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JOURNAL PUBLICATION (*correspondent author)

  1. Alam M. N. E., Tan * Droplet Impact on a Microhole through a Partially Wetting Surface. Physics of Fluids. 2023;35(10):102011.
  2. Tan H* (2022) Absorption of millimeter- and micrometer-sized droplets on nylon powder. Experiments in Fluids 63(12):187. doi: 10.1007/s00348-022-03535-1.
  3. Asai B, Tan H*, Siddique AU (2022) Droplet impact on a micro-structured hydrophilic surface: Maximum spreading, jetting, and partial rebound. International Journal of Multiphase Flow 157:104235. doi: https://doi.org/10.1016/j.ijmultiphaseflow.2022.104235.
  4. Dey MK, Kim D, Tan H* (2022) Finite element parametric study of the split sleeve cold expansion on residual stresses and pulling force, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science:09544062211025563 doi:10.1177/09544062211025563
  5. Han T-Y, Zhang J, Tan H., Ni M-J (2021) A consistent and parallelized height function based scheme for applying contact angle to 3D Volume-of-Fluid Simulations, Journal of Computational Physics:110190 doi:https://doi.org/10.1016/j.jcp.2021.110190
  6. Asai B, Siddique AU, Tan H* (2021) Jet Dynamics Associated with Drop Impact on Micropillared Substrate, Fluids 6 doi:10.3390/fluids6040155
  7. Hashem, M.A. , A. Aghilinejad, X. Chen, and H. Tan, Compound droplet modeling for Circulating Tumor Cell (CTC) microfiltration with adaptive mesh refinement. Journal of Fluids Engineering. 2020. 142(11).
  8. Siddique A.U., M. Trimble, F. Zhao, M.M. Weislogel, and H.  Tan*, Jet ejection following drop impact on micro-pillared hydrophilic substrates. Physical Review Fluids, 2020. 5(6): p. 063606.
  9. Chang, P., C. Landry, X. Chen, and H. Tan, Compound droplet dynamics of a tumor cell squeezing through conical microfilters. Theoretical and Computational Fluid Dynamics, 2020. 34: p. 287-300.
  10. Jarrett, H., M. Wade, J. Kraai, G. Rorrer, A.X. Wang, and H. Tan*, Self-powered Microfluidic Pump Using Evaporation from Diatom Biosilica Thin Films. Microfluidics and Nanofluidics, 2020, 24(5):p. 36.
  11. Avhad, A., Tan*, T. Al-Jubaree, L. Torres, and M. Weislogel, A numerical investigation of puddle jumping. Physics of Fluids, 2020. 32(1): p. 012109.
  12. Nguyen, B., Tan, H., Davis, K. & Zhang, X. Persistent Octrees for Parallel Mesh Refinement through Non-Volatile Byte-Addressable Memory. IEEE Transactions on Parallel and Distributed Systems, 2019. 30(3): p.677-691.
  13. Tan, H*. Applying the free-slip boundary condition with an adaptive Cartesian cut-cell method for complex geometries. Numerical Heat Transfer, Part B: Fundamentals, 2018, 74, 661-684.
  14. Jiang, H., Merritt, B. and Tan*, A Low-Cost Flash Photographic System for Visualization of Droplets in Drop-on-Demand Inkjet, Journal of Imaging Science and Technology, 2018. 62(6): p. 60502-1-60502-9.
  15. Jiang, H. and Tan*, One Dimensional Model for Droplet Ejection Process in Inkjet Devices. Fluids, 2018. 3(2): p. 28.
  16. Zhang, X., M.A. Hashem, X. Chen, and Tan, On passing a non-Newtonian circulating tumor cell (CTC) through a deformation-based microfluidic chip. Theoretical and Computational Fluid Dynamics, 2018. 32(6): p. 753-764.
  17. Zhang, X.,X. Chen, Tan, On the thin-film-dominated cell passing pressure for deformation-based microfluidic CTC chips, Microfluidics and Nanofluidics, 2017. 21(9): p. 146.
  18. Tan*, Absorption of picoliter droplets by thin porous substrates, AIChE Journal, 2017. 63:1690-1703 doi:10.1002/aic.15525
  19. Tan*, Numerical study on splashing of high-speed microdroplet impact on dry microstructured surfaces. Computers & Fluids, 2017. 154: p. 142-166.
  20. Kong X, Xi Y, LeDuff P, Li E, Liu Y, Cheng L, Rorrer G, Tan*, Wang AX*. Optofluidic Sensing from Inkjet-Printed Droplets: the Enormous Enhancement by Evaporation-Induced Spontaneous Flow on Photonic Crystal Biosilica. Nanoscale. 2016, 8(39): p. 17285-17294.
  21. Tan*, Three-dimensional simulation of micrometer-sized droplet impact and penetration into the powder bed. Chemical Engineering Science. 2016, 153: 93-107.
  22. Tan*, Torniainen, E., Markel, D.P., et al., Numerical simulation of droplet ejection of thermal inkjet printheads. International Journal for Numerical Methods in Fluids, 77(9), 544-577, 2015.
  23. Tan and K.M. Pillai, Multiscale modeling of unsaturated flow in dual-scale fiber preforms of liquid composite molding I: Isothermal flows. Composites Part A: Applied Science and Manufacturing. 43(1), 1-13, 2012.
  24. Tan and K.M. Pillai, Multiscale modeling of unsaturated flow in dual-scale fiber preforms of liquid composite molding II: Non-isothermal flows. Composites Part A: Applied Science and Manufacturing. 43(1), 14-28, 2012.
  25. Tan and K.M. Pillai, Multiscale modeling of unsaturated flow in dual-scale fiber preforms of liquid composite molding III: reactive flows. Composites Part A: Applied Science and Manufacturing. 43(1), 28-44, 2012.
  26. Masoodi, R., Pillai, K.M., Grahl and Tan, Numerical simulation of LCM mold-filling during the manufacture of natural fiber composites. Journal of Reinforced Plastics & Composites. 31(6), 363-378, 2012.
  27. Masoodi, R., Tan, and K.M. Pillai, Numerical simulation of liquid absorption in paper-like swelling porous media. AIChE Journal. 58(8), 2536-2544, 2012.
  28. Masoodi, R., Tan, and Pillai, K.M, Darcy’s law–based numerical simulation for modeling 3D liquid absorption into porous wicks. AIChE Journal. 57(5), 1132-1143, 2011.
  29. Tan, Pillai, K.M., Fast LCM Simulation of Unsaturated Flow in Dual-Scale Fiber Mats Using the Imbibition Characteristics of a Fabric-Based Unit Cell, Polymer Composites, 31(10), 1790-1807, 2010.
  30. Tan, Pillai, K.M., Numerical Simulation of Reactive Flow in Liquid Composite Molding Using Flux-Corrected Transport (FCT) Based Finite Element/Control Volume (FE/CV) Method, International Journal of Heat and Mass Transfer,53, 2256-2271, 2010.
  31. Yan, S., Lu, H., Tan, and Qiu, Z., Microscopic analysis of flow and prediction of effective permeability for dual-scale porous fiber fabrics. Advanced Materials Research. 1776-1781, 2010.
  32. Tan, K.M. Pillai, Finite element implementation of stress-jump and stress-continuity conditions at porous-medium, clear-fluid interface, Computers & Fluids,38 (6),1118-1131, 2009.
  33. Tan, K.M. Pillai, A method to estimate the accuracy of radial flow-based permeability measuring devices, Journal of Composite Materials, 43(21), 2307-2332, 2009.
  34. Tan, K.M. Pillai, Effect of fiber-mat anisotropy on 1D mold filling in LCM: A numerical investigation, Polymer Composites, 29 (8), 869-882, 2008.
  35. Tan, T. Roy, K.M. Pillai, Variations in unsaturated flow with flow direction in resin transfer molding: An experimental investigation, Composites Part A: Applied Science and Manufacturing, 38 (8), 1872-1892, 2007.
  36. Roy, H. Tan, K.M. Pillai, A method to estimate the accuracy of 1-D flow based permeability measuring devices, Journal of Composite Materials, 41 (17) ,2037-205, 2007.
  37. M Yang, S Yan and Tan, Simulation of the resin film infusion process based on the finite element method, Journal of Wuhan University of Technology-Mater. Sci.Ed., 21(4) 180-182, 2006.
  38. Zhang, H. Tan, J. Wang, Y. Zhu. Numerical Simulation of Mold Filling in Resin Transfer Molding Using Isoparametric Method. Journal of Wuhan University of Technology-Mater.Sci.Ed., 20(1), 98-101, 2005.
  39. Zhu, J. Wang, H. Tan, G. Gao, Capillary micro-flow through a fiber bundle (part 2). Journal of Wuhan University of Technology-Mater.Sci.Ed., 20(3), 64-66, 2005.
  40. Zhu, J. Wang, H. Tan, G. Gao, Capillary micro-flow through a fiber bundle (part 1). Journal of Wuhan University of Technology-Mater.Sci.Ed., 19(2), 94-97, 2004.
  41. Zhu, H. Tan, J. Wang*, Mold Filling Analysis in Vacuum Infusion Molding Process Based on a High-Permeable Medium. Journal of Materials Science & Technology, 19 (5), 2003.
  42. Zhu, J. Wang, Z. Yang, H. Tan, Vacuum infusion molding process part 1: VIMP based on a high-permeable medium. Journal of Wuhan University of Technology-Mater.Sci.Ed., 18(3), 72-75, 2003.
  43. Y. Zhu, J. Wang, Z. Yang, H. Tan, Vacuum infusion molding process (Part 2 VIMP based on grooves). Journal of Wuhan University of Technology-Mater.Sci.Ed., 18(4), 68-71, 2003.

CONFERENCE PAPERS/PRESENTATIONS

  1. Nur Alam and H. Tan, Jet Formation After Droplet Impact on Microholed Hydrophilic Surfaces, in ASME International Mechanical Engineering Congress & Exposition. 2022: Columbus, OH.
  2. Dey MK, Kim D, H. Tan,  Effect of Friction on Residual Stress Distribution Induced by Split Sleeve Cold Expansion Process.  ASME International Mechanical Engineering Congress and Exposition. 2020: Portland, Oregon.
  3. Yasin, S., Kim, D., Elliott, A., H. Tan. Fatigue enhancement technologies to extend the life of rail-end bolt holes evaluated through simulation technologies to predict fatigue failure and verified through laboratory testing, AREMA Annual Conference & Expo. 2020: Dellas, TX.
  4. Siddique, A., F. Zhao, M. Weislogel, and H. Tan, Jet initiation after drop impact on microstructured hydrophilic surfaces, in ASME International Mechanical Engineering Congress & Exposition. 2019: Salt Lake City, Utah.
  5. Chang, P., C. Landry, X. Chen, and H. Tan, Dynamics of a compound droplet tumor cell squeezing through conical microfilters, in ASME International Mechanical Engineering Congress & Exposition. 2019: Salt Lake City, Utah.
  6. Jarrett, H., M. Wade, J. Kraai, G. Rorrer, A.X. Wang, and H. Tan, 2019. Evaporation-based Microfluidic Pump Using Super-Hydrophilic Diatom Biosilica Thin Films. ASME 2019 Summer Heat Transfer Conference. Bellevue, WA.
  7. Hashem, M. A., Chen, X., H. Tan, 2019. An adaptive mesh refinement based simulation for pressure-deformability analysis of a Circulating Tumor Cell. SPIE BiOS Conference. San Francisco, California, United States.
  8. Jiang, H. and H. Tan. One Dimensional Simulation of Droplet Ejection of Drop-on-Demand Inkjet. in ASME 2017 International Mechanical Engineering Congress and Exposition. 2017. Tampa, Florida, USA.
  9. Bao Nguyen, H. Tan, and X. Zhang, Large-scale Adaptive Mesh Simulations Through Non-Volatile Byte-Addressable Memory, ACM/IEEE International Conference for High Performance Computing, Networking, Storage and Analysis (SC’17), Dever, CO, November 2017.
  10. Torres, L., M. Weislogel, A. Avhad, H. Tan, Large droplet generation by capillary migration in super-hydrophobic wedges, 33rd Annual Meeting of the American Society for Gravitational and Space Research, Oct. 25-28, 2017. Seattle, WA, USA.
  11. Tan, H. High-speed Microdroplet Impact on a Textured Rough Surface: A Numerical Investigation. in the ASME 2017 Fluids Engineering Division Summer Meeting. July 31- August 3, 2017. Waikoloa, Hawai’i, USA.
  12. Avhad, A., B. Merritt, H. Tan, and D. Kim, Importance of Powder Droplet Interaction in Additive Manufacturing, in ASME 2017 Manufacturing Science and Engineering Conference. Jun 4-8, 2017: Los Angeles, CA.
  13. Jiang, H. and H. Tan. One-dimensional simulation of drop breakup in inkjet. in World Innovation Conference & Expo 2017. Washington, DC: Taylor & Francis.
  14. Avhad, A. and H. Tan. Interaction of a millimeter sized droplet on the powder substrates and study of capillarity in porous media flow. in World Innovation Conference & Expo 2017. Washington, DC: Taylor & Francis.
  15. Al Jubaree, M. Weislogel, H. Tan, Viscous Puddle Jump, 69th Annual Meeting of the APS Division of Fluid Dynamics, Vol. 61, No. 20, D36.00005, Portland, Nov. 20–22, 2016.
  16. Zhang, X., X. Chen, and H. Tan, A Numerical Study on Highly Viscous Compound Cancer Cell Microfiltration, in ASME International Mechanical Engineering Congress & Exposition. Nov 13-19, 2016: Houston, Texas.
  17. Hurst, A., Kim, D., H. Tan, Preliminary study on inkjet-based high-speed sintering 3D printing for a polymeric material, 27th AeroMat Conference and Exposition, Bellevue, WA, May 23-25, 2016.
  18. Tan H., Absorption of picoliter droplets by thin porous substrates, 8th International Conference on Porous Media, Cincinnati, OH, May 9-12, 2016.
  19. Tan H., J. Panditaratne A. Govyadinov, B. Bicknell, etc., A novel thermal management scheme for multi-jet fusion 3D printing, Tech Con 15 (HP highest internal technical conference, acceptance ratio < 2%), Jun. 7th-Jun. 10th, Phoenix, Arizona, 2015.
  20. Tan H., A. Govyadinov, A. Wang, B. Bicknell, etc. Experimental and numerical study of absorption of picoliter droplets by thin porous substrates, the 6th International Conference on Porous Media, May 27-30, Milwaukee, Wisconsin, 2014.
  21. Tan H., J. Panditaratne A. Govyadinov, B. Bicknell, etc., Modeling platform for ink-media interaction & application to iJel ink, Tech Con 14 (HP highest internal technical conference, acceptance ratio < 2%), Mar. 30-Apr. 2nd, Miami, Florida, 2014.
  22. Tan H., E. Torniainen, D. P. Markel, R. N. K. Browning, Validation of an in-house 3D free-surface flow solver in inkjet printing, the 2nd ASME Verification and Validation Symposium, May 22-24, Las Vegas, Nevada, 2013.
  23. Tan H., Krishna. M. Pillai, Multiscale Modeling of Isothermal Unsaturated Flow in Dual-Scale Fiber Preforms of Liquid Composite Molding, SAMPE 2010, May 17-20. Seattle, Washington, 2010.
  24. Tan H., Krishna M. Pillai, Modeling Unsaturated Flow in Dual-Scale Fiber Mats of Liquid Composite Molding: Some Recent Developments, 10th International Conference on Flow Processes in Composite Materials, Ascona, Switzerland, 2010.
  25. Tan H., X. Chen, K. M. Pillai and T. D. Papathanasiou, Boundary conditions at the interface between the clear-fluid and porous medium domains, 9th International Conference on Flow Processes in Composite Materials, Montreal, Canada, 2008.
  26. Tan H., Ehsan M. Languri and Krishna M. Pillai, Permeability prediction of dual-scale fibrous structure using the unit cell, 9th International Conference on Flow Processes in Composite Materials, Montreal, 2008.
  27. Ehsan M. Languri,H. Tan, Krishna M. Pillai, Effect of Preform Aspect Ratio and Anisotropy on the Measured Permeability through 1-D Flow Experiments, 9th International Conference on Flow Processes in Composite Materials, Montreal, 2008.
  28. Tan H., Tonmoy Roy and Krishna. M. Pillai, Calibration of 1-D Flow and Radial Flow Based Permeability Measuring Devices, SAMPE 2007, June 3-7, Baltimore.
  29. Tan H. and Krishna. M. Pillai, A New Method to Estimate Permeability of Isotropic Fiber Mats Through Radial Flow, SAMPE 2007, June 3-7, Baltimore.