Energy absorption characteristics of metallic triply periodic minimal surface sheet structures under compressive loading L Zhang, S Feih, S Daynes, S Chang, MY Wang, J Wei, WF Lu Additive Manufacturing 23, 505-515, 2018 | 648 | 2018 |
3D bioprinting of tissues and organs for regenerative medicine S Vijayavenkataraman, WC Yan, WF Lu, CH Wang, JYH Fuh Advanced drug delivery reviews 132, 296-332, 2018 | 587 | 2018 |
Collaborative computer-aided design—research and development status WD Li, WF Lu, JYH Fuh, YS Wong Computer-aided design 37 (9), 931-940, 2005 | 329 | 2005 |
3D bioprinting of skin: a state-of-the-art review on modelling, materials, and processes S Vijayavenkataraman, WF Lu, JYH Fuh Biofabrication 8 (3), 032001, 2016 | 279 | 2016 |
Triply periodic minimal surfaces sheet scaffolds for tissue engineering applications: An optimization approach toward biomimetic scaffold design S Vijayavenkataraman, L Zhang, S Zhang, JY Hsi Fuh, WF Lu ACS Applied Bio Materials 1 (2), 259-269, 2018 | 199 | 2018 |
Optimisation of functionally graded lattice structures using isostatic lines S Daynes, S Feih, WF Lu, J Wei Materials & Design 127, 215-223, 2017 | 187 | 2017 |
Nozzle condition monitoring in 3D printing Y Tlegenov, GS Hong, WF Lu Robotics and Computer-Integrated Manufacturing 54, 45-55, 2018 | 176 | 2018 |
Collaborative process planning and manufacturing in product lifecycle management XG Ming, JQ Yan, XH Wang, SN Li, WF Lu, QJ Peng, YS Ma Computers in Industry 59 (2-3), 154-166, 2008 | 173 | 2008 |
3D-printed ceramic triply periodic minimal surface structures for design of functionally graded bone implants S Vijayavenkataraman, LY Kuan, WF Lu Materials & Design 191, 108602, 2020 | 162 | 2020 |
Tree-structured reinforcement learning for sequential object localization Z Jie, X Liang, J Feng, X Jin, W Lu, S Yan Advances in neural information processing systems 29, 2016 | 157 | 2016 |
An approach to identify design and manufacturing features from a data exchanged part model MW Fu, SK Ong, WF Lu, IBH Lee, AYC Nee Computer-Aided Design 35 (11), 979-993, 2003 | 144 | 2003 |
Development and validation of a discretised multi-body spine model in LifeMOD for biodynamic behaviour simulation KT Huynh, I Gibson, BN Jagdish, WF Lu Computer methods in biomechanics and biomedical engineering 18 (2), 175-184, 2015 | 140 | 2015 |
A review on the use of computational methods to characterize, design, and optimize tissue engineering scaffolds, with a potential in 3D printing fabrication S Zhang, S Vijayavenkataraman, WF Lu, JYH Fuh Journal of Biomedical Materials Research Part B: Applied Biomaterials 107 (5 …, 2019 | 139 | 2019 |
3D-printed PCL/PPy conductive scaffolds as three-dimensional porous nerve guide conduits (NGCs) for peripheral nerve injury repair S Vijayavenkataraman, S Kannan, T Cao, JYH Fuh, G Sriram, WF Lu Frontiers in bioengineering and biotechnology 7, 266, 2019 | 137 | 2019 |
Technology solutions for collaborative product lifecycle management–status review and future trend XG Ming, JQ Yan, WF Lu, DZ Ma Concurrent Engineering 13 (4), 311-319, 2005 | 137 | 2005 |
Simulating dynamics of thoracolumbar spine derived from LifeMOD under haptic forces BNJ KT Huynh, I Gibson, WF Lu World academy of science, engineering and technology 4 (4), 236-243, 2010 | 132* | 2010 |
A hybrid approach to energy consumption modelling based on cutting power: a milling case N Liu, YF Zhang, WF Lu Journal of Cleaner Production 104, 264-272, 2015 | 119 | 2015 |
3D printing and 3D bioprinting in pediatrics S Vijayavenkataraman, JYH Fuh, WF Lu Bioengineering 4 (3), 63, 2017 | 114 | 2017 |
3Dprinted PCL/rGO conductive scaffolds for peripheral nerve injury repair S Vijayavenkataraman, S Thaharah, S Zhang, WF Lu, JYH Fuh Artificial Organs 43 (5), 515-523, 2019 | 111 | 2019 |
Electrohydrodynamic jet 3D-printed PCL/PAA conductive scaffolds with tunable biodegradability as nerve guide conduits (NGCs) for peripheral nerve injury repair S Vijayavenkataraman, S Thaharah, S Zhang, WF Lu, JYH Fuh Materials & Design 162, 171-184, 2019 | 111 | 2019 |