Prof. Dr.-Ing. Timon Rabczuk

Chair of Computational Mechanics, Bauhaus Universität-Weimar, Since 2009

Address

Marienstraße 15

99423 Weimar

Home page : www.uni-weimar.de/en/civil-engineering/chairs/computational-mechanics/

ISI Highly Cited Researchers 2014 in the categories 'Computer Science' and 'Engineering'

Research Interests

The research focus of Prof. Rabczuk is Computational Solid Mechanics with emphasis on method development for problems involving fracture and failure of solids and fluid-structure interaction.

Prof. Rabczuk is particularly interested in developing multiscale methods and their application to computational materials design.

• Constitutive Modeling
• Material Instabilities, Fracture, Strain Localization
• Numerical Methods (Extended Finite Element and Mesfhree Methods)
• Isogeometric Analysis
• Computational Fluid-Structure Interaction
• Biomechanical Engineering

 

 

Research Grants: EU - FP7

• 1.1.2017-31.12.2020 H2020-MSCA-RISE-2016: Environmentally best practices and optmisation in hydraulic fracturing for shale gas/oil development (BESTOFRAC), 4 academic beneficiaries and 2 industrial beneficiaries, start: 1.1.2017

• 1.6.2014-30.5.2019 ERC-CoG: Computational Modeling and Design of Lithium-ion Batteries (COMBAT), start: 1.6.2014

• 2013 ERC-CoG (5 years, 2,000,000 Euro): Computational Modeling and Design of Lithium-ion Batteries (COMBAT), start: 1.6.2014

• 2013 Coordinator and Scientist in Charge of the Marie-Curie International Incoming Fellowship (IIF) of Dr. Xiaoying Zhuang (2 years, 160,000 Euro): Computational Multiscale Modeling of Hydraulic Fracturing for shale gas development (HYDROFRAC), start envisioned: 1.7.2014

• 1.1.2012-31.12.2015 Coordinator of the FP7-ITN (Initial Training Network): Integrating Numerical Simulation and Geometric Design Technology (INSIST), 12 ESRs  and 2 ERs , 3 industrial partners and 3 academic partners, start 1.1.2012

• 1.7.2011-30.6.2015 Coordinator of the FP7-IRSES grant MultiFrac.

• 2011 Coordinator of the FP7-ITN (Initial Training Network): Integrating Numerical Simulation and Geometric Design Technology (INSIST), 3,850,000 Euro (4 years), 12 ESRs (3 years each) and 2 ERs (30 months), 3 industrial partners and 3 academic partners, start 1.1.2012

• 2010 Coordinator of the FP7-IRSES grant MultiFrac (4 years, 250,000 Euro), start 1.7.2011

 

Research Grants: DFG

• 2018 DFG grant RA 1946/31-1: Adaptive isogeometrische dreidimensionale Phasenfeldmodellierung zur morphologischen Evolution von Lipid-Doppelschichten in Wechselwirkung mit Stromungsfeldern und elektrischen Feldern, 

• 2017 DFG grant RA 1946/26-1: Isogeometrische Kollokationsverfahren für komplexe Modelle,

• 2015 DFG grant RA 1946/23-1: International Collaboration: Mehrskalen-Modellierung der Mikrostrukturevolution in polykristallinen dnnen Kupferfilmen, 

• 2015 DFG grant RA 1946/20-1 : Eine dreidimensionale mehrskalige Peridynamicsformulierung für ferroelektrische / multiferroische Tunnelkontakte,

• 2013 DFG grant RA 1946/17-1 (1 year): International Collaboration (Tongji University, China): Ein dreidimensionales thermo-mechanisches Rissmodell basierend auf PU-Methoden, start: 1.1.2014

• 2013 DFG grant RA 1946/16-1 (3 years): Eine dreidimensionale Mehrskalenmethode zurModellierung vonMaterialversagen in Nano-Verbundwerkstoffen, start: 201

• 2012 DFG grant RA 1946/14-1: International Collaboration (Jordan): Physics based virtual surgery approach using the point collocation method of finite spheres

• 2011 DFG grant RA 1946/10-1 (3 years): Eine elektro-mechanische XFEMFormulierung für Vorwärtsprobleme und inverse Probleme, start: 22.12.20

• 2011 DFG grant RA 1946/8-1 (2 years): Eine MD-XFEM Kopplung zur Simulation von quasi-sprödem Materialversagen, start: 1.2.2012

• 2011 DFG grant PO 405/13-1: Europäische Nachwuchsakademie (1 year): 'Multiscale methods for fracture in nanocomposites', start 1.12.2011 (Dr. Yancheng Zhang)

• 2010 DFG grant RA 1946/5-1 (3 years): Eine neue netzfreie Methode zur Modellierung von duktilem Materialversagen, start 1.4.2011

• 2009 DFG grant RA 1946/4-1:Workshop Technology and Society: Simulationsverfahren-Forschung für die Gesellschaft (6000 Euro)

• 2009 DFG grant RA 1946/3-1 (3 years): Robuste FSI-Verfahren für versagende dünne Strukturen, start 1.3.201

• 2009 DFG grant RA 1946/2-1 (3 years): EinMehrskalenansatz zurModellierungquasi-spröden Materialversagens, start 1.3.2010

• 2009 Aufnahme als Antragsteller im Graduiertenkolleg 'Bewertung gekoppelter numerischer Partialmodelle im konstruktiven Ingenieurbau'

 

 

 

Current Post-Doctoral Fellows

1. Dr. Bohayra Mortazavi (ERC-COMBAT)
2. Dr. Vu Bac Nam (ERC-COMBAT)
3. Dr. Khader Hamdia (ERC-COMBAT)
4. Dr. Cosmin Anitescu (DFG)
5. Dr. Guocheng Qi (CSC-DAAD)
6. Dr. Xiaotian Yang (CSC-DAAD)
7. Dr. Jahed Naghipoor (Georg-Forster Fellowship)
8. Dr. Hasan Aladad (Philipp Schwartz fellowship)
9. Dr. Simon Holl (State position)

 

Ph.D. Students

1. M.Sc. Huilong Ren (ERC-COMBAT)
2. M.Sc. Ali Hossein Nezhad Shirazi (ERC-COMBAT)
3. M.Sc. Rouzbeh Abadi (ERC-COMBAT)
4. M.Sc. Navid Valizadeh (DFG)
5. M.Sc. Ehsan Rabizadeh (DAAD)
6. M.Sc. Chiu Ling Chan (DAAD)
7. M.Sc. Chahmi Oucif (DAAD)
8. M.Sc. Jorge Lopez (DAAD)
9. M.Sc. Somdatta Goswani (DAAD)
10. M.Sc. Mohammed Ashour (DAAD)
11. John Nabil Mikhail Hanna (KAAD)
12. M.Sc. Kaichun Li (CSC)
13. M.Sc. Bokai Liu (CSC)
14. Yongzheng Zhang, (CSC)
15. Jingxin Ma, (CSC)
16. Pan Sun, (CSC)
17. M.Sc. Ali Jenabidehkordi (State position)
18. Dipl.-Ing. Daniel Haag (State position)
19. M.Sc. Arvin Mojahedin,(Bauhaus scholarship)
20. M.Sc. Ahmed Mostafa Shaaban Mohammed (Bauhaus scholarship)
21. M.Sc. Hamid reza Nouri (Scholarship of company)
22. M.Sc. Le Hien Duyen Nguyen (RISE-BESTOFRAC)
23. M.Sc. Luthfi Mohammad Mauludin (RISTEK-DIKTI (Ministry of Research, Technology and Higher Education of Indonesia))
24. M.Sc. Mohammad Salavati
25. M.Sc. Amir Namazian Jam
26. M.Sc. Reza Khademi Zahedi
27. M.Sc. Mohsen Talebian
28. M.Sc. Manouchehr Shokri
29. M.Sc. Hamid Radmard Rahmani

External Ph.D. Students

1. Irfan Marlik (Bosch GmbH)

Geust Ph.D. Students

1. Pan Sun
2. Jingxin MA ​

Former Ph.D. Students

1. Dr. Hossein Talebi
2. Dipl. Ing. Heiko Beinersdorf
3. Dr. Nhon Nguyen-Thanh
4. Dipl.-Ing. Daniel Karl
5. Dr. Mohammad Silani
6. Dr. Pattabhi Ramaiah
7. M.Sc. Ilyani Baakar (close to submission)
8. M.Sc. Michael Sargado
9. M.Sc. Zhongle Lu
10. M.Sc. Jafar Amani
11. Dr. Yue Jia
12. Dr. Fatemeh Amiri 
13. Dr. Shahram Ghorashi
14. M.Sc. Mohammad Reza Azadi Kakavand
15. Dr. Subbiah Nanthakumar
16. M.Sc. Cheng Ma
17. M.Sc. Yang Shen
18. Dr. Mohammad Msekh Al'tay 
19. Dr. Cuixia Wang 
20. Dr. Nazim Nariman
21. Dr. Hamid Ghasemi
22. M.Sc. Zhang Chao (submitted)
23. M.Sc. Mohammad Reza Izadifar
24. M.Sc. Do Van Hien 
25. M.Sc. Atiyeh Alsadat Mousavi
26. M.Sc. Vigneswaran Govindarajan
27. M.Sc. Hossein Asadi Kalameh

Former Post-Doctoral Fellows

1. Dr. Amir Mousavi 
2. Dr. Farzad Mohebbi
3. Dr. Obaidur Ramahan
4. Dr. Zili Dai
5. Dr. Amir Saboor Bagherzadeh 
6. Dr. Yancheng Zhang
7. Dr. Jiang Jin-Wu 
8. Dr. Mostafa Jamshidian 
9. Dr. Shih-Wei Yang, 
10. Dr. Ning Wei
11. Dr. Junhua Zhao 
12. Dr. Hassan Yosefi
13. Dr. Larissa Roots 
14. Dr. Behrouz Arash
15. Dr. Shuwei Zhou

International Collaboration

1. Dr. Xiaoying Zhuang (Tongji University)
2. Dr. Pedro Areias (Universidade de Evora)
3. Prof. Stephane Bordas (Cardiff University)
4. Dr. Pierre Kerfriden (Cardiff University)
5. Dr. Robert Simpson (Cardiff University)
6. Prof. Goangseup Zi (Korea University)
7. Prof. Esteban Samaniego (University of Cuenca)
8. Prof. Marino Arroyo (UPC)
9. Prof. Robert Gracie (Waterloo University)
10. Prof. Jacob Muthu (Wits)
11. Prof. Roy Mahapatra (IISC)
12. Prof. Bert Jüttler (JKU)
13. Prof. Yuri Bazilevs (UCSD)
14. Prof. Hung Nguyen-Xuan (Vietnam)
15. Prof. Trung Nguyen-Thoi (Vietnam)
16. Prof. G.R. Liu (Cincinati)
17. Prof. Juan Rodenas Garcia (UPV)
18. Prof. Sulin Zhang (Pennstate)
19. Dr. Marc Duflot (Cenaero)
20. Prof. Philippe Young (Simpleware)
21. Dr. Frank Vogel (Inutech)
22. Dr. Pedro Baiz (Imperial College)
23. Dr. Roham Rafiee (University of Tehran)

 

Book

[1] Rabczuk T., Song J.H., Zhuang X.:, Anitescu C. Extended Finite Element and

Meshfree Methods, Elsevier, Academic Press, 1. Edition, 2019

Book Chapters

[1] Rabczuk T., Zhuang X.: Meshless Discretization Methods, in: Encyclopedia of

Continuum Mechanics, Editors: H. Altenbach, A Öchsner, Springer, 2017 (invited)

[2] Rabczuk T., Zhuang X.: Numerical methods and modeling in impulsive dynamics,

in: Encyclopedia of Continuum Mechanics, Editors: H. Altenbach, A Öchsner, Springer,

2017 (invited)

[3] Huerta A., Belytschko T., Fernandez-Mendez S., Rabczuk T., Zhuang X.,

Arroyo M.: Meshfree Methods, in: Encyclopedia of Computational Mechanics, Edi-

tors: E. Stein, R. De Borst, T.J.R. Hughes, Wiley & Sons, 2017 (invited)

[4] Silani M., Rabczuk T., Zhuang X.: Computational Multiscale Modeling of Carbon-

Nanotube Reinforced Polymers, in: Carbon-Nanotube Reinforced Polymers, Editor: R.

Rafiee, Elsevier, 2017 (invited)

[5] Vu-Bac N., Rabczuk T., Zhuang X.: Continuum/Finite Element Modeling of CN-

RPs, in: Carbon-Nanotube Reinforced Polymers, Editor: R. Rafiee, Elsevier, 2017

(invited)

[6] Rabczuk T., Bordas S., Askes H.: Meshfree discretization methods for solid me-

chanics, in: Encyclopedia of Aerospace Engineering, Editors: R. De Borst, Wiley &

Sons, 2010 (invited)

[7] Rabczuk T., Bordas S., Askes H.: Meshfree Methods for Dynamic Fracture, Com-

putational Technology Reviews (ISSN 2044-8430), 2010, 1, 157-185

[8] Bordas S.P.A., Rabczuk T., Rodenas J.J., Kerfriden P., Moumnassi M.,

Belouettar S.: Recent advances towards reducing the meshing and re-meshing burden

in computational sciences, Computational Technology Reviews (ISSN 2044-8430), (2010),

2, 51-82

[9] Huerta A., Belytschko T., Fernandez-Mendez S., Rabczuk T.: Meshfree Meth-

ods, in: Encyclopedia of Computational Mechanics, Editors: E. Stein, R. De Borst,

T.J.R. Hughes, Wiley & Sons, 2004 (invited)

Publications in peer-reviewed International (SCI) Journals

2018

[1] Areias P., Rabczuk T., Cesar de Sa J., Mota Soares C.A.: Fully-coupled piezo-

electric assumed-strain least-squares nonlinear shell , Thin Walled Structures, in press

[2] Thai C.H., Ferreira A.J.M., Rabczuk T., Nguyen-Xuan H.: Size-dependent

analysis of FG-CNTRC microplates based on modified strain gradient elasticity theory,

European Journal of Mechanics / A Solids, in press

[3] Quoc Thai T., Zhuang X., Rabczuk T.: A large deformation isogeometric approach

for flexoelectricity and soft materials, Computer Methods in Applied Mechanics and

Engineering, in press

[4] Nguyen-Thai M., , Nguyen-Xuan H., Rabczuk T., Wriggers P., Zhuang X.:

A Virtual Element Method for 2D linear elastic fracture analysis, Computer Methods in

Applied Mechanics and Engineering, in press

[5] Nguyen Huy B., Zhuang X., Rabczuk T.: Numerical model for the characteriza-

tion of Maxwell-Wagner relaxation in piezoelectric and flexoelectric composite material,

Computers & Structures, in press

[6] Sahmani S., Aghdam M.M., Rabczuk T.: A unified nonlocal strain gradient plate

model for nonlinear axial instability of functionally graded porous micro/nano-plates

reinforced with graphene platelets, Materials Research Express, in press

[7] Song J.H., Fu Y., Kim T.Y., Yoon Y.C., Michopoulos J.G., Rabczuk T.:

Phase field simulations of coupled microstructure solidification problems via the strong

form particle difference method, International Journal of Mechanics and Materials in

Design, in press

[8] Karimi M., Kavyani M., Rabczuk T.: Evaluation of the efficiency of part time

brace wear versus full time in scoliotic subjects, A review of literature, Current Or-

thopaedic Practice journal, in press

[9] Najafi B., Ardabili S.F., Mosavi A., Shamshirband S., Rabczuk T.: An

Intelligent Artificial Neural Network-Response Surface Methodology Method for Ac-

cessing the Optimum Biodiesel and Diesel Fuel Blending Conditions in a Diesel En-

gine from the Viewpoint of Exergy and Energy Analysis, Energies, 2018, 11(4), 860,

doi:10.3390/en11040860

[10] Fardad K., Najafi B., Ardabili S.F., Mosavi A., Shamshirband S., Rabczuk

T.: Biodegradation of medicinal plants waste in an anaerobic digestion reactor for

biogas production, Computers, Materials and Continua, 2018, 55(3), 318-392

[11] Mortazavi B., Makaremi M., Shahrokhi M., Fan Z., Rabczuk T.: N-Graphdiyne

two-dimensional materials: Semiconductors with low thermal conductivity and high

stretchability, Carbon, 2018, 137, 57-67

[12] Mojahedin A., Jabbari M., Rabczuk T.: Thermoelastic Analysis of Functionally

Graded Porous Beam, Journal of Thermal Stress, 2018, 41(8), 937-950

[13] Noori H.R., Jomehzadeh E., Rabczuk T.: Elastic deformation behaviour of free-

standing MoS2 films using a continuum approach, Solid State Communications, 2018,

153, 16-27

[14] Oucif C., Voyiadjis G.Z., Rabczuk T.: Modeling of damage-healing and nonlin-

ear self-healing concrete behaviour: Application to coupled and uncoupled self-healing

mechanisms, Theoretical and Applied Fracture Mechanics, 2018, 96, 216-230

[15] Mortazavi B., Shahrokhi M., Zhuang X., Rabczuk T.: Boron-graphdiyne: su-

perstretchable semiconductors with low thermal conductivity and ultrahigh capacity for

Li, Na and Ca ions storage, Journal of Materials Chemistry A, 2018, 6(23), 11022-11036

[16] Lv J-H., Jiao Y-Y., Wriggers P., Rabczuk T., Feng X-T., Tan F.: Efficient

integration of crack singularities in the extended finite element method: Duffy-distance

transformation and conformal preconditioning strategy, Computer Methods in Applied

Mechanics and Engineering, 2018, 340, 559-576

[17] Chau-Dinh T., Mai-Van C., Rabczuk T., Zi G.: A phantom-node method with

arbitrary crack tips for analysis of cracked plates and shells discretized by 4-node quadri-

lateral shell elements, Engineering Fracture Mechanics, 2018, 199, 159-178

[18] Hasanian M., van Duin A.C.T., Rabczuk T., Mortazavi B.: Hydrogenation and

Defect Formation Control the Strength and Ductility of MoS2 Nanosheets: Reactive

Molecular Dynamics Simulation, Extreme Mechanics Letters, 2018, 22, 157-164

[19] Rabczuk T., Kakavand M., Uma R.P., Shirazi A., Makaremi M.: Thermal

conductance along hexagonal boron nitride and Graphene grain boundaries, Energies,

2018, 11(6), 1553

[20] Mortazavi B., Rabczuk T.: Boron monochalcogenides; Stable and strong two-

dimensional wide band-gap semiconductors, Energies, 2018, 11(6), 1573

[21] Mortazavi B., Rabczuk T.: Anisotropic mechanical properties and strain tuneable

band-gap in two-dimensional SiP, SiAs, GeP and GeAs, Physica E: Low-dimensional

Systems and Nanostructures, 2018, 103, 273-278

[22] Jam A.N., Izadifir M., Abadi R., Rabczuk T.: Molecular dynamics study on

the mechanical properties of carbon doped single-layer polycrystalline boron-nitride

nanosheets, Computational Materials Science, , 2018, 153, 16-27

[23] Nguyen Huy B., Nanthakumar S., Zhuang X., Jiang X., Wriggers P., Rabczuk

T.: Dynamic flexoelectric effect on piezoelectric nanostructures, European Journal of

Mechanics / A Solids, 2018, 71, 404-409

[24] Budarapu P.R., Reinoso J., Javvaji B., Paggi M., Rabczuk T.: A three dimen-

sional adaptive multiscale method for crack growth in Silicon, Theoretical and Applied

Fracture Mechanics, 2018, 96, 576-603

[25] Zhang C., Wang C., Rabczuk T.: Thermal conductivity of single-layer MoS2: A

comparative study between 1H and 1T? phases, Physica E: Low-dimensional Systems

and Nanostructures, 2018, 103, 294-299

[26] Kwasi-Effah C.C., Rabczuk T.: Dimensional Analysis and Modelling of Energy

Density of Lithium-Ion Battery, Journal of Energy Storage, 2018, 18, 308-315

 

 

[27] Mortazavi B., Makaremi M., Pereira L.F., Shahrokhi M., Rabczuk T.: Borophene

hydride: a stiff 2D material with high thermal conductivity and attractive optical and

electronic properties, Nanoscale, 2018,10, 3759-3768

[28] Oucif C., Voyiadjis G.Z., Kattan P.I., Rabczuk T.: Nonlinear Super Healing

and Contribution to the Design of New Strengthening Theory, Journal of Engineering

Mechanics, 2018, 144(7): 04018055

[29] Mortazavi B., Berdiyorov G., Shahrokhi M., Rabczuk T.: Mechanical, opto-

electronic and transport properties of single-layer Ca2N and Sr2N electrides, Journal of

Alloys and Compounds, 2018, 739, 643-652

[30] Naghipoor J., Jafary N., Rabczuk T.: Mathematical and computational modeling

of drug release from an ocular iontophoretic drug delivery device, International Journal

of Heat and Mass Transfer, 2018, 123, 1035-1049

[31] Bek Y.K., Hamdia K., Rabczuk T., Koenke C.: Micromechanical Model for

Polymeric Nano-composites Material Based on SBFEM, Composite Structures, 2018,

194, 516-526

[32] Tan P., Nguyen-Thanh N., Rabczuk T., Zhou K.: Static, dynamic and buck-

ling analysis of FGM shells in 3D based on isogeometric-meshfree coupling approach,

Composite Structures, 2018, 198, 35-50

[33] Sahmani S., Rabczuk T., Aghdam M.: Nonlocal strain gradient plate model for

nonlinear large-amplitude vibrations of functionally graded porous micro/nano-plates

reinforced with GPLs, Composite Structures, 2018, 198, 51-62

[34] Salavati M., Ghasemi H., Rabczuk T.: Electromechanical properties of Boron Ni-

tride Nanotube: Atomistic bond potential and equivalent mechanical energy approach,

Computational Materials Science, 2018, 149, 460-465

[35] Zhou S., Zhuang X., Rabczuk T.: Phase field modelling of crack propagation,

branching and coalescence in rocks, Theoretical and Applied Fracture Mechanics, 2018,

96, 174-192

[36] Zhou S., Zhuang X., Rabczuk T.: A phase-field modeling approach of fracture

propagation in poroelastic media, Engineering Geology, 2018, 240, 189-203

[37] Cai Y., Sun P., Zhu H., Rabczuk T.: A Mixed cover meshless method for elasticity

and fracture problems, Theoretical and Applied Fracture Mechanics, 2018, 95, 73-103

[38] Zhou S., Zhuang X., Rabczuk T.: Phase field modeling of quasi-static and dynamic

crack propagation: COMSOL implementation and case studies, Advances in Engineer-

ing Software, 2018, 122, 31-49

[39] Mauludin L., Zhuang X., Rabczuk T.: Computational modeling of fracture in

encapsulation-based self-healing concrete using cohesive elements, Composite Structures,

2018, 196, 63-75

[40] Chan C.L., Anitescu C., Rabczuk T.: Isogeometric analysis with strong multipatch

C1-coupling, Computer-Aided Geometric Design, 2018, 62, 294-310

[41] Hamdia K., Zhuang X., Alajlan N., Rabczuk T.: Sensitivity and uncertainty

analyses for flexoelectric nanostructures, Computer Methods in Applied Mechanics and

Engineering, 2018, 337, 95-109

[42] Ghasemi H., Park H., Alajlan N., Rabczuk T.: A computational framework for

design and optimization of flexoelectric materials, International Journal of Computa-

tional Methods, 2018, 15(3), 1850097

[43] Izadifir M., Abadi R., Shirazi A., Alajlan N., Rabczuk T.: Nanopores genera-

tion in boron and nitrogen doped polycrystalline graphene nanosheets using silicon and

diamond clusters: A molecular dynamics study, Physica E: Low-dimensional Systems

and Nanostructures, 2018, 99, 24-36

[44] Pan K., Rabczuk T., Xu G., Chen C.: Isogeometric Approximation of Minimal

Surfaces on the Basis of Extended Catmull-Clark Subdivision, Computer Methods in

Applied Mechanics and Engineering, 2018, 337, 128-149

[45] Mortazavi B., Berdiyorov G.R., Makaremi M., Rabczuk T.: Mechanical re-

sponses of two-dimensional MoTe2; pristine 2H, 1T and 1T’ and 1T’/2H heterostructure

, Extreme Mechanics Letters, 2018, 20, 65-72

[46] Abadi R., Izadifir M., Jam A.N., Rabczuk T.: Fabrication of nanopores in poly-

crystalline boron-nitride nanosheet by using Si, SiC and diamond clusters bombardment,

Computational Materials Science, 2018, 145, 280-290

[47] Shirazi A., Abadi R., Izadifir M., Alajlan N., Rabczuk T.: Mechanical responses

of pristine and defective C3N nanosheets studied by molecular dynamics simulations,

Computational Materials Science, 2018, 147, 316-321

[48] Msekh M.A., Nguyen-Cuong H., Zi G., Areias P., Zhuang X., Rabczuk T.:

Fracture properties prediction of clay/epoxy nanocomposites with interphase zones us-

ing a phase field model, Engineering Fracture Mechanics, 2018, 188, 287-299

[49] Areias P., Reinoso J., Camanho P.P., Cesar de Sa J., Rabczuk T.: Effective

2D and 3D crack propagation with local mesh refinement and the screened Poisson

equation, Engineering Fracture Mechanics, 2018, 189, 339-360

[50] Areias P., Jorge N., Cesar de Sa J., Rabczuk T., Reinoso J.: General constitu-

tive updating for finite strain formulations based on assumed strains and the Jacobian,

Finite Elements in Analysis and Design, 2018, 143, 32-45

[51] Vu-Bac N., Duong T.X., Lahmer T., Zhuang X., Sauer R.A., Park H.S.,

Rabczuk T.: A NURBS-based Inverse Analysis for Reconstruction of Nonlinear De-

formations in Thin Shell Structures, Computer Methods in Applied Mechanics and En-

gineering, 2018, 331, 427-455

 

 

[52] Ghasemi H., Park H.S., Rabczuk T.: Multi-material level set-based topology op-

timization of flexoelectric composites, Computer Methods in Applied Mechanics and

Engineering, 2018, 332, 47-62

[53] Karimi M.T., Rabczuk T.: Scoliosis conservative treatment: A review of literature,

Journal of Craniovertebral Junction and Spine, 2018, 9(1), 3-8

[54] Sahmani S., Rabczuk T., Aghdam M.: Nonlinear bending of functionally graded

porous micro/nano-beams reinforced with graphene platelets based upon nonlocal strain

gradient theory, Composite Structures, 2018, 186, 68-78

[55] Anitescu C., Hossain N., Rabczuk T.: Recovery-based error estimation and adap-

tivity using high-order splines over hierarchical T-meshes, Computer Methods in Applied

Mechanics and Engineering, 2018, 328(1), 638-662

[56] Xu G., Li M., Mourrain B., Rabczuk T., Xu J., Bordas S.P.A.: Constructing

IGA-suitable planar parameterization from complex CAD boundary by domain partition

and global/local optimization, Computer Methods in Applied Mechanics and Engineer-

ing, 2018, 328(1), 175-200

[57] Badnava H., Msekh M.A., Etamadi E., Rabczuk T.: An h-adaptive thermo-

mechanical phase field model for fracture, Finite Elements in Analysis & Design, 2018,

138, 31-47

[58] Akmar A.B.I., Kramer O., Rabczuk T.: Probabilistic multi-scale optimization of

hybrid laminated composites, Composite Structures, 2018, 184, 1111-1125

[59] Zhang C., Zhao J., Rabczuk T.: The interface strength and delamination of fiber-

reinforced composites using a continuum modeling approach, Composites Part B: En-

gineering, 2018, 137, 225-234

[60] Jamshidian M., Dehghani A., Talaei M.S., Rabczuk T.: Size dependent surface

energy of nanoplates: molecular dynamics and nanoscale continuum theory correlations,

Physics Letters A, 2018, 382(2-3), 61-65

[61] Pawar A., Zhang Y.J., Anitescu C., Jia Y., Rabczuk T.: DTHB3D Reg: Dy-

namic Truncated Hierarchical B-Spline Based 3D Nonrigid Image Registration, Com-

munications in Computational Physics, 2018, 23(3), 877-898

[62] Areias P., Rabczuk T., Vu-Bac N.: A multisurface constitutive model for highly

cross-linked polymers with yield data obtained from molecular dynamics simulations,

International Journal of Mechanics & Materials in Design, 2018, 14(1), 21-36

[63] Chien Thai Hoang, Ferreira A., Rabczuk T., Nguyen-Xuan H.: A naturally

stabilized nodal integration meshfree formulation for carbon nanotube-reinforced com-

posite plate analysis, Engineering Analysis with Boundary Elements, 2018, 92, 136-155

2017

[64] Delgoshaei A., Rabczuk T., Ali A., Ariffin M.K.A.: An Applicable Method for

Modifying Over-allocated Multi-mode Resource Constraint Schedules in the Presence

of Preemptive Resources, Annals of Operations Research, 2017, 259(1-2), 85-117

[65] Naghipoor J., Rabczuk T.: A mechanistic model for drug release from PLGA-based

drug eluting stent: A computational study, Computers in Biology and Medicine, 2017,

90(1), 15-22

[66] Badawy M.F., Msekh M.A., Khader K.H., Steiner M.K., Lahmer T., Rabczuk

T.: Hybrid nonlinear surrogate models for fracture behavior of polymeric nanocompos-

ites using phase field model, Probabilistic Engineering Mechanics, 2017, 50, 64-75

[67] Mortazavi B., Lherbier A., Fan Z, Harju A. Rabczuk T., Charlier J.C.: Thermal and electronic transport characteristics of highly stretchable graphene kirigami,

Nanoscale, 2017, 9, 16329 – 16341

[68] Mortazavi B., Shahrokhi M., Makaremi M., Rabczuk T.: Theoretical realization

of Mo2P; A novel stable 2D material with superionic conductivity and attractive optical

properties, Applied Materials Today, 2017, 9C, 292-299

[69] Budarapu P.R., Rabczuk T.: Multiscale methods for fracture: A review, Journal

of the Indian Institute of Science, 2017, 97(3), 339-376

[70] Mortazavi B., Shahrokhi M., Rabczuk T., Pereira L.F.C.: Electronic, optical

and thermal properties of highly stretchable 2D carbon Ene-yne graphyne, Carbon,

2017, 123C, 344-353

[71] Ren H., Zhuang X., Rabczuk T.: Implementation of GTN model in dual-horizon

peridynamics, Procedia Engineering, 2017, 197, 224-232

[72] Nguyen-Vinh P., Lian H., Rabczuk T., Bordas S.: Modeling hydraulic fractures

in porous media using flow cohesive interface elements, Engineering Geology, 2017, 225,

68-82

[73] Izadifir M., Abadi R., Jam A.N., Rabczuk T.: Investigation into the effect of

doping of boron and nitrogen atoms in the mechanical properties of single-layer poly-

crystalline graphene, Computational Materials Science, 2017, 138, 435-447

[74] Rabczuk T., Ren H.: A peridynamics formulation for quasi-static fracture and con-

tact in rock, Engineering Geology, 2017, 225C, 42-48

[75] Wang C., Zhang C., Jiang J.W., Rabczuk T.: The Effects of Vacancy and Ox-

idation on Black Phosphorus Nanoresonators, Nanotechnology, 2017, 28(13), Article

number 135202

[76] Abadi R., Uma R.P., Izadifar M., Rabczuk T.: Investigation of crack propagation

and existing notch on the mechanical response of polycrystalline hexagonal boron-nitride

nanosheets, Computational Materials Science, 2017, 131, 86-99

 

 

[77] Mortazavi B., Rahaman O., Azi S., Rabczuk T.: Flat borophene films as anode

materials for Mg, Na or Li-ion batteries with ultra high capacities: A first-principles

study, Applied Materials Today, 2017, 8, 60-67

[78] Mortazavi B., Le M.Q., Rabczuk T., Pereira L.: Anomalous strain effect on

the thermal conductivity of borophene: a reactive molecular dynamics study, Journal:

Physica E: Low-dimensional Systems and Nanostructures, 2017, 93, 202-207

[79] Mohebbi F., Sellier M., Rabczuk T.: Inverse problem of simultaneously estimating

the thermal conductivity and boundary shape, International Journal for Computational

Methods in Engineering Science and Mechanics, 2017, 18(2-3), 166-181

[80] Hamdia K., Zhuang X., Silani M., He P., Rabczuk T.: Stochastic analysis of

the fracture toughness of polymeric nanoparticle composites using polynomial chaos

expansions, International Journal of Fracture, 2017, 206(2), 215-227

[81] Zhang C., Nanthakumar S.S., Lahmer T., Rabczuk T.: Multiple Cracks Iden-

tification For Piezoelectric Structures, International Journal of Fracture, 2017, 206(2),

151-169

[82] Nguyen B.H., Tran H.D., Anitescu C., Zhuang X., Rabczuk T.: Isogeometric

Symmetric Galerkin Boundary Element Method for Three-dimensional Elasticity Prob-

lems, Computer Methods in Applied Mechanics and Engineering, 2017, 323, 132-150

[83] Nanthakumar S., Zhuang X., Park H., Rabczuk T.: Topology Optimization of

Flexoelectric Structures, Journal on the Mechanics and Phyiscs of Solids, 2017, 105,

217-234

[84] Mortazavi B., Yang H., Mohebbi F., Cuniberti G., Rabczuk T.: Graphene or

h-BN/paraffin composite structures for the thermal management of Li-ion batteries: A

multiscale investigation, Applied Energy, 2017, 202, 323-334

[85] Areias P., Rabczuk T.: Steiner-point free edge cutting of tetrahedral meshes with

applications in fracture, Finite Elements in Analysis & Design, 2017, 132, 27-41

[86] Chan C.L., Anitescu C., Zhang J., Rabczuk T.: An image registration method

using B-spline composition and level sets, Communications in Computational Physics,

2017, 21(2), 600-622. doi:10.4208/cicp.OA-2016-0042

[87] Barrios Vargas J.E., Mortazavi B., Cummings A.W., Martinez-Gordillo R.,

Pruneda M., Colombo L., Rabczuk T., Roche S.: Electrical and thermal trans-

port in coplanar polycrystalline graphene-hBN heterostructures, Nano Letters, 2017,

17(3),1660-1664

[88] Mortazavi B., Quey R., Moulin N., van Duin A., Ostadhossein A., Villani

A., Rabczuk T.: Strong thermal transport along polycrystalline transition metal

dichalcogenides revealed by multiscale modelling for MoS2, Applied Materials Today,

2017,7, 67-76

[89] Mortazavi B., Shahrokhi M., Makaremi M., Rabczuk T.: Anisotropic mechani-

cal and optical response and negative Poisson?s ratio in Mo2C nanomembranes revealed

by first-principles simulations, Nanotechnology, 2017, 28(11):115705

[90] Rahaman O., Mortazavi B., Dianat A., Cuniberti G., Rabczuk T.: Meta-

morphosis in Carbon Network: From Penta-Graphene to Biphenylene under Uniaxial

Tension, Chemistry of Flat Materials, 2017, 1, 65-73

[91] Zhang C., Wang C., Rabczuk T., Wei N.: Thermal conductivity of graphene

nanoribbons under shear deformation: A molecular dynamics simulation, Scientific Re-

ports, 2017, 7, Article number: 41398

[92] Mortazavi B., Rabczuk T.: Multiscale modelling of heat conduction in all-MoS2

single-layer heterostructures, RSC advances, 2107, 7, 11135-11141

[93] Ghorashi S.Sh., Rabczuk T.: A stochastic computational method based on goal-

oriented error estimation for heterogeneous geological materials, Engineering Geology,

2017, 225C, 103-113

[94] Mohebbi F., Sellier M., Rabczuk T.: Estimation of linearly temperature-dependent

thermal conductivity using an inverse analysis, International Journal of Thermal Sci-

ences, 2017, 117, 68-76

[95] Ren H., Zhuang X., Rabczuk T.: Dual-horizon peridynamics: A stable solution to

varying horizons, Computer Methods in Applied Mechanics and Engineering, 2017, 318,

762-782

[96] Nguyen-Thanh N., Zhou K., Zhuang X., Areias P., Nguyen-Xuan H., Bazilevs

Y., Rabczuk T.: Isogeometric analysis of large-deformation thin shells using RHT-

splines for multiple-patch coupling, Computer Methods in Applied Mechanics and En-

gineering, 2017, 316, 1157-1178

[97] Budarapu P.R., Javvaji B., Sutrakar V.K., Mahapatra D.R., Paggi M., Zi

G., Rabczuk T.: Lattice orientation and crack size effect on the mechanical properties

of Graphene, International Journal for Fracture, 2017, 203, 1-2, 81-98

[98] Areias P., Rodrigues A., Carcao J., Rabczuk T., Carvalho A.: Analysis of

experimentally assessed EVA foams with mixed solid-shell elements capable of very

large strains, Finite Elements in Analysis and Design, 2017, 128, 19-31

[99] Ghorashi S.Sh., Rabczuk T.: Goal-oriented error estimation and mesh adaptivity

in 3d elasto-plastic problems, International Journal of Fracture, 2017, 203(1), 3-19

[100] Dai Z., Ren H., Zhuang X., Rabczuk T.: Dual-support Smoothed particle hydro-

dynamics, International Journal of Computational Methods, 2017, 14(4), Article number

1750039

 

 

[101] Mortazavi B., Rahaman O., Makaremi M., Dianat A., Cuniberti G., Rabczuk

T.: First-principles investigation of mechanical properties of silicene, germanene and

stanene, Physica E: Low-dimensional Systems and Nanostructures, 2017, 87, 228-232

[102] Nguyen-Vinh P., Nguyen-Chi T., Rabczuk T., Natarajan S.: On a family of

Convected Particle Domain Interpolations in the Material Point Method, Finite Ele-

ments in Analysis and Design, 2017, 126, 50-64

[103] Ferreira J.A., Goncalves L., Naghipoor J., de Oliveira P., Rabczuk T.: The

influence of atherosclerotic plaques on the pharmacokinetics of a drug eluted from bioab-

sorbable stents, Mathematical Biosciences, 2017, 283, 71-83

[104] Ghasemi H., Park H.S., Rabczuk T.: A level-set based IGA formulation for topol-

ogy optimization of flexoelectric materials, Computer Methods in Applied Mechanics

and Engineering, 2017, 313, 239-258

[105] Areias P., Rabczuk T.:, Reinoso J., Cesar de Sa J.: Finite-strain low order shell

using least-squares strains and two-parameter thickness extensibility, European Journal

of Mechanics / A Solids, 2017, 61, 293-314

[106] Chan C.L., Anitescu C., Rabczuk T.: Volumetric parametrization from a level set

boundary representation with a hierarchical spline basis, Computer Aided Design, 2017,

82C, 29-41

[107] Nguyen-Xuan H., Nguyen S., Rabczuk T., Hackl K.: A polytree-based adaptive

approach to limit analysis of cracked plane-strain structures, Computer Methods in

Applied Mechanics and Engineering, 2017, 313, 1006-1039

[108] Rahaman O., Mortazavi B., Dianat A., Cuniberti G., Rabczuk T.: A Struc-

tural Insight into Mechanical Strength of Graphene-like Carbon and Carbon Nitride

Networks, Nanotechnology, 2017, 28, 055707

2016

109] Vu-Bac N., Areias P., Rabczuk T.: A Multiscale Multisurface Constitutive Model

for The Thermo-Plastic Behavior of Polyethylene, Polymer, 2016, 105, 327-338

[110] Wang C., Zhang C., Jiang J.W., Park H.S., Rabczuk T.: Self-Assembly of

Water Molecules Using Graphene Nanoresonators, RSC Advances, 2016, 6, 110466

[111] Areias P., Rabczuk T.:, Cesar de Sa J.: A novel two-stage discrete crack method

based on the screened Poisson equation and local mesh refinement, Computational Me-

chanics, 2016, 58, 1003-1018

[112] Amiri F., Millan D., Arroyo M., Silani M., Rabczuk T.: Fourth order phase-field

model for local max-ent approximants applied to crack propagation, Computer Methods

in Applied Mechanics and Engineering, 2016, 312(C), 254-275

[113] Areias P., Rabczuk T., Msekh M.: Phase-field analysis of finite-strain plates and

shells including element subdivision, Computer Methods in Applied Mechanics and En-

gineering, 2016, 312(C), 322-350

[114] Areias P., Soares C.A.M., Rabczuk T., Garcao J.: A finite-strain solid-shell using

local Löwdin frames and least-squares strains, Computer Methods in Applied Mechanics

and Engineering, 2016, 311, 112-133

[115] Ren H., Zhuang X., Cai Y., Rabczuk T.: Dual-Horizon Peridynamics, Interna-

tional Journal for Numerical Methods in Engineering, 2016, 108, 1451-1476

[116] Mortazavi B., Ostadhossein A., Rabczuk T., van Duin A.C.T.: Mechanical

response of all-MoS2 single-layer hetrostructures: A ReaxFF investigation, Physical

Chemistry Chemical Physics, 2016, 18(34), 23695-23701

[117] Mortazavi B., Rahaman O., Dianat A., Rabczuk T.: Mechanical responses of

borophene sheets: A first-principles study, Physical Chemistry Chemical Physics, 2016,

18(39), 27405-27413

[118] Le M.Q., Mortazavi B., Rabczuk T.: Mechanical properties of 2D boron: A re-

active molecular dynamics investigation, Nanotechnology, 2016, 27(44), article number

445709

[119] Pawar A., Zhang Y., Jia Y., Wei X., Rabczuk T., Chan C.L., Anitescu C.:

Adaptive FEM-based nonrigid image registration using truncated hierarchical B-splines,

Computers and Mathematics with Applications, 2016, 72(8), 2028-2040

[120] Naghipoor J., Ferreira J.A., de Oliveira P., Rabczuk T.: Tuning polymeric

and drug properties in a drug eluting stent: a numerical study, Applied Mathematical

Modeling, 2016, 40(17-18), 8067-8086

[121] Bhardwaj G., Singh S.K., Singh I.V., Mishkra B.K., Rabczuk T.: Fatigue

Crack Growth Analysis of an Interfacial Crack in Heterogeneous Materials using Ho-

mogenized XIGA, Theoretical and Applied Fracture Mechanics, 2016, 85, 294-319

[122] Javvaji, B., Budarapu P.R., Sutrakar V.K., Mahapatra D.R., Paggi M., Zi

G., Rabczuk T.: Mechanical properties of Graphene: Molecular dynamics simulations

correlated to continuum based scaling laws, Computational Materials Science, 2016,

319-327

[123] Jamshidian M., Thamburaja P., Rabczuk T.: A coupled finite-element and phase-

field framework to modeling stressed grain growth in polycrystalline thin films, Journal

of Computational Physics, 2016, 327, 779-798

[124] Zhang C., Wang C., Lahmer T., He P., Rabczuk T.: A dynamic XFEM formula-

tion of crack identification, International Journal of Mechanics & Materials in Design,

2016, 12(4), 427-448

[125] Mortazavi B., Dianat A., Rahaman O., Cuniberti G., Rabczuk T.: Borophene

as an anode material for Ca, Mg, Na or Li ion storage: A first-principle study, Journal

of Power Sources, 2016, 329, 456-461, 10.1016/j.jpowsour.2016.08.109

[126] Zhu H., Wu W., Zhuang X., Cai Y., Rabczuk T.: Method for estimating nor-

mal contact parameters in collision modeling using discontinuous deformation analysis,

International Journal of Geomechanics, 2016, 10.1061/(ASCE)GM.1943-5622.0000745

, E4016011

[127] He B., Mortazavi B., Zhuang X., Rabczuk T.: Modeling Kapitza Resistance of

Two-Phase Composite Material, Composite Structures, 2016, 152, 939-946

[128] Thai C.H., Nguyen T.N., Rabczuk T., Nguyen-Xuan H.: An improved moving

Kriging mesh-free method for plate analysis using a refined plate theory, Computers &

Structures, 2016, 176, 34-49

[129] Shirazi A.H.N., Mortazavi B., Mohebbi F., He B., Rabczuk T.: Paraffin

nanocomposites for heat management of Lithium-ion batteries: A computational inves-

tigation, Journal of Nanomaterials, 2016, Volume 2016, Article number 2131946

[130] Areias P., Samaniego E., Rabczuk T.: A staggered approach for the coupling of

Cahn-Hilliard type diffusion and finite strain elasticity, Computational Mechanics, 2016,

57(2), 339-351

[131] Yousefi H., Ghorashi Sh., Rabczuk T.: Directly simulation of second order hyper-

bolic systems in second order form via the regularization concept, Communications in

Computational Physics, 2016, 20(1), 86-135

[132] Gui Y-L., Bui H.H., Zhang Q.-B., Kodikara J., Zhao J., Rabczuk T.: Mod-

elling the dynamic failure of brittle rocks using a hybrid continuum-discrete element

method with a mixed-mode cohesive fracture model, International Journal of Impact

Engineering, 2016, 87, 146-155

[133] Silani M., Talebi H., Hamouda A.S., Rabczuk T.: Nonlocal damage modelling

in clay/epoxy nanocomposites using a multiscale approach, Journal of Computational

Science, 2016, 15, 18-23

[134] Abadi R., Uma R.P., Izadifar M., Rabczuk T.: The effect of temperature and

topological defects on fracture strength of grain boundaries in single-layer polycrystalline

boron-nitride nanosheet, Computational Materials Science, 2016, 123, 277-286

[135] Mortazavi B., Dianat A., Cuniberti G., Rabczuk T.: Application of silicene, ger-

manene and stanene for Na or Li ion storage: A theoretical investigation, Electrochimica

Acta, 2016, 213, 865-870, 10.1016/j.electacta.2016.08.027

[136] Rabizadeh E., Bagherzadeh A.S., Rabczuk T.: Goal-oriented error estimation and

adaptive mesh refinement in dynamic coupled thermoelasticity, Computers & Structures,

2016, 173, 187-211

[137] Mortazavi B., Ramahan O., Rabczuk T., Pereira L.F.C: Thermal Conductivity

and Mechanical Properties of Nitrogenated Holey Graphene, Carbon, 2016, 106, 1-8

[138] Vu-Bac N., Lahmer T., Zhuang X., Nguyen-Thoi T., Rabczuk T.: A software

framework for probabilistic sensitivity analysis for computationally expensive models,

Advances in Engineering Software, 2016, 100, 19-31

[139] Areias P., Cesar de Sa J., Rabczuk T.: Semi-implicit finite strain constitutive

integration and mixed strain/stress control based on intermediate configurations, Engi-

neering Structures, 2016, 124, 344-360

[140] Nguyen B.H., Tran H.D., Anitescu C., Zhuang X., Rabczuk T.: An Isogeomet-

ric Symmetric Galerkin Boundary Element Method for Elastostatic Analysis, Computer

Methods in Applied Mechanics and Engineering, 2016, 306, 252-275

[141] Pereira L.F.C., Mortazavi B., Makaremi M., Rabczuk T.: Anisotropic thermal

conductivity and mechanical properties of phagraphene: A molecular dynamics study,

Rsc Advances, 2016, 6, 57773 – 57779

[142] Lu Z., Wu L., Zhuang X., Rabczuk T.: Quantitative assessment of engineering geo-

logical suitability for multilayer Urban Underground Space, Tunneling and Underground

Space Technology, 2016, 59, 65-76

[143] Nanthakumar S., Lahmer T., Zhuang X., Park H.S., Rabczuk T.: Topology

Optimization of Piezoelectric Nanostructures, Journal of the Mechanics and Physics of

Solids, 2016, 94, 316-335

[144] Areias P., Rabczuk T., Camanho P.: Finite-strain laminates: bending-enhanced

hexahedron and delamination, Composite Structures, 2016, 139, 277-290

[145] Hamdia K., Zhuang X., He P., Rabczuk T.: Fracture toughness of polymeric

particle nanocomposites: Evaluation of Models performance using Bayesian method,

Composite Science and Technology, 2016, 126, 122-129

[146] Msekh M.A., Silani M., Jamshidian M., Areias P., Zhuang X., Zi G., He P.,

Rabczuk T.: Predictions of J integral and tensile strength of clay/epoxy nanocom-

posites material using phase-field model, Composites Part B: Engineering, 2016, 93,

97-114

[147] Quoc T.T., Rabczuk T., Meschke G., Bazilevs Y.: A higher-order stress-based

gradient-enhanced damage model based on isogeometric analysis, Computer Methods in

Applied Mechanics and Engineering, 2016, 304, 584-604

[148] Mousavi A.A., Arash B., Zhuang X., Rabczuk T.: A coarse-grained model for

the elastic properties of cross linked short carbon nanotube/polymer composites, Com-

posites Part B: Engineering, 2016, 95, 404-411

[149] Bui Quoc T., Hirose S., Zhuang C., Rabczuk T., Wu C.T., Saitoh T., Lei

J.: Extended Isogeometric Analysis for Dynamic Fracture in Multiphase Piezoelec-

tric/Piezomagnetic Composites, Mechanics of Materials, 2016, 97, 135-163

 

 

[150] Areias P., Msekh M.A., Rabczuk T.: Damage and fracture algorithm using the

screened Poisson equation and local remeshing, Engineering Fracture Mechanics, 2016,

158, 116-143

[151] Diyaroglu C., Oterkus E., Madenci E., Rabczuk T., Siddiq A.: Peridynamic

modeling of composite laminates under explosive loading, Composite Structures, 2016,

144, 14-23

[152] Mortazavi B., Fan Z., Pereira L.F.C., Harju A., Rabczuk T.: Amorphized

graphene: a stiff material with low thermal conductivity, Carbon, 2016, 103, 318-326

[153] Nanthakumar S., Lahmer T., Zhuang X., Zi G., Rabczuk T.: Detection of ma-

terial interfaces using a regularized level set method in piezoelectric structures, Inverse

Problems in Science and Engineering, 2016, 24(1), 153 – 176

[154] Ramahan O., Mortazavi B., Rabczuk T.: A first-principles study on the effect of

oxygen content on the structural and electronic properties of silicon suboxide as anode

material for Lithium Ion Batteries, Journal of Power Sources, 2016, 307, 657 – 664

[155] Wang C.X., Zhang C., Jiang J.W., Park H.S., Rabczuk T.: Mechanical Strain

Effect on the Black Phosphorus Nanoresonators, Nanoscale, 2016, 8, 901-905

[156] Wang C.X., Zhang C., Jiang J.W., Rabczuk T.: A Coarse-Grained Simulation for

the Folding of Molybdenum Disulphide, Journal of Physics D: Applied Physics, 2016,

49, 025302, doi:10.1088/0022-3727/49/2/025302

[157] Arash B., Park H.S., Rabczuk T.: Coarse-grained model of the J-integral fracture

toughness in short carbon nanotube reinforced polymer composites, Carbon, 2016, 96,

1084-1092

[158] Areias P., Rabczuk T., Mota Soares C.: Least-squares finite strain hexahedral

element/constitutive coupling based on parametrized configurations and the Lowdin

frame, Finite Elements in Analysis and Design, 2016, 108, 96-109

[159] Jamshidian M., Thamburaja P., Rabczuk T.: Modeling the effect of surface

energy on stressed grain growth in cubic polycrystalline bodies, Scripta Materialia,

2016, 209-213, 10.1016/j.scriptamat.2015.11.005

[160] Amani J., Oterkus E., Areias P.M.A., Zi G., Nguyen-Thoi T., Rabczuk T.: A

non-ordinary state-based peridynamics formulation for brittle and ductile fracture anal-

ysis of thermoplasticity problems, International Journal of Impact Engineering, 2016,

87, 83-94

2015

[161] Areias P., Reinoso J., Camanho P., Rabczuk T.: A constitutive-based element-

by-element crack propagation algorithm with local remeshing, Computational Mechan-

ics, 2015, 56(2), 291-315

[162] Xu G., Gueler E., Wu X., Hui K.-C., Wang G., Rabczuk T.: Quasi-harmonic

Bezier approximation of minimal surfaces for finding forms of structural membranes,

Computers & Structures, 2015, 161, 55-63

[163] Jamshidian M., Thamburaja P., Rabczuk T.: A continuum state variable the-

ory to model the size-dependent surface energy of nanostructures, Physical Chemistry

Chemical Physics, 2015, 17, 25494-25498, DOI: 10.1039/C5CP04375A

[164] Vu-Bac N., Bessa M., Rabczuk T., Liu W.K.: A multiscale model for the quasi-

static thermo-plastic behavior of highly cross-linked glassy polymers, Macromolecules,

2015, 48(18), 6713-6723

[165] Almasi A., Silani M., Talebi H., Rabczuk T.: Stochastic analysis of the inter-

phase effects on the mechanical properties of clay/epoxy nano-composites, Composite

Structure, 2015, 133, 1302 – 1312

[166] Arash B., Park H.S., Rabczuk T.: Tensile fracture behavior of short carbon nan-

otube reinforced polymer composites: a coarse-grained model, Composite Structures,

2015, 134, 981- 988

[167] Hamdia K., Msekh M.A., Silani M., Vu-Bac N., Zhuang X., Nguyen-Thoi

T., Rabczuk T.: Uncertainty quantification of the fracture properties of polymeric

nanocomposites based on phase field modeling, Composite Structures, 2015, 133, 1177-

1190

[168] Areias P., Rabczuk T.:, Cesar de Sa J., Jorge R.N.: A semi-implicit finite strain

shell algorithm using in-plane strains based on least-squares, Computational Mechanics,

2015, 55(4), 673-696

[169] Mortazavi B., Pereira L.F.C., Jiang J.W., Rabczuk T.: Modelling heat conduc-

tion in polycrystalline hexagonal boron-nitride films, Scientific Reports, 2015, 5, art.

no. 13228

[170] Budarapu P.R., Javvaji B., Sutrakar V.K., Mahapatra D.R., Zi G., Rabczuk

T.: Crack propagation in Graphene sheet, Journal of Applied Physics, 2015, 118 (6) ,

art. no. 064307

[171] Zhao J., Jia Y., Wei N., Rabczuk T.: Binding energy and mechanical stabil-

ity of two parallel and crossing carbon nanotubes, Proceedings of the Royal Society

A: Mathematical, Physical and Engineering Sciences 471 (2189), art. no. 20150229,

http://dx.doi.org/10.1098/rspa.2015.0229

[172] Ben S., Zhao J., Rabczuk T.: Does Hooke’s law work in helical nanosprings?, Phys-

ical Chemistry Chemical Physics, DOI: 10.1039/c5cp02802g, 2015, 17 (32) pp. 20990 -

20997

[173] Ghasemi H., Kerfriden P., Bordas S.P.A., Muthu J., Zi G., Rabczuk T.:

Probabilistic multiconstraints optimization of cooling channels in ceramic matrix com-

posites, Composites Part B: Engineering, 2015, 81, 107-119

[174] Bayat M., Ghorashi S.Sh., Amani J., Andersen L., Ibsen L.B., Rabczuk

T., Zhuang X.,Talebi H.: Recovery-based error estimation in the dynamic analysis

of offshore wind turbine monopile foundations, Computers and Geotechnics, 2015, 70,

24-40

[175] Nguyen V.P., Anitescu C., Bordas S.P.A., Rabczuk T.: Isogeometric analysis:

An overview and computer implementation aspects, Mathematics and Computers in

Simulations, 2015, 117, art. no. 4190, 89-116

[176] Nanthakumar S., Valizadeh N., Park H., Rabczuk T.: Surface effects on shape

and topology optimization of nanostructures, Computational Mechanics, 2015, 56(1),

97-112

[177] Jia Y., Anitescu C., Ghorashi S. , Rabczuk T.: Extended Isogeometric Analysis

for Material Interface Problems, IMA Journal of Applied Mathematics, 2015, 80(3),

608-633

[178] Arash B., Park H., Rabczuk T.: Mechanical properties of carbon nanotube bundle-

reinforced polymer nano composites: a coarse-grained approach, Composites Part B:

Engineering, 2015, 80, 92-100

[179] Areias P., Rabczuk T.: A finite strain quadrilateral based on least-squares assumed

strains, Engineering Structures, 2015, 100, 1-16

[180] Areias P., Rabczuk T.:, Cesar de Sa J.: Semi-implicit finite strain constitutive

integration of porous plasticity models, Finite Elements in Analysis and Design, 2015,

104, 41-55

[181] Arash B., Rabczuk T., Jiang J.W.: Nanoresonators and their applications: a state

of the art review, Applied Physics Reviews 2, 2015, 021301, http://dx.doi.org/10.1063/1.4916728

[182] Jiang J.W., Rabczuk T., Park H.S.: A Stillinger-Weber Potential for Single-Layer

Black Phosphorus, and the Importance of Cross-Pucker Interactions for Negative Pois-

son’s Ratio and Edge Stress-Induced Bending, Nanoscale, 2015, DOI: 10.1039/C4NR07341J

[183] Valizadeh N., Bazilevs Y., Chen J.S., Rabczuk T.: A Coupled IGA-Meshfree

Discretization of Arbitrary Order of Accuracy and without Global Geometry Parame-

terization, Computer Methods in Applied Mechanics and Engineering, 2015, 293, 20-37

[184] Ben S., Zhao J., Zhang Y., Rabczuk T.: The interface strength and debonding

for composite structures: review and recent developments, Composite Structures, 2015,

129, 8-26

[185] Jia Y., Zhang Y., Rabczuk T.: A Novel Dynamic Multilevel Technique for Image

Registration, Computers and Mathematics with Applications, 2015, 69(9), 909-925

[186] Hamdia K., Lahmer T., Nguyen-Thoi T., Rabczuk T., : Predicting The Fracture

Toughness of PNCs: A Stochastic Approach Based on ANN and ANFIS, Computational

Materials Science, 2015, 102, 304-313

[187] Rabizadeh E., Saboor Bagherzadeh A., Rabczuk T.: Application of goal-oriented

error estimation and adaptive mesh refinement on thermo-mechanical multifield prob-

lems, Computational Materials Science, 2015, 102, 27 – 44

[188] Ghasemi H., Brighenti R., Zhuang X., Muthu J., Rabczuk T.: Optimum fiber

content and distribution in fiber-reinforced solids using a reliability and NURBS based

sequential optimization approach, Structural and Multidisciplinary Optimization, 2015,

51(1), 99-112

[189] Areias P., Rabczuk T., Cesar de Sa J.M., Garcao J.E.: Finite strain quadrilateral

shell using least-squares fit of relative Lagrangian in-plane strains, Finite Elements in

Analysis and Design, 2015, 98, 26-40

[190] Mortazavi B., Rabczuk T.: Multiscale modeling of heat conduction in graphene

laminates, Carbon, 2015, 85, 1-7

[191] Mortazavi B., Cuniberti G., Rabczuk T.: Mechanical properties and thermal

conductivity of graphitic carbon nitride: A molecular dynamics study, Computational

Materials Science, 2015, 99, 285-289

[192] Talebi H, Silani M., Rabczuk T.: Concurrent Multiscale Modelling of Three Di-

mensional Crack and Dislocation Propagation, Advances in Engineering Software, 2015,

80, 82-92

[193] Anitescu C., Jia Y., Zhang Y., Rabczuk T.: An isogeometric collocation method

using superconvergent points, Computer Methods in Applied Mechanics and Engineer-

ing, 2015, 284, 1073-1097

[194] Kumar S., Singh I., Mishra B.K., Rabczuk T.: Modeling and Simulation of

Kinked Cracks by Virtual Node XFEM, Computer Methods in Applied Mechanics and

Engineering, 2015, 283, 1425-1466

[195] Vu-Bac N., Silani M., Lahmer T., Zhuang X. , Rabczuk T.: A unified frame-

work for stochastic predictions of mechanical properties of polymeric nanocomposites,

Computational Materials Science, 2015, 96, 520 – 535

[196] Thai H.C., Nguyen-Xuan H., Bordas S., Nguyen-Thanh N.,Rabczuk T.: Iso-

geometric analysis of laminated composite plates using the higher-order shear deforma-

tion theory, Mechanics of Advanced Materials and Structures, 2015, 22(6), 451-469

[197] Zhao J., Lu L., Rabczuk T.: The tensile and shear failure behavior dependence on

chain length and temperature in amorphous polymers, Computational Materials Science,

2015, 96, 567 – 572

[198] Yang S.W., Budarapu P.R., Mahapatra D.R., Bordas S.P.A., Zi G., Rabczuk

T.: A Meshless Adaptive Multiscale Method for Fracture, Computational Materials

Science, in 2015, 96, 382 – 395

[199] Ghasemi H., Kerfriden P., Bordas S.P.A., Muthu J., Zi G.,, Rabczuk T.:

Interfacial shear stress optimization in sandwich beams with polymeric core using non-

uniform distribution of reinforcing ingredients, Composite Structures, 2015, 120, 221 -

230

[200] Nguyen-Thanh N., Valizadeh N., Nguyen M.N., Nguyen-Xuan H. , Zhuang

X. , Areias P., Zi G., Bazilevs Y., De Lorenzis L., Rabczuk T.: An extended

isogeometric thin shell analysis based on Kirchhoff-Love theory, Computer Methods in

Applied Mechanics and Engineering, 2015, 284, 265 – 291

[201] Budarapu P., Narayana T.S.S., Rammohan B., Rabczuk T.: Directionality of

sound radiation from rectangular panels, Applied Acoustics, 2015, 89, 128-140

[202] Ghorashi S., Valizadeh N., Mohammadi S., Rabczuk T.: T-spline based XIGA

for Fracture Analysis of Orthotropic Media, Computers & Structures, 2015, 147, 138-146

[203] Areias P., Rabczuk T., Queiros de Melo F.J.M., Cesar de Sa J.: Coulomb

frictional contact by explicit projection in the cone for finite displacement quasi-static

problems, Computational Mechanics, 2015, 55(1), 57-72

[204] Zhao J., Lu L., Zhang Z., Guo W., Rabczuk T.: Continuum modeling of the

cohesive energy for the interfaces between films, spheres, coats and substrates, Compu-

tational Materials Science, 2015, 96, 432 – 438

[205] Silani M., Talebi H., Ziaei-Rad S., Hamouda A.M.S., Zi G., Rabczuk T.:

A three dimensional Extended Arlequin Method for Dynamic Fracture, Computational

Materials Science, 2015, 96, 425 – 431

[206] Msekh M.A., Sargado M., Jamshidian M., Areias P., Rabczuk T.: ABAQUS

implementation of phase-field model for brittle fracture, Computational Materials Sci-

ence, 2015, 96, 472 – 484

[207] Vu-Bac N., Rafiee R., Zhuang X., Lahmer T., Rabczuk T.: Uncertainty quan-

tification for multiscale modeling of polymer nanocomposites with correlated parame-

ters, Composites Part B: Engineering, 2015, 68, 446 – 464

2014

[208] Silani M., Ziaei-Rad S., Talebi H., Rabczuk T.: A Semi-Concurrent Multiscale

Approach for Modeling Damage in Nanocomposites, Theoretical and Applied Fracture

Mechanics, 2014, 74, 30-38

[209] Areias P., Pinto da Costa A., Rabczuk T., Queiros de Melo F.J.M., Dias-

da-Costa D., Bezzeghoud M.: An alternative formulation for quasi-static frictional

and cohesive contact problems, Computational Mechanics, 2014, 53, 807-824

[210] Jamshidian M., Zi G., Rabczuk T.: Phase field modeling of ideal grain growth in

a distorted microstructure, Computational Materials Science, 2014, 95, 663-671

[211] Xu G., Mourrain B., Galligo A., Rabczuk T.: High-quality construction of

analysis-suitable trivariate NURBS solids by reparameterization methods, Computa-

tional Mechanics, 2014, 54(5), 1303-1313

[212] Zhao J., Jiang J.W., Wang L., Guo W., Rabczuk T.: Coarse-grained potentials

of single-walled carbon nanotubes, Journal of Mechanics and Physics of Solids, 2014,

71, 197 – 218

[213] Areias P.M.A., Rabczuk T., J.I. Barbosa: The extended unsymmetric frontal

solution for multiple-point constraints, Engineering Computations, 2014, 31(7), 1582-

1607

[214] Nguyen-Thoi T., Rabczuk T., Lam-Phat T., Ho-Huu V., Phung-Van P.:

Free vibration analysis of cracked Mindlin plate using an extended cell-based smoothed

discrete shear gap method (XCS-DSG3), Theoretical and Applied Fracture Mechanics,

2014, 72, 150-163

[215] Areias P.M.A., Rabczuk T., P.P. Camanho: Finite strain fracture of 2D problems

with injected anisotropic softening elements, Theoretical and Applied Fracture Mechan-

ics, 2014, 72, 50-63

[216] Ben S., Zhao J., Rabczuk T.: A theoretical analysis of interface debonding for coated

sphere with functionally graded variation interphase, Composite Structures, 2014, 117

(1), 288 – 297

[217] Silani M., Talebi H., Ziaei-Rad S., Kerfriden P., Bordas S., Rabczuk T.:

Stochastic Modelling of Clay/Epoxy Nanocomposites, Composite Structures, 2014, 118,

241-249

[218] Beex L.A.A., Kerfriden P., Rabczuk T., Bordas S.P.A.: Quasicontinuum-based

multiscale approaches for plate-like beam lattices experiencing in-plane and out-of-plane

deformation, Computer Methods in Applied Mechanics and Engineering, 2014, 279, 348-

378

[219] Zhao J., Kou L., Jiang J.W., Rabczuk T.: Tension-induced phase transition

of Single-Layer Molybdenum Disulphide (MoS2) at low temperatures, Nanotechnology,

2014, 25(29), art. no. 295701

[220] Nguyen V.P., Kerfriden P., Bordas S.P.A., Rabczuk T.: Isogeometric anal-

ysis suitable trivariate NURBS representation of composite panels with a new offset

algorithm, Computer-Aided Design, 2014, 55, 49-63

[221] Budarapu P., Gracie R., Bordas S., Rabczuk T.: An adaptive multiscale method

for quasi-static crack growth, Computational Mechanics, 2014, 53(6), 1129-1148

[222] Chen L., Nguyen-Thanh N., Nguyen-Xuan H., Rabczuk T., Bordas S.P.A.,

Limbert G.: Explicit finite deformation analysis of isogeometric membranes, Computer

Methods in Applied Mechanics and Engineering, 2014, 277, 104-130

[223] Akmar A.B.I., Lahmer T., Bordas S., Beex L., Rabczuk T.: Uncertainty cri-

teria of Dry Woven Fabric: A Sensitivity Analysis on Material Properties, Composite

Structures, 2014, 116, 1-17

[224] Zhao J., Lu L.,Rabczuk T.: Binding energy and mechanical stability of single-

and multi-walled carbon nanotube serpentines, Journal of Chemical Physics, 2014, 140,

204704, http://dx.doi.org/10.1063/1.4878115

[225] Talebi H., Silani M., Bordas S., Kerfriden P., Rabczuk T.: A Computational

Library for Multiscale Modelling of Material Failure, Computational Mechanics, 2014,

53(5), 1047-1071

[226] Zhang Y., Zhuang X., Muthu S.D.J., Mabrouki T., Fontaine M., Gong

Y., Rabczuk T.: Load transfer of graphene/carbon nanotube/polyethylene hybrid

nanocomposite by molecular dynamics simulation, Composites Part B: Engineering,

2014, 63, 27-33

[227] Nanthakumar S.S., Lahmer T., Rabczuk T.: Detection of multiple flaws in Piezo-

electric Structures using XFEM and Level sets, Computer Methods in Applied Mechanics

and Engineering, 2014, 275, 98-112

[228] Amiri F., Milan D., Shen Y., Rabczuk T., Arroyo M.: Phase-field modeling of

fracture in linear thin shells, Theoretical and Applied Fracture Mechanics, 2014, 69, 102

- 109

[229] Budarapu P., Gracie R. Shih-Wei Y., Zhuang X., Rabczuk T.: Efficient Coarse

Graining in Multiscale Modeling of Fracture, Theoretical and Applied Fracture Mechan-

ics, 2014, 69, 126 – 143

[230] Jiang J.W., Park H., Rabczuk T.: M oS 2 Nanoresonators: Intrinsically Better

Than Graphene?, Nanoscale, 2014, 6(7), 3618 – 3625

[231] Jiang J.W., Wang B.S., Rabczuk T.: Phonon Modes in Single-Walled Molybdenum

Disulphide (MoS2) Nanotubes: Lattice Dynamics Calculation and Molecular Dynamics

Simulation, Nanotechnology, 2014, 25(10) , art. no. 105706

[232] Amani J., Bagherzadeh A.S., Rabczuk T.: Error estimate and adaptive refine-

ment in Mixed Discrete Least Squares Meshless method, Mathematical Problems in

Engineering, 2014, Article ID 721240, doi:10.1155/2014/721240

[233] Jamshidian M., Rabczuk T.: Phase field modelling of stressed grain growth: ana-

lytical study and the effect of microstructural length scale, Journal of Computational

Physics, 2014, 261, 23 – 35

[234] Ghasemi H., Rafiee R., Zhuang X., Muthu J., Rabczuk T.: Uncertainties

propagation in metamodel-based probabilistic optimization of CNT/polymer composite

structure using stochastic multi-scale modeling, Computational Materials Science, 2014,

85, 295-305

[235] Nguyen-Thanh N., Muthu J., Zhuang X., Rabczuk T.: An adaptive three-

dimensional RHT-spline formulation in linear elasto-statics and elasto-dynamics, Com-

putational Mechanics, 2014, 53(2), 369-385

[236] Amiri F., Anitescu C., Arroyo M, Bordas S., Rabczuk T.: XLME interpolants,

a seamless bridge between XFEM and enriched meshless methods, Computational Me-

chanics, 2014, 53(1), 45-57

[237] Zhuang X., Huang R., Rabczuk T., Liang C.: A coupled thermo-hydro-mechanical

model of jointed hard rock for compressed air energy storage, Mathematical Problems

in Engineering, 2014, vol. 2014, Article ID 179169, doi:10.1155/2014/179169

[238] Ghasemi H., Brighenti R., Zhuang X., Muthu J., Rabczuk T.: Optimization

of fiber distribution in fiber reinforced composite by using NURBS functions, Compu-

tational Materials Science, 2014, 83(15), 463-473

[239] Vu-Bac N., Lahmer T., Zhang Y., Zhuang X., Rabczuk T.: Stochastic predic-

tions of interfacial characteristic of carbon nanotube polyethylene composites, Compos-

ites Part B: Engineering, 2014, 59, 80-95

[240] Jiang J.W., Wang B.S., Park H., Rabczuk T.: Adsorbate Migration Effects on

Continuous and Discontinuous Temperature-Dependent Transitions in the Quality Fac-

tors of Graphene Nanoresonators, Nanotechnology, 2014, 25, 025501, doi:10.1088/0957-

4484/25/2/025501

[241] Vu-Bac N., Lahmer T., Keitel H., Zhao J., Zhuang X., Rabczuk T.: Stochastic

predictions of bulk properties of amorphous polyethylene based on molecular dynamics

simulations, Mechanics of Materials, 2014, 68, 70-84

[242] Thai C.H., Ferreira A.J.M., Bordas S., Rabczuk T., Nguyen-Xuan H.: Iso-

geometric analysis of laminated composite and sandwich plates using a new inverse

trigonometric shear deformation theory, European Journal of Mechanics - A/Solids,

2014, 43, 89 – 108

2013

[243] Zhao J., Wu J., Jiang J.W., Zhang Z., Rabczuk T.: Thermal conductivity of

carbon nanocoils, Applied Physics Letters, 2013, 103(23), art. no. 233511

[244] Zhao J., Jiang J.W., Rabczuk T.: Temperature-dependent mechanical properties

of Single-Layer Molybdenum Disulphide (MoS2): molecular dynamics nanoindentation

simulations, Applied Physics Letters, 2013, 103(23), art. no. 231913

[245] Areias P., Dias-da-Costa D., Sargado J.M., Rabczuk T.: Element-wise algo-

rithm for modeling ductile fracture with the Rousselier yield function, Computational

Mechanics, 2013, 52(6), 1429-1443

[246] BaniHani S., Rabczuk T., Almomani T.: POD for real time simulation of hypere-

lastic soft biological tissue using the point collocation method of finite spheres, Mathe-

matical Problems in Engineering, 2013, Article ID 386501, http://dx.doi.org/10.1155/2013/386501

 

 

[247] Talebi H., Silani M., Bordas S. P. A., Kerfriden P., Rabczuk T.: Molecular

Dynamics/XFEM Coupling by a Three-Dimensional Extended Bridging Domain with

Applications to Dynamic Brittle Fracture, International Journal for Multiscale Compu-

tational Engineering, 2013, 11(6), 527 – 541

[248] Nanthakumar S.S., Lahmer T., Rabczuk T.: Detection of flaws in piezoelectric

structures using XFEM, International Journal of Numerical Methods in Engineering,

2013, 96(6), 373 – 389

[249] Areias P., Rabczuk T., Dias-da-Costa D.: Element-wise fracture algorithm based

on rotation of edges,Engineering Fracture Mechanics, 2013, 110, 113 – 137

[250] Jiang J.W., Zhuang X., Rabczuk T.: Orientation Dependent Intrinsic Thermal

Conductivity in Single-Layer M oS 2 , Scientific Reports, 2013, arXiv: 1303.5548, DOI:

10.0.4.14/srep02209

[251] Jiang J.W., Park H., Rabczuk T.: Polar Surface Effects on the Thermal Con-

ductivity in ZnO Nanowires: a Shell-Like Surface Reconstruction-Induced Preserving

Mechanism, Nanoscale, 2013, 5, 11035-11043, doi: 10.1039/c3nr03567k

[252] Areias P., Rabczuk T., Camanho P.P.: Initially rigid cohesive laws and fracture

based on edge rotations, Computational Mechanics, 2013, 52(4), 931 – 947

[253] Jiang J.W.,Qi Z., Park H., Rabczuk T.: Elastic Bending Modulus of Single-

Layer Molybdenum Disulphide (M oS 2 ): Finite Thickness Effect, Nanotechnology, 2013,

24(43), 435705

[254] Jia Y., Zhang Y., Xu G., Zhuang X.Y., Rabczuk T.: Reproducing kernel trian-

gular B-spline-based FEM for solving PDEs, Computer Methods in Applied Mechanics

and Engineering, 2013, 267, 243-358

[255] Jiang J.W., Park H., Rabczuk T.: Preserving the Q-Factors of ZnO Nanoresonators

via Polar Surface Reconstruction, Nanotechnology, 2013, 24, 405705, doi:10.1088/0957-

4484/24/40/405705

[256] Zhang Y., Wei N., Zhao J., Gong Y., Rabczuk T.: Quasi-analytical solution

for the stable system of the multi-layer folded graphene wrinkles, Journal of Applied

Physics, 2013, 114(6), DOI: 10.1063/1.4817768

[257] Jiang J.W., Park H., Rabczuk T.: Molecular Dynamics Simulations of Single-

Layer Molybdenum Disulphide (M oS 2 ): Stillinger-Weber Parametrization, Mechanical

Properties and Thermal Conductivity, Journal of Applied Physics, 2013, 114(6), DOI:

10.1063/1.4818414

[258] Vu-Bac N., Nguyen-Xuan H., Chen L., Lee C.K., Zi G., Zhuang X., Liu

G.R., Rabczuk T.: A phantom-node method with edge-based strain smoothing for

linear elastic fracture mechanics, Journal of Applied Mathematics, 2013, vol. 2013,

Article ID 978026

[259] Jiang J.W., Park H., Gall K., Leach A., Rabczuk T.: A Surface Stacking Fault

Energy Approach to Predicting Defect Nucleation in Surface-Dominated Nanostruc-

tures, Journal of the Mechanics and Physics of Solids, 2013, 61(9), 1915-1934

[260] Zhang Y., Zhao J., Jia Y., Mabrouki T., Gong Y., Wei N., Rabczuk T.: An

analytical solution on interface debonding for large diameter carbon nanotube-reinforced

composite with functionally graded variation interphase, Composite Structures, 2013,

104, 261-269

[261] Jiang J.W., Wang B.S., Rabczuk T.: Why twisting angles are diverse in graphene

Moir’e patterns?, Journal of Applied Physics, 2013, 113(19), art. no. 194304

[262] Areias P., Rabczuk T.: Finite strain fracture of plates and shells with configurational

forces and edge rotation, International Journal for Numerical Methods in Engineering,

2013, 94(12), 1099-1122

[263] Zhao J., Jiang J.W., Wei N., Zhang Y., Rabczuk T.: Thermal conductivity

dependence on chain length in amorphous polymers, Journal of Applied Physics, 2013,

113, 184304, doi: 10.1063/1.4804237

[264] Kerfriden P., Schmidt K.M., Rabczuk T., Bordas S.: Statistical extraction of

process zones and representative subspaces in fracture of random composites, Interna-

tional Journal for Multiscale Computational Engineering, 2013, 11(3), 253-287

[265] Jiang J.W., Rabczuk T.: Modulation of Thermal Conductivity in kinked Silicon

Nanowires: Phonon interchanging and pinching effects or Reduction of thermal conduc-

tivity in kinked silicon nanowire superlattices, Nano Letters, 2013, 13(4), 1670-1674

[266] Jiang J.W., Rabczuk T.: Mechanical Oscillation of Kinked Silicon Nanowires: a

Natural Nanoscale Spring, Applied Physics Letters, 2013, 102, 123104

[267] Rafiee R., Rabczuk T., Pourazizi R., Zhao J., Zhang Y.: Challenges of the mod-

eling methods for investigating the interaction between the CNT and the surrounding

polymer, Advances in Materials Science and Engineering, 2013, Article ID 183026, Vol. 2013. doi:10.1155/2013/183026

[268] Joshi S., Hildebrand J., Aloraier A.S., Rabczuk T.: Characterization of material

properties and heat source parameters in welding simulation of two overlapping beads

on a substrate plate, Computational Materials Science, 2013, 69, 559-565

[269] Jiang J.W., Zhao J., Rabczuk T.: Size-Sensitive Young’s Modulus of Kinked Silicon

Nanowires, Nanotechnology, 2013, 24, 185702, doi:10.1088/0957-4484/24/18/185702

[270] Nguyen-Thoi T., Phung-Van P., Rabczuk T., Nguyen-Xuan H., Le-Van C.:

Free and forced vibration analysis using the n-sided polygonal cell-based smoothed finite

element method (nCS-FEM), International Journal of Computational Methods, 2013,

10(1), art. no. 1340008

[271] Le C.V., Nguyen-Xuan H., Askes H., Rabczuk T., Nguyen-Thoi T.: Compu-

tation of limit load using edge-based smoothed finite element method and second-order

cone programming, International Journal of Computational Methods, 2013, 10(1), art.

no. 1340004

[272] Nguyen-Thoi T., Phung-Van P., Rabczuk T., Nguyen-Xuan H., Le-Van C.:

An application of the ES-FEM in solid domain for dynamic analysis of 2D fluid-solid

interaction problems, International Journal of Computational Methods, 2013, 10(1), art.

no. 1340003

[273] Phan-Dao H., Nguyen-Xuan H., Thai-Hoang C., Nguyen-Thoi T., Rabczuk

T.: An edge-based smoothed finite element method for analysis of laminated composite

plates, International Journal of Computational Methods, 2013, 10(1), art. no. 1340005

[274] Bakar I., Kramer O., Bordas S.P.A., Rabczuk T.: Optimization of Elastic Prop-

erties and Weaving Patterns of Woven Composites, Composite Structures, 2013, 100,

575-591

[275] Zhao J., Wang L., Jiang J.W., Wang Z., Guo W., Rabczuk T.: A comparative

study of two molecular mechanics models based on harmonic potentials, Journal of

Applied Physics, 2013, 113, 063509

[276] Zhao J., Wei N., Fan Z., Jiang J.W., Rabczuk T.: Mechanical properties of three

types of carbon allotropes, Nanotechnology, 2013, 24(9), 09570

[277] Zhao J., Jiang J.W., Jia Y., Guo W., Rabczuk T.: A theoretical analysis of

cohesive energy between carbon nanotubes, graphene and substrates, Carbon, 2013, 57,

108-119

[278] Kerfriden P., Goury O., Rabczuk T., Bordas S.: A partitioned model order re-

duction approach to rationalise computational expenses in nonlinear fracture mechanics,

Computer Methods in Applied Mechanics and Engineering, 2013, 256, 169-188

[279] Valizadeh N., Natarajan S., Gonzalez-Estrada O.A., Rabczuk T., Tinh Quoc

Bui, Bordas S.P.A.: NURBS-based finite element analysis of functionally graded

plates: static bending, vibration, buckling and flutter, Composite Structures, 2013, 99,

309-326

[280] Areias P., Rabczuk T., Dias-da-Costa D.: Assumed-metric spherically-interpolated

quadrilateral shell element, Finite Elements in Analysis and Design, 2013, 66, 53-67

[281] Zhang Y., Zhao J., Wei N., Jiang J.W., Rabczuk T.: Effects of the dispersion

of polymer wrapped two neighbouring single walled carbon nanotubes (SWNTs) on

nanoengineering load transfer, Composites Part B: Engineering, 2013, 45(1), 1714-1721

[282] Nguyen-Xuan H., Liu G.R., Bordas S., Natarajan S., Rabczuk T.: An adap-

tive singular ES-FEM for mechanics problems with singular field of arbitrary order,

Computer Methods in Applied Mechanics and Engineering, 2013, 253, 252-273

2012

[283] Areias P., Rabczuk T., Dias-da-Costa D.: Asymmetric Shell Elements Based on

a Corrected Updated-Lagrangian Approach, CMES-Computer Modeling in Engineering

& Sciences, 2012, 88(6), 475-506

[284] Jiang J.W., Park H.S., Rabczuk T.: Enhancing the mass sensitivity of graphene

nanoresonators via nonlinear oscillations: The effective strain mechanism, Nanotechnol-

ogy, 2012, 23(47), art. no. 475501

[285] Nguyen-Xuan H., Nguyen Vinh H., Bordas S., Rabczuk T., Duflot M.: A cell-

based smoothed finite element method for three-dimensional solid structures, KSCE-

Journal of Civil Engineering, 2012, 16(7), 1230-1242

[286] Zhao J., Guo W., Rabczuk T.: An analytical molecular mechanics model for the

elastic properties of crystalline polyethylene, Journal of Applied Physics, 2012, 112(3),

Article number 033516, DOI: 10.1063/1.4745035

[287] Thai C.H., Nguyen-Xuan H., Nguyen-Thanh N., Le T.H., Nguyen-Thoi

T., Rabczuk T.: Static, free vibration and buckling analysis of laminated compos-

ite Reissner-Mindlin plates using NURBS-based isogeometric approach, International

Journal for Numerical Methods in Engineering, 2012, 91(6), 571-603

[288] Natarajan S., Chakraborty S., Thangavel M., Bordas S., Rabczuk T.: Size-

dependent free flexural vibration behavior of functionally graded nanoplates, Computa-

tional Materials Science, 2012, 65, 74-80

[289] Nguyen-Vinh H., Bakar I., Msekh M.A., Song J.-H., Muthu J., Zi G., Le P.,

Bordas S., Simpson R., Natararajan S., Lahmer T., Rabczuk T.: Extended

Finite Element Method for Dynamic Fracture of Piezo-Electric Materials, Engineering

Fracture Mechanics, 2012, 92, 19-31

[290] Talebi H., Zi G., Silani M., Samaniego E., Rabczuk T.: A simple circular cell

method for multi-level finite element analysis, Journal of Applied Mathematics, 2012,

Article ID 526846, 15 pages, doi:10.1155/2012/526846

[291] Talebi H., Silani M., Arnold D., Ziaei-Rad S., Rabczuk T.: On the coupling of

a commercial finite element package with lammps for multiscale modeling of materials,

Steel Research International, 2012, SI, 1371-1374

[292] Jiang J.-W., Wang B.S., Rabczuk T.: Acoustic and breathing phonon modes

in bilayer graphene with Moire-acute patterns, Applied Physics Letters, 2012, 101(2),

023113, doi: 10.1063/1.4735246

[293] Jiang J.-W., Zhao J., Zhou K., Rabczuk T.: Superior thermal conductivity and

extremely high mechanical strength in polyethylene chains from ab initio calculation,

Journal of Applied Physics, 2012, 111(12), 124304, doi: 10.1063/1.4729489

[294] Areias P., Rabczuk T., Dias-da-Costa D., Piresh E.B.: Implicit solutions with

consistent additive and multiplicative components, Finite Elements in Analysis and

Design, 2012, 57, 15-31

[295] Nguyen-Xuan H., Rabczuk T., Nguyen-Thoi T., Tran T., Nguyen-Thanh

N.: Computation of limit and shakedown loads using a node-based smoothed finite

element method, International Journal for Numerical Methods in Engineering, 2012,

90(3), 287-310

[296] Chen L., Rabczuk T., Bordas S., Liu G.R., Zeng K.Y., Kerfriden P.: Extended

finite element method with edge-based strain smoothing (Esm-XFEM) for linear elastic

crack growth, Computer Methods in Applied Mechanics and Engineering, 2012, 209-

212(4), 250-265

[297] Talebi H., Samaniego C., Samaniego E., Rabczuk T.: On the Numerical Stability

and Mass- Lumping Schemes for Explicit Enriched Meshfree Methods, International

Journal for Numerical Methods in Engineering, 2012, 89(9), 1009-1027

[298] Chau-Dinh T., Zi G., Lee P.S., Song J.H., Rabczuk T.: Phantom-node Method

for Shell Models with Arbitrary Cracks, Computers & Structures, 2012, 92-93, 242-256

[299] Simpson R., Bordas S., Trevelyan J., Kerfriden P., Rabczuk T.: An Isogeomet-

ric Boundary Element Method for elastostatic analysis, Computer Methods in Applied

Mechanics and Engineering, 2012, 209-212, 87-100

2011

[300] Zhao J., Zhang Z., Guo W., Rabczuk T.: Size-dependent elastic properties of

crystalline polymers via a molecular mechanics model, Applied Physics Letters, 2011,

99(24), 241902, doi:10.1063/1.3668110

[301] Baiz P.M., Natarajan S., Bordas S., Kerfriden P., Rabczuk T.: Linear Buckling

Analysis of Cracked Plates by SFEM and XFEM (SmXFEM), Journal of Mechanics of

Materials and Structures, 2011, 6(9-10), 1213-1238

[302] Nguyen-Thanh N., Kiendl J., Nguyen-Xuan H., Wüchner R., Bletzinger

K.U., Bazilevs Y., Rabczuk T.: Rotation free isogeometric thin shell analysis using

PHT-splines, Computer Methods in Applied Mechanics and Engineering, 2011, 200(47-

48), 3410-3424

[303] Bacht T., Chase J.G, MacRae G., Rodgers G.W., Rabczuk T., Dhakal R.P.,

Desombre J.: HF2V dissipator effects on the performance of a 3 story moment frame,

Journal of Constructional Steel Research, 2011, 67(12), 1843-1849

[304] Natarajan S., Baiz P.M., Bordas S., Rabczuk T., Kerfriden P.: Natural fre-

quencies of cracked functionally graded material plates by the extended finite element

method, Composite Structures, 2011, 93(11), 3082-3092

[305] Moosavi M.R., Delfanian F., Khelil A., Rabczuk T.: Orthogonal meshless finite

volume method in elastodynamics, Thin-Walled Structures, 2011, 49(9), 1171-1177

 

 

[306] Vu-Bac N., Nguyen-Xuan H., Chen L., Bordas S., Kerfriden P., Simpson

R.N., Liu G.R., Rabczuk T.: A Node-based Smoothed extended Finite Element

Method (NSXFEM) for Fracture Analysis, CMES-Computer Modeling in Engineering

& Sciences, 2011, 73(4), 331-355

 

 

[307] Thai-Hoang C., Nguyen-Thanh N., Nguyen-Xuan H., Rabczuk T.: An al-

ternative alpha finite element method with discrete shear gap technique for analysis

of laminated composite plates, Applied Mathematics and Computation, 2011, 217(17),

7324-7348

[308] Nguyen-Thanh N., Nguyen-Xuan H., Bordas S., Rabczuk T.: Isogeometric

analysis using polynomial splines over hierarchical T-meshes for two-dimensional elastic

solids, Computer Methods in Applied Mechanics and Engineering, 2011, 200(21-22),

1892-1908

[309] Bordas S., Natarajan S., Dal Pont S., Rabczuk T., Kerfriden P., Mahapatra

D.R., Noel D., Gao Z.: On the performance of strain smoothing for enriched finite el-

ement approximations (XFEM/GFEM/PUFEM), International Journal for Numerical

Methods in Engineering, 2011, 86(4-5), 637-666

[310] Desombre J., Rodgers G.W., MacRae G.A., Rabczuk T., Dhakal R.P., Chase

J.G.: Experimentally validated FEA models of HF2V damage free steel connections

for use in full structural analysis, Structural Engineering and Mechanics, 2011, 37(4),

385-399

[311] Nguyen-Thanh N., Rabczuk T., Nguyen-Xuan H., Bordas S.: An alternative

alpha finite element method with discrete shear gap technique for analysis of Mindlin-

Reissner plates, Finite Elements in Analysis and Design, 2011, 47(5), 519-535

[312] Thai-Hoang C., Nguyen-Thanh N., Nguyen-Xuan H., Rabczuk T., Bordas

S.: A cell-based smoothed finite element method for free vibration and buckling analysis

of shells, KSCE-Korean Journal of Civil Engineeing, 2011, 15(2), 347-361

2010

[313] Nguyen-Thoi T., Vu-Do H.C., Rabczuk T., Nguyen-Xuan H.: A node-based

smoothed finite element method (NS-FEM) for upper bound solution to visco-elastoplastic

analysis of solids using triangular and tetrahedral meshes, Computer Methods in Applied

Mechanics and Engineering, 2010, 199(45-48), 3005-3027

[314] Canh V. Le, Nguyen-Xuan H., Askes H., Bordas S., Rabczuk T., Nguyen-

Vinh H.: A cell based smoothed finite element method for kinematic limit analysis,

International Journal for Numerical Methods in Engineering, 2010, 83(12), 1651-1674

[315] Le Phong B.E., Rabczuk T., Mai-Duy Nam, Tran-Cong Thanh: A Moving Lo-

cal IRBFN based Galerkin meshless method, CMES-Computer Modeling in Engineering

and Sciences, 2010, 66(1), 25-52

[316] Akbari, A., Bagri, R., Bordas S.P.A., Rabczuk T.: Analysis of thermoelastic

waves in a two-dimensional functionally graded materials domain by the Meshless Lo-

cal Petrov Galerkin (MLPG) method, CMES-Computer Modeling in Engineering and

Sciences, 2010, 65(1), 27-74

[317] Rabczuk T., Bordas S., Zi G.: On three-dimensional modelling of crack growth

using partition of unity methods, Computers & Structures, 2010, 88(23-24), 1391-1411

(invited)

[318] Bordas S., Rabczuk T., Nguyen-Xuan H., S. Natarajan, T. Bog, Nguyen.V.

P., Q. Do Minh, H. Nguyen Vinh: Strain Smoothing in FEM and XFEM, Com-

puters & Structures, 2010, 88(23-24), 1419-1443 (invited)

[319] Hann C.E., Hewett D., Chase J.G., Rabczuk T., Sundaresan A., Chen X.,

Wang W., Shaw G.M.: Image-based measurement of alveoli volume expansion in

an animal model of a diseased lung, International Journal of Computer Applications in

Technology, 2010, 39(1-3), 58-65

[320] Le Phong B.E., Rabczuk T., Mai-Duy Nam, Tran-Cong Thanh: A Moving

IRBFN based integration-free meshless method, CMES-Computer Modeling in Engi-

neering and Sciences, 2010, 61(1), 63-109

[321] Nguyen-Xuan H., Rabczuk T., Nguyen-Thanh N., Nguyen-Thoi T., Bordas

S.: A node-based smoothed finite element method (NS-FEM) with stabilized discrete

shear gap technique for analysis of Reissner-Mindlin plates, Computational Mechanics,

2010, 46(5), 679-701

[322] Rabczuk T., Zi G., Bordas S., Nguyen-Xuan H.: A simple and robust three-

dimensional cracking-particle method without enrichment, Computer Methods in Ap-

plied Mechanics and Engineering, 2010, 199(37-40), 2437-2455

[323] Nguyen-Thanh N., Rabczuk T., Nguyen-Xuan H., Bordas S.: An alternative

alpha finite element method (A”FEM) free and forced vibration analysis of solids using

triangular meshes, Journal of Computational and Applied Mathematics, 2010, 233(9),

2112-2135

[324] Rabczuk T., Gracie R., Song J.H., Belytschko T.: Immersed particle method for

fluid-structure interaction, International Journal for Numerical Methods in Engineering,

2010, 81(1), 48-71

[325] Areias P.M.A, Rabczuk T.: Smooth finite strain plasticity with nonlocal pressure

support, International Journal for Numerical Methods in Engineering, 2010, 81(1), 106-

134

2009

[326] Rabczuk T., Song J.H., Belytschko T.: Simulations of Instability in Dynamic Frac-

ture by the Cracking Particles Method, Engineering Fracture Mechanics, 2009, 76(6),

730-741

2008

[327] Rabczuk T., Zi G., Bordas S., Nguyen-Xuan H.: A geometrically non-linear

three dimensional cohesive crack method for reinforced concrete structures, Engineering

Fracture Mechanics, 2008, 75(16), 4740-4758

[328] Nguyen-Thanh N., Rabczuk T., Nguyen-Xuan H., Bordas S.: A smoothed

finite element method for shell analysis, Computer Methods in Applied Mechanics and

Engineering, 2008, 198(2), 165-177

[329] Rabczuk T., Zi G., Gerstenberger A., Wall W.A.: A new crack tip element

for the phantom node method with arbitrary cohesive cracks, International Journal for

Numerical Methods in Engineering, 2008, 75(5), 577-599

[330] Nguyen-Xuan H., Rabczuk T., Bordas S., Debongnie J.F.: A smoothed fi-

nite element method for plate analysis, Computer Methods in Applied Mechanics and

Engineering, 2008, 197(13-16), 1184- 1203

[331] Wall W.A., Rabczuk T.: Fluid-Structure Interaction in lower airways of CT-based

lung geometries, International Journal for Numerical Methods in Fluids, 2008, 57(5),

653-675 (invited)

[332] Bordas, S., Rabczuk T., Zi. G.: Three-dimensional crack initiation, propagation,

branching and junction in non-linear materials by extrinsic discontinuous enrichment

of meshfree methods without asymptotic enrichment, Engineering Fracture Mechanics,

2008, 75(5), 943-960

[333] Areias P.M.A., Rabczuk T.: Quasi-static crack propagation in plane and plate

structures using set-valued traction-separation laws, International Journal for Numeri-

cal Methods in Engineering, 2008, 74(3), 475-505

[334] Rabczuk T., Samaniego E.: Discontinuous modelling of shear bands using adaptive

meshfree methods, Computer Methods in Applied Mechanics and Engineering, 2008,

197(6-8), 641-658

[335] Rabczuk T., Zi G.: Numerical Fracture Analysis of prestressed concrete beams,

International Journal of Concrete Structures and Materials, 2008, 2(2)

[336] Nguyen V.P., Rabczuk T., Bordas S. Duflot M.: Meshless methods: A review and

computer implementation aspects, Mathematics and Computers in Simulation, 2008, 79,

763-813

2007

[337] Rabczuk T., Areias P.M.A., Belytschko T.: A meshfree thin shell method for non-

linear dynamic fracture, International Journal for Numerical Methods in Engineering,

2007, 72(5), 524-548

[338] Rabczuk T., Samaniego E., Belytschko T.: Simplified model for predicting im-

pulsive loads on submerged structures to account for fluid-structure interaction, Inter-

national Journal of Impact Engineering, 2007, 34(2), 163-177

[339] Rabczuk T., Areias P.M.A., Belytschko T.: A simplified meshfree method for

shear bands with cohesive surfaces, International Journal for Numerical Methods in

Engineering, 2007, 69(5), 993-1021

[340] Plotzitza A., Rabczuk T., Eibl J.: Techniques for Numerical Simulations of Con-

crete Slabs for Demolishing by Blasting, Journal of Engineering Mechanics ASCE, 2007,

133(5), 523-533

[341] Rabczuk T., Zi G.: A meshfree method based on the local partition of unity for

cohesive cracks, Computational Mechanics, 2007, 39(6), 743-760

[342] Rabczuk T., Belytschko T.: A three dimensional large deformation meshfree method

for arbitrary evolving cracks, Computer Methods in Applied Mechanics and Engineering,

2007, 196(29-30), 2777-2799

[343] Zi G., Rabczuk T., Wall W.A.: Extended Meshfree Methods without Branch En-

richment for Cohesive Cracks, Computational Mechanics, 2007, 40(2), 367-382

[344] Rabczuk T., Bordas S., Zi G.: A three-dimensional meshfree method for continuous

multiplecrack initiation, nucleation and propagation in statics and dynamics, Compu-

tational Mechanics, 2007, 40(3), 473-495

2006

[345] Rabczuk T., Eibl J.: Modeling dynamic failure of concrete with meshfree particle

methods, International Journal of Impact Engineering, 2006, 32 (11), 1878-1897

[346] Rabczuk T., Belytschko T.: Application of particle methods to static fracture of

reinforced concrete structures, International Journal of Fracture, 2006, 137(1-4), 19-49

[347] Rabczuk T., Areias P.M.A.: A new approach for modelling slip lines in geological

materials with cohesive models, International Journal for Numerical and Analytical

Methods in Engineering, 2006, 30(11), 1159-1172

[348] Rabczuk T., Xiao S.P., Sauer M.: Coupling of meshfree methods with finite el-

ements: Basic concepts and test results, Communications in Numerical Methods in

Engineering, 2006, 22(10), 1031-1065

[349] Rabczuk T., Areias P.M.A.: A meshfree thin shell for arbitrary evolving cracks

based on an external enrichment, CMES-Computer Modeling in Engineering and Sci-

ences, 2006, 16(2), 115-130

2005

[350] Rabczuk T., Akkermann J., Eibl J.: A numerical model for reinforced concrete

structures, International Journal of Solids and Structures, 2005, 42(5-6), 1327-1354

[351] Rabczuk T., Belytschko T.: Adaptivity for structured meshfree particle methods in

2D and 3D, International Journal for Numerical Methods in Engineering, 2005, 63(11),

1559-1582

2004

[352] Rabczuk T., Eibl J., Stempniewski L.: Numerical analysis of high speed concrete

fragmentation using a meshfree Lagrangian method, Engineering Fracture Mechanics,

2004, 71, 547-556

[353] Rabczuk T., Eibl J.: Numerical analysis of prestressed concrete beams using a cou-

pled element free Galerkin/finite element method, International Journal of Solids and

Structures, 2004, 41 (3- 4), 1061-1080

[354] Rabczuk T., Belytschko T., Xiao S.P.: Stable particle methods based on La-

grangian kernels, Computer Methods in Applied Mechanics and Engineering, 2004, 193(12-

14), 1035-1063

[357] Rabczuk T., Eibl J., Stempniewski L.: Simulation of high velocity concrete frag-

mentation using SPH/MLSPH, International Journal for Numerical Methods in Engi-

neering, 2003, 56(10), 1421-1444

Invited Publications in peer-reviewed National or Non-ISI Journals

[1] Tran T., Zhuang X., Rabczuk T.: Numerical study for cohesive zone model in

delamination analysis based on higher-order B-spline functions, Journal of Microme-

chanics and Molecular Physics, 2017, in press.

[2] Ren H., Zhuang X., Rabczuk T.: A new Peridynamic formulation with shear

deformation for elastic solid, Journal of Micromechanics and Molecular Physics, 2016,

1(2), article number: 1650009, DOI: 10.1142/S2424913016500090.

[3] Shirazi A.H.N., Kakavand M.R.A., He B., Rabczuk T.: Numerical Study of

Composite Electrode’s Particle Size Effect on the Electrochemical and Heat Generation

of a Li-ion Battery, ASME Journal of Nanotechnology in Engineering and Medicine, in

press

[4] Nguyen-Xuan H., Rabczuk T. Adaptive selective ES-FEM limit analysis of cracked

plane-strain structures, Frontiers of Structural and Civil Engineering, in press

[5] Akbar A.B.I., Kramer O., Rabczuk T.: Multi-Objective Evolutionary Optimiza-

tion of Sandwich Structures: An Evaluation by Elitist Non-dominated Sorting Evolution

Strategy, American Journal of Engineering and Applied Sciences, in press

[6] Rabczuk T.: Computational Methods for Fracture in Brittle and Quasi-Brittle Solids:

State-of-the-art Review and Future Perspectives, ISRN Applied Mathematics, 2013, Ar-

ticle ID 849231, 38 pages, doi:10.1155/2013/849231

[7] Nguyen-Thoi T., Luong-Van H., Phung-Van P., Rabczuk T., Tran-Trung D.:

Dynamic Responses of Composite Plates on the Pasternak Foundation Subjected to a

Moving Mass by a Cell-based Smoothed Discrete Shear Gap (CS-FEM-DSG3) Method,

International Journal of Composite Materials, 2013, 3(6A), 19-27

[8] Kalameh H.A., Karamali A., Anitescu C. Rabczuk T.: High velocity impact

of metal sphere on thin metallic plate using smooth particle hydrodynamics (SPH)

method, Frontiers of Structural and Civil Engineering, 2012, 6(2), 101-110

[9] Dunant C.F., Bordas S.P.A., Kerfriden P., Scrivener K.L., Rabczuk T.: An

algorithm to compute damage from load in composites, Frontiers of Architecture and

Civil Engineering in China, 2011, 5(2), 180-193

[10] Nguyen-Thanh N, Thai-Hoang C, Nguyen-Xuan H, Rabczuk T: A smoothed

finite element method for the static and free vibration analysis of shells, Journal of Civil

Engineering and Architecture, 2010, 4(34), 13-25

[11] Eibl J., Rabczuk T.: Untersuchungen zum Fragmentierungsverhalten von Beton mit

Hilfe der SPH/MLSPH-Methode, Bauingenieur, 2004, 11, 522-527

[12] Rabczuk T., Belytschko T.: An adaptive continuum/discrete crack approach for

meshfree particle methods, Latin American Journal of Solids and Structures, 2003, 1(1),

141-166

Lecture Notes

[1] Rabczuk T.: Extended Finite Element and Meshfree Methods, 2006

www.uni-weimar.de/cms/bauing/forschung/institute/ism/lehre/xfem-mfm.html

PhD-thesis

[1] Rabczuk T.: Numerical analysis of concrete fragmentation using SPH (Numerische

Untersuchungen zum Fragmentierungsverhalten von Beton mit Hilfe der SPH-Methode),

Dissertation, Januar 2002, Institut für Massibau und Baustofftechnologie, Heft 45, Uni-

versity of Karlsruhe (http://www.ubka.uni-karlsruhe.de/cgi-bin/psview?document=2002/bau-

verm/2)