Cracking particles: a simplified meshfree method for arbitrary evolving cracks T Rabczuk, T Belytschko International journal for numerical methods in engineering 61 (13), 2316-2343, 2004 | 1554 | 2004 |
Meshless methods: a review and computer implementation aspects VP Nguyen, T Rabczuk, S Bordas, M Duflot Mathematics and computers in simulation 79 (3), 763-813, 2008 | 1442 | 2008 |
An energy approach to the solution of partial differential equations in computational mechanics via machine learning: Concepts, implementation and applications E Samaniego, C Anitescu, S Goswami, VM Nguyen-Thanh, H Guo, ... Computer Methods in Applied Mechanics and Engineering 362, 112790, 2020 | 1252 | 2020 |
A three-dimensional large deformation meshfree method for arbitrary evolving cracks T Rabczuk, T Belytschko Computer methods in applied mechanics and engineering 196 (29-30), 2777-2799, 2007 | 1117 | 2007 |
A simple and robust three-dimensional cracking-particle method without enrichment T Rabczuk, G Zi, S Bordas, H Nguyen-Xuan Computer Methods in Applied Mechanics and Engineering 199 (37-40), 2437-2455, 2010 | 853 | 2010 |
Isogeometric analysis: an overview and computer implementation aspects VP Nguyen, C Anitescu, SPA Bordas, T Rabczuk Mathematics and Computers in Simulation 117, 89-116, 2015 | 726 | 2015 |
Artificial neural network methods for the solution of second order boundary value problems C Anitescu, E Atroshchenko, N Alajlan, T Rabczuk Computers, Materials & Continua 59 (1), 345-359, 2019 | 703 | 2019 |
Dual‐horizon peridynamics H Ren, X Zhuang, Y Cai, T Rabczuk International Journal for Numerical Methods in Engineering 108 (12), 1451-1476, 2016 | 669 | 2016 |
Dual-horizon peridynamics: A stable solution to varying horizons H Ren, X Zhuang, T Rabczuk Computer Methods in Applied Mechanics and Engineering 318, 762-782, 2017 | 602 | 2017 |
A software framework for probabilistic sensitivity analysis for computationally expensive models N Vu-Bac, T Lahmer, X Zhuang, T Nguyen-Thoi, T Rabczuk Advances in Engineering Software 100, 19-31, 2016 | 591 | 2016 |
Covid-19 outbreak prediction with machine learning SF Ardabili, A Mosavi, P Ghamisi, F Ferdinand, AR Varkonyi-Koczy, ... Algorithms 13 (10), 249, 2020 | 551 | 2020 |
Transfer learning enhanced physics informed neural network for phase-field modeling of fracture S Goswami, C Anitescu, S Chakraborty, T Rabczuk Theoretical and Applied Fracture Mechanics 106, 102447, 2020 | 547 | 2020 |
A computational library for multiscale modeling of material failure H Talebi, M Silani, SPA Bordas, P Kerfriden, T Rabczuk Computational Mechanics 53, 1047-1071, 2014 | 539 | 2014 |
State of the art of machine learning models in energy systems, a systematic review A Mosavi, M Salimi, S Faizollahzadeh Ardabili, T Rabczuk, ... Energies 12 (7), 1301, 2019 | 506 | 2019 |
A meshfree thin shell method for non‐linear dynamic fracture T Rabczuk, PMA Areias, T Belytschko International journal for numerical methods in engineering 72 (5), 524-548, 2007 | 499 | 2007 |
Stable particle methods based on Lagrangian kernels T Rabczuk, T Belytschko, SP Xiao Computer methods in applied mechanics and engineering 193 (12-14), 1035-1063, 2004 | 498 | 2004 |
A deep collocation method for the bending analysis of Kirchhoff plate H Guo, X Zhuang, T Rabczuk arXiv preprint arXiv:2102.02617, 2021 | 482 | 2021 |
A two-dimensional isogeometric boundary element method for elastostatic analysis RN Simpson, SPA Bordas, J Trevelyan, T Rabczuk Computer Methods in Applied Mechanics and Engineering 209, 87-100, 2012 | 472 | 2012 |
Molecular dynamics simulations of single-layer molybdenum disulphide (MoS2): Stillinger-Weber parametrization, mechanical properties, and thermal conductivity JW Jiang, HS Park, T Rabczuk Journal of Applied Physics 114 (6), 2013 | 447 | 2013 |
Exceptional piezoelectricity, high thermal conductivity and stiffness and promising photocatalysis in two-dimensional MoSi2N4 family confirmed by first-principles B Mortazavi, B Javvaji, F Shojaei, T Rabczuk, AV Shapeev, X Zhuang Nano Energy 82, 105716, 2021 | 427 | 2021 |