| A comparison of turbulent pipe, channel and boundary layer flows JP Monty, N Hutchins, HCH Ng, I Marusic, MS Chong Journal of Fluid Mechanics 632, 431-442, 2009 | 397 | 2009 |
| Three-dimensional conditional structure of a high-Reynolds-number turbulent boundary layer N Hutchins, JP Monty, B Ganapathisubramani, HCH Ng, I Marusic Journal of Fluid Mechanics 673, 255-285, 2011 | 190 | 2011 |
| 3D printing with 2D colloids: Designing rheology protocols to predict ‘printability’of soft-materials A Corker, HCH Ng, RJ Poole, E García-Tuñón Soft Matter 15 (6), 1444-1456, 2019 | 163 | 2019 |
| Comparison of turbulent channel and pipe flows with varying Reynolds number HCH Ng, JP Monty, N Hutchins, MS Chong, I Marusic Experiments in fluids 51, 1261-1281, 2011 | 76 | 2011 |
| Empirical mode decomposition and Hilbert transforms for analysis of oil-film interferograms K Chauhan, HCH Ng, I Marusic Measurement Science and Technology 21 (10), 105405, 2010 | 31 | 2010 |
| Partially filled pipes: experiments in laminar and turbulent flow HCH Ng, HLF Cregan, JM Dodds, RJ Poole, DJC Dennis Journal of Fluid Mechanics 848, 467-507, 2018 | 27 | 2018 |
| Turbulent pipe flow at Reτ≈ 1000: A comparison of wall-resolved large-eddy simulation, direct numerical simulation and hot-wire experiment C Chin, HCH Ng, HM Blackburn, JP Monty, A Ooi Computers & Fluids 122, 26-33, 2015 | 26 | 2015 |
| Oil film interferometry in high Reynolds number turbulent boundary layers HCH Ng, I Marusic, JP Monty, N Hutchins, MS Chong 16th Australasian Fluid Mechanics Conference (AFMC), 807-814, 2007 | 26 | 2007 |
| GO CaBER: Capillary breakup and steady-shear experiments on aqueous graphene oxide (GO) suspensions HCH Ng, A Corker, E García-Tuñón, RJ Poole Journal of Rheology 64 (1), 81-93, 2020 | 17 | 2020 |
| Parasitic loss due to leading edge instrumentation on a low-pressure turbine blade HCH Ng, JD Coull Journal of Turbomachinery 139 (4), 041007, 2017 | 17 | 2017 |
| Energetic motions in turbulent partially filled pipe flow HCH Ng, E Collignon, RJ Poole, DJC Dennis Physics of Fluids 33 (2), 2021 | 14 | 2021 |
| Low-and high-drag intermittencies in turbulent channel flows R Agrawal, HCH Ng, EA Davis, JS Park, MD Graham, DJC Dennis, ... Entropy 22 (10), 1126, 2020 | 12 | 2020 |
| Minimizing recalibration using a non-linear regression technique for thermal anemometry R Agrawal, RD Whalley, HCH Ng, DJC Dennis, RJ Poole Experiments in Fluids 60, 1-13, 2019 | 10 | 2019 |
| Spectral analogues of the law of the wall, the defect law and the log law CZ Zamalloa, HCH Ng, P Chakraborty, G Gioia Journal of fluid mechanics 757, 498-513, 2014 | 10 | 2014 |
| Investigating channel flow using wall shear stress signals at transitional Reynolds numbers R Agrawal, HCH Ng, DJC Dennis, RJ Poole International Journal of Heat and Fluid Flow 82, 108525, 2020 | 7 | 2020 |
| Highlighting the need for high-speed imaging in capillary breakup extensional rheometry HCH Ng, RJ Poole Measurement Science and Technology 32 (9), 095301, 2021 | 5 | 2021 |
| Charge screening wormlike micelles affects extensional relaxation time and noodle formation R Huang, D McDowall, H Ng, L Thomson, YK Al-Hilaly, J Doutch, ... Chemical Communications 58 (74), 10388-10391, 2022 | 4 | 2022 |
| Five hole probe errors caused by fluctuating incidence J Coull, T Dickens, H Ng, J Serna E3S Web of Conferences 345, 01006, 2022 | 4 | 2022 |
| Experiments in smooth wall turbulent channel and pipe flows HCH Ng University of Melbourne, Department of Mechanical Engineering, 2012 | 4 | 2012 |
| Polymer-dominant drag reduction in turbulent channel flow over a superhydrophobic surface L Zhang, RI Garcia-Gonzalez, CR Crick, HCH Ng, RJ Poole Physics of Fluids 35 (12), 2023 | 3 | 2023 |
Ivan MarusicUniversity of Melbourne在 unimelb.edu.au 的电子邮件经过验证
