Follow
Dongmin Yang
Dongmin Yang
Reader, The University of Edinburgh
No verified email
Title
Cited by
Cited by
Year
Discrete element method (DEM) modeling of fracture and damage in the machining process of polycrystalline SiC
Y Tan, D Yang, Y Sheng
Journal of the European ceramic society 29 (6), 1029-1037, 2009
2282009
Numerical investigation of the location of maximum erosive wear damage in elbow: Effect of slurry velocity, bend orientation and angle of elbow
H Zhang, Y Tan, D Yang, FX Trias, S Jiang, Y Sheng, A Oliva
Powder Technology 217, 467-476, 2012
1342012
A coupled SPH-DEM model for fluid-structure interaction problems with free-surface flow and structural failure
K Wu, D Yang, N Wright
Computers & Structures 177, 141-161, 2016
1332016
Performance-driven 3D printing of continuous curved carbon fibre reinforced polymer composites: A preliminary numerical study
H Zhang, D Yang, Y Sheng
Composites Part B: Engineering 151, 256-264, 2018
1062018
Numerical simulation of concrete pumping process and investigation of wear mechanism of the piping wall
Y Tan, H Zhang, D Yang, S Jiang, J Song, Y Sheng
Tribology International 46 (1), 137-144, 2012
1042012
Recent development on underground coal gasification and subsequent CO2 storage
D Yang, N Koukouzas, M Green, Y Sheng
Journal of the energy institute 89 (4), 469-484, 2016
962016
A GPU-based Coupled SPH-DEM Method for Particle-Fluid Flow with Free Surfaces
Y He, A Bayly, F Muller, A Hassanpour, K Wu, D Yang
Powder Technology, 2018
932018
Numerical investigation on the role of discrete element method in combined LBM–IBM–DEM modeling
H Zhang, Y Tan, S Shu, X Niu, FX Trias, D Yang, H Li, Y Sheng
Computers & Fluids 94, 37-48, 2014
912014
Discrete element modeling of the microbond test of fiber reinforced composite
D Yang, Y Sheng, J Ye, Y Tan
Computational materials science 49 (2), 253-259, 2010
862010
Study of polycrystalline Al2O3 machining cracks using discrete element method
Y Tan, D Yang, Y Sheng
International Journal of Machine Tools and Manufacture 48 (9), 975-982, 2008
852008
Fibre flow and void formation in 3D printing of short-fibre reinforced thermoplastic composites: An experimental benchmark exercise
D Yang, H Zhang, J Wu, ED McCarthy
Additive Manufacturing 37, 101686, 2021
782021
Fibre misalignment and breakage in 3D printing of continuous carbon fibre reinforced thermoplastic composites
H Zhang, J Chen, D Yang
Additive manufacturing 38, 101775, 2021
752021
Failure analysis of 3D printed woven composite plates with holes under tensile and shear loading
H Zhang, AN Dickson, Y Sheng, T McGrail, DP Dowling, C Wang, ...
Composites Part B: Engineering 186, 107835, 2020
682020
Discrete element method for generating random fibre distributions in micromechanical models of fibre reinforced composite laminates
Y Ismail, D Yang, J Ye
Composites Part B: Engineering 90, 485-492, 2016
682016
Discrete element modelling of unidirectional fibre-reinforced polymers under transverse tension
Y Ismail, Y Sheng, D Yang, J Ye
Composites Part B: Engineering 73, 118-125, 2015
632015
Micro-damage evolution and macro-mechanical property degradation of limestone due to chemical effects
H Li, Z Zhong, X Liu, Y Sheng, D Yang
International Journal of Rock Mechanics and Mining Sciences 110, 257-265, 2018
622018
Modeling progressive delamination of laminated composites by discrete element method
D Yang, J Ye, Y Tan, Y Sheng
Computational materials science 50 (3), 858-864, 2011
612011
Microstructure effects on transverse cracking in composite laminae by DEM
Y Sheng, D Yang, Y Tan, J Ye
Composites Science and Technology 70 (14), 2093-2101, 2010
602010
Numerical modelling of FRP-reinforced masonry walls under in-plane seismic loading
S Zhang, D Yang, Y Sheng, S W Garrity, L Xu
Construction and Building Materials, 2016
58*2016
A particle element approach for modelling the 3D printing process of fibre reinforced polymer composites
D Yang, K Wu, L Wan, Y Sheng
Journal of Manufacturing and Materials Processing 1 (1), 10, 2017
562017
The system can't perform the operation now. Try again later.
Articles 1–20