui QT*, Nguyen NM, Zhang Ch. Buckling analysis of Reissner-Mindlin plates subjected to in-plane edge loads using a shear-locking-free and meshfree method. Engineering Analysis with Boundary Elements 2011; 35:1038-1053.
[7] Bui QT*, Nguyen NM. Eigenvalue analysis of thin plate with complicated shapes by a novel mesh-free method. International Journal of Applied Mechanics 2011; 3:21-46.
[6] Bui QT*, Nguyen NM, Zhang Ch. An efficient meshfree method for vibration analysis of laminated composite plates. Computational Mechanics2011; 48:175-193.
[5] Bui QT*, Nguyen NM, Zhang Ch, Pham DAK. An efficient meshfree method for analysis of two-dimensional piezoelectric structures. Smart Materials and Structures 2011; 20:065016
[4] Bui QT*, Nguyen NM, Zhang Ch. A moving Kriging interpolation-based element-free Galerkin method for structural dynamic analysis. Computer Methods in Applied Mechanics and Engineering 2011; 200:1354-1366.
[3] Bui QT*, Nguyen NM. A moving Kriging interpolation-based meshfree method for free vibration analysis of Kirchhoff plates. Computers & Structures 2011; 89:380-394.
[2009]
[1] Bui QT*, Nguyen TN, Nguyen-Dang H. A moving Kriging interpolation‐based meshless method for numerical simulation of Kirchhoff plate problems. International Journal for Numerical Methods in Engineering 2009; 77:1371-1395
* Unpublished Articles
[1] Bui QT, Nguyen NM, Valizadeh. NURBS-based isogeometric analysis in piezoelectricity. 2011.
* Selected Conferences & Talks
[31] Bui QT. (Invited Talk) Numerical Approaches for Failure Modeling of Concrete. Japan-Taiwan International Engineering Forum. Tokyo Institute of Technology, Japan, March 9-10, 2017.
[30] Bui QT. Numerical Strategies of Z-pinning Problems in Laminated Composites. SMS Center, Ecole Nationales Superieure des Mines Saint-Etienne, October 09th, 2009
[29] Bui QT (training/series lectures). Computational Intelligence – Non-Traditional Approaches – Fundamental and Its Applications to Practical Problems. Department of Mechanical and Environmental Informatics, Tokyo Institute of Technology, Japan, 2014-2015
[28] Bui QT (Invited lecture). Failure of materials and structures. Science Dialogue Program – Japan Society for the Promotion of Science, Fukui Prefecture Koshi Senior High School, Fukui, Japan, November 22nd, 2014
[27] Bui QT (Invited lecture). Computational Science and Engineering – An Introduction. Science Dialogue Program – Japan Society for the Promotion of Science, Gifu Prefecture Kamo Seniro High School, Minokamo City, Gifu, Japan, November 16th , 2015
[26] Bui QT (Invited lecture). Recent developments of advanced structural analysis for solids and structures. Graduate School of Engineering, Hiroshima University, Hiroshima, Japan, October 29-30th, 2015
[25] Bui QT (Invited talk). Recent research activities and advanced numerical methods for computational fracture mechanics. Gunma University, Gunma, Japan, October 31st, 2014.
[24] Bui QT, Zhang Ch. Subinterface cracks in piezoelectric bimaterials using X-FEM. The 7th International Workshop on Direct and Inverse Problems in Piezoelectricity October 4-7th, 2011, OerErkenschwick, Germany.
[23] Bui QT, Zhang Ch. Moving Kriging interpolation-based meshfree method for dynamic analysis of structures. PAMM. Proc. Appl. Math. Mech. 11 (2011) 197-198. The 82th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) April 18-21st, 2011, Graz University of Technology, Graz, Austria
[22] Racz D, Bui QT. Novel adaptive meshless integration techniques in meshfree methods. International Conference on Computational Modeling of Fracture and Failure of Materials and Structures (CFRAC-2011), June 6-8th, 2011, Barcelona, Spain
[21] Golub MV, Fomenko SI, Bui QT, Zhang Ch. Propagation and transmission of elastic SH-waves in functionally graded phononic crystals. International Conference on Phononic Crystals, Metamaterials & Optomechanics: PHONONICS 2011, May 29th - June 2nd, 2011, Santa Fe, New Mexico, USA
[20] Hedayatrasa S, Bui QT. Wave propagation in functionally graded materials using Chebyshev spectral elements. (AJM. Ferreira, E. Carrera (Editor)) Mechanics of Nano, Micro and Macro Composite Structures, June 18-20th, 2012, Politecnico di Torino, Italy
[19] Golub MV, Zhang Ch, Fomenko SI, Bui QT. Functionally graded laminated phononic crystals with damages. The 3rd International Conference on Metamaterials, Photonic crystals and Plasmonics, META 2012, April 19-22nd , Paris, France.
[18] Bui QT, Zhang Ch. Free vibration analysis of magnetoelectroelastic beams using the mesh-free radial point interpolation method. The 6th European Congress on Computional Methods in Applied Sciences and Engineering (ECCOMASS 2012), Vienna University of Technology, September 10-14, 2012, Austria.
[17] Bui QT, Zhang Ch. Extended finite element method for dynamic fracture analysis in magnetoelectroelastic materials. The 8th International Workshop on Direct and Inverse Problems in Piezoelectricity, September 25-28, 2012, Darmstadt, Germany
[16] Bui QT, Zhang Ch. Extended finite element simulation of stationary dynamic cracks in functionally graded piezoelectric solids. The 10th International Workshop on Piezoelectric Materials and Applications in Actuators. July 14-18, 2013, Hannover, Germany.
[15] Bui QT, Zhang Ch. Crack propagation simulation by the extended meshfree radial point interpolation method (X-RPIM). Seventh International Workshop Meshfree Methods for Partial Differential Equations, September 9-11st, 2013, Bonn, Germany
[14] Bui QT, Zhang Ch. Dynamic fracture analysis in multifield coupled smart materials by XFEM. ASME 2013 International Mechanical Engineering Congress & Exposition. November 15-21st, 2013, San Diego, USA
[13] Wuensche M, Bui QT, Zhang Ch, Sladek J, Sladek V. Transient dynamic crack analysis in magnetoelectroelastic materials. 5th Asia Pacific Congress on Computational Mechanics & 4th International Symposium on ComputationalMechanics - APCOM & ISCM, December 11-14th, 2013, Singapore.
[12] Bui QT, Hirose S. Dynamic fracture modeling in multifield coupled composite materials by partition of unity finite element method (X-FEM). 17th Taiwan-Japan Joint Student Seminar on Earthquake Engineering, July 17-18th, 2014, Kyoto, Japan
[11] Bui QT (Invited talk), Hirose S, Zhang Ch. Enriched finite element analysis of generalized dynamic fracture parameters in non-homogeneous piezoelectric solids. Calculation Mathematical Engineering Reviews: Japan calculated the number of science and engineering Journal 2014 (2), 21-28, 2014-09. JASCOME Forum Conference, September 27th, 2014, Tokyo Institute of Technology, Japan.
[10] Bui QT. XFEM based transient dynamic fracture analysis in multifield coupled smart materials. In A. Bajaj, P. Zavattieri, M. Koslowski, & T. Siegmund (Eds.). Proceedings of the Society of Engineering Science 51st Annual Technical Meeting, October 1-3rd, 2014, Purdue University, USA
[9] Bui QT, Zhang Ch, Hirose S. Transient dynamic crack analysis in multifield coupled smart functional materials by the extended finite element method (XFEM). The 5th International Conference on Computational Methods (ICCM2014), July 28-30th, 2014, Cambridge, England.
[8] Bui QT, Hirose S. Adaptive multiscale extended FEM using variable-node elements for discontinuities. National Conference on Computational Engineering, August 3-5th, 2015, The University of Da Nang, Da Nang City, Vietnam
[7] Bui QT, Hirose S. Adaptive multi-scale extended finite element method for modeling two- and three-dimensional cracks. The 13th U.S. National Congress on Computational Mechanics, July 27-30th, 2015, San Diego, California, USA
[6] Doan HD, Bui QT, Satoh I, Fushinobu K. Phase-field model for laser induced thermal crack propagation. The 52nd National Heat Transfer Symposium, June 3-5th, 2015, Kyushu University, Fukuoka, Kyushu, Japan.
[5] Bui QT, Hirose S. Modeling cracks and material interfaces by an adaptive multiscale local partition of unity enriched finite element method. Engineering Mechanics Institute Conference - EMI, June 16-19th, 2015, Stanford University, Stanford, USA
[4] Bui QT, Nguyen HAT, Doan HD, Nguyen DD, Hirose S. Numerical failure simulation of quasi-brittle materials using a second-order implicit gradient damage theory. The 4th International Conference on Engineering Mechanics and Automation – ICEMA4, August 25-26, 2016, Hanoi, Vietnam
[3] Bui QT (Plenary speaker), Mathematics meets Computational Mechanics and Engineering. The 4th National Conference on Applied Mathematics, December 23-25th, 2015, Vietnam Society for Application of Mathematics - VSAM, The National Economics University, Hanoi, Vietnam
[2] Bui QT, Zhang Ch, Yu TT, Hirose S. Recent developments of local enriched partition-of-unity method for fracture modeling of smart functional materials and structures. The 12the World Congress on Computational Mechanics & The 6th Asia-Pacific Congress on Computational Mechanics WCCM XII& APCOM-VI, 24-29 July 2016, Seoul, Korea.
[1] Doan HD, Bui QT, Nguyen DD. Dynamic crack propagation in functionally graded glass-filled epoxy. The 10th Asian-Australian Conference on Composite Materials (ACCM-10), October 16-19, 2016, Bexco in Busan, South Korea.
* Dr. techn. or PhD Dissertation (2009)
PhD Title: Studies on the failure behavior of the spot welds
Main Adviser: Prof. Helmut J. Böhm
Institute of Lightweight Design and Structural Biomechanics,
Vienna University of Technology,
Austria
* Note: The degree "Dr. techn.", TU-Wien promotion, curious visitors may go to the following sites/papers:
https://www.yumpu.com/de/document/view/8832609/bulletin-tualumni/18
https://www.tualumni.at/wp-content/uploads/2014/12/VFA_Bulletin_25_online.pdf
https://www.tualumni.at/wp-content/uploads/2014/12/VFA_Bulletin_26_internet.pdf