Publications

  1. Ji, Y.,  Liu, G., Ma, H.B., Li, G., and Sun, Y., 2013, “An Experimental Investigation of Heat Transfer Performance in a Polydimethylsiloxane (PDMS) Oscillating Heat Pipe,” Applied Thermal Engineering, accepted.
  2. Smoot, C.D. and Ma, H.B., 2013, “Experimental Investigation of a Three-Layer Oscillating Heat Pipe,” ASME Journal of Heat Transfer, accepted.
  3. Su, F., Deng, Y., and Ma, H. B., 2013, “Adiabatic Spray Absorption Process in Aqueous Ammonia Solution,” Heat Transfer Research, Vol. 44, No. 8, pp. 733-743.
  4. Wang, G.Y., Zhao, N. N., Ji, Y. L., and Ma, H. B., 2013, “Velocity Effect on a Liquid Plug Length in a Capillary Tube,” ASME Journal of Heat Transfer, Vol. 135, N0. 8, Article No. 080903.
  5. Yin, D. and Ma, H.B., 2013, “Analytical Solution of Oscillating Flow in a Capillary Tube,” International Journal of Heat and Mass Transfer, Vol.66, pp. 699–705.
  6. Zhao, N., Zhao, D., and Ma, H. B., 2013, “Ultrasonic Effect on the Startup of an Oscillating Heat Pipe,” ASME Journal of Heat Transfer, Vol. 135, No. 7, Article No. 074503.
  7. Pai, F., Peng, Hao, and Ma, H.B., 2013, “Thermomechanical Finite-Element Analysis and Dynamics Characterization of Three-Plug Oscillating Heat Pipe,” International Journal of Heat and Mass Transfer, Vol. 64, pp.623-635.
  8. Thompson, S., Tessler, B. S., Ma, .H.B.HH. B., Smith, D. E., Sobel, 2013, “Ultra-High Thermal Conductivity of Three-Dimensional Flat-Plate Oscillating Heat Pipes for Electromagnetic Launcher Cooling,” IEEE Transactions of Plasma Science, Vol. 41, No. 5, pp. 1326-1331. DOI: 10.1109/TPS.2013.224920.
  9. Ji, Y., Xu, C., Ma, H.B., and Pan, X., 2013, “An Experimental Investigation of the Heat Transfer Performance of an Oscillating Heat Pipe with Copper Oxide (CuO) Microstructure Layer on the Inner Surface,” ASME Journal of Heat Transfer, Vol. 135, No.  7, Article No: 074504.
  10. Zhao, N., Zhao, D., and Ma, H.B., 2013, “Experimental Investigation of Magnetic Field Effect on the Magnetic Nanofluid Oscillating Heat Pipe,” ASME Journal of Thermal Science and Engineering Applications, Vol. 5, No. 1, Article No: 011005.
  11. Yan, C, and Ma, H.B., 2013, “Analytical Solutions of Heat Transfer and Film Thickness in Thin Film Evaporation,” ASME Journal of Heat Transfer, Vol. 135, No. 3, Article No: 31501
  12. Ji, Yulong, Chen, Hsiu-hung, and Ma, H.B., 2013, “Volume Fraction Effect on Heat Transfer Performance of an Oscillating Heat Pipe,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 27, No. 1, pp.111-115.
  13. Yoon, I., Ma, H.B., and Winholtz, R. A., 2013, “Effects of Liquid Fraction and Vapor Volume on the Oscillating Temperature in an Oscillating Heat Pipe Using Neuron Imaging,” Heat Transfer Research, Vol. 44, No. 1, pp.43-57.
  14. Smoot, C. D., Ma, H. B., Winholtz, R. A., Jacobson, D. L., Hussey, D. S., 2013, “Thermal and Visual Observation of a Hybrid Heat Pipe,” Heat Transfer Research, Vol. 44, No. 1, pp. 31-42.
  15. Pounds, D.A., Dong, J.M., and Ma, H.B., 2013, “Experimental Investigation and Theoretical Analysis of an Ejector Refrigeration System,” International Journal of Thermal Science, Vol. 67, No. 1, pp.200-209.
  16. Seyg, H. R., Zhou, Z., Ma, H. B. and Zhang, Y., 2013, “Three Dimensional Numerical Study of Heat-Transfer Enhancement by Nano-encapsulated Phase Change Material Slurry in Microtube Heat Sinks with Tangential Impingementm” International Journal of Heat and Mass Transfer, Volume 56, Issue 1-2, pp. 561-573.
  17. Ma, X., Wang, S., Lan, Z., Peng, B., Bai, T., and Ma, H. B., 2012, “Oscillating and Bouncing off of Condensate Droplets on a Vertical Superhydrophobic Surface,” ASME Journal of Heat Transfer, Vol.134, No. 8, Article Number 080906.
  18. Li, H., and Ma, H.B., 2012, “Thermal Performance Analysis and Design of a Thermosyphon Heat Exchanger,” Journal of Dalian Maritime University, Vol. 38, No. 3, pp. 133-136.
  19. Dong, J., Pounds, D., Cheng, P., and Ma, H.B., 2012, “An Experimental Investigation of Steam Ejector Refrigeration Systems,” ASME Journal Of Thermal Science and Engineering Applications, Vol. 4, No. 3, Article Number:031004.
  20. Su, F., Ma, H. B., Han, X., Chen, H., and Tian, B., 2012, “Ultra-High Cooling Rate Utilizing Thin Film Evaporation,” Applied Physics Letters, Vol. 101, No. 11, Article Number 113702.
  21. Ji., Y., Xu, C., Su, F., and Ma, H. B., 2012, “Nanofluid Effect on the Optimum Filling Ratio of an Oscillating Heat Pipe,” Journal of Engineering Thermophysics, Vol. 33, No. 11, pp.1981-1984.
  22. Jia, T., Zhang, Y. W., Ma, H. B., and Chen, J. K., 2012,  “Investigation of the Characteristics of Heat Current in a Nanofluid Based on Molecular Dynamics Simulation,” Applied Physics A, Vol. 108, pp.537–544.
  23. Yoon, Il, Wilson, C., Borgmeyer, B., Winholtz, B.A., Ma, H.B., Jacobson, D.L., Hussey, D.S., 2012, “Neutron Phase Volumetry and Temperature Observations in an Oscillating Heat Pipe,” International Journal of Thermal Sciences, Vol. 60, October, pp. 52–60.
  24. Ji, Y., Chen, Hsiu-hung, Kim, Young Jo, Yu, Qingsong, Ma, X. and Ma, H. B., 2012, “Hydrophobic Surface Effect on Heat Transfer Performance in an Oscillating Heat Pipe,” ASME Journal of Heat Transfer, Vol. 134, pp. 074502/1-6.
  25. Hathaway, A. A., Wilson, C. A., and Ma, H. B., 2012,  “An Experimental Investigation of Uneven Turn Water and Acetone Oscillating Heat Pipes,” AIAA Journal of Heat Transfer and Thermophysics, Vol. 26, No. 1, pp. 115-122.
  26. Cheng, P., Dong, J., Thompson, S.M., and Ma, H.B., 2012, “Heat Transfer Modeling in the Bulk and Thin Film Fluid Regions of a Rectangular Micro Groove,”  AIAA Journal of Heat Transfer and Thermophysics,Vol. 26, No. 1, pp. 108-114.
  27. Thompson, S. M., and Ma, H.B., 2012, “A Statistical Analysis of Temperature Oscillations on a Flat-Plate Oscillating Heat Pipe with Tesla-Type Check Valves,” Frontiers in Heat Pipes,  2, 033002, DOI: 10.5098/fhp.v2.3.3002.
  28. Ma, X.H., Wang, S. Lan, Z., Peng, B., Ma, H.B., Cheng, P., 2012, “Wetting Mode Evolution of Steam Dropwise Condensation on Superhydrophobic Surface in Presence of Noncondensable Gas,” ASME Journal of Heat Transfer, Vol. 134, Feb., pp. 0215011-9.
  29. Smoot, C. D., and Ma, H.B., 2011, “An Experimental Investigation of Hybrid Oscillating Heat Pipe,” Frontiers in Heat Pipes, 2, 023001, DOI: 10.5098/fhp.v2.2.3001.
  30. Thompson, S. M., Hathaway, A. A., Smoot, C. D., Wilson, C. A., Ma, H. B., Young, R. M., Greenberg, L., Osick, B. R., Van Campen, S., Morgan, B.C., Sharar, D., Jankowski, N., 2011, “Robust Thermal Performance of a Flat-Plate Oscillating Heat Pipe during High-Gravity Loading,” ASME Journal of Heat Transfer, Vol. 133, No. 10, 1045041-5, doi:10.1115/1.4004076.
  31. Smoot, C., Ma, H.B., Wilson, C., Greenberg, L., 2011, “Heat Conduction Effect on Oscillating Heat Pipe Operation,” ASME Journal of Thermal Science and Engineering Applications, Vol. 3, June, pp. 024501-1-6.
  32. Thompson, S.M., Cheng, P., and Ma, H.B., 2011, “An Experimental Investigation of a Three-Dimensional Flat-Plate Oscillating Heat Pipe with Staggered Microchannels,” International Journal of Heat and Mass Transfer,  Vol. 54, pp. 3951–3959.
  33. Thompson, S. M., Ma, H. B., Wilson, C., 2011, “Investigation of a Flat-Plate Oscillating Heat Pipe with Tesla-Type Check Valves,” Journal of Experimental Thermal and Fluid Science,                         Vol. 35, No.7, pp. 1265-1273.
  34. Wilson, C., Borgmeyer, B., Winholtz, R.A., Ma, H.B., Jacobson, D., and Hussey, D., 2011, “Thermal and Visual Observation of Water and Acetone Oscillating Heat Pipes,” ASME Journal of Heat Transfer, Vol.133, No. 6, pp. 0615021-9.
  35. Cheng, P., and Ma, H.B., 2011, “Mathematical Model of an Oscillating Heat Pipe,” International Journal of Heat Transfer Engineering, Vol. 32, No. 11, pp.1037 – 1046.
  36. Ji, Y., Chen, H., Yu, Q., Ma., X., Ma, H. B., 2011, “Contact Angle Variation on a Copper Surface Treated with Self-Assembled Monolayer (SAM) of N-octadecyl Mercaptan,” ASME Journal of Heat Transfer,  Vol. 133 , No. 8, pp.080904-1.
  37. Ji, Y., Su, F., Wang, G., Ma, H.B., 2011, “Particle Size Effect on the Heat Transport Capability in an Oscillating Heat Pipe,” Journal of Experimental Thermal and Fluid Science, Vol. 35, pp. 724-727.
  38. Ji, Y., Wilson, C., Chen, H., Ma., H. B., 2011, “Particle Shape Effect on Heat Transfer Performance in an Oscillating Heat Pipe,” Journal of Nanoscale Research Letters, Vol. 6, No. 1, pp. 296-301.
  39. Su, F., Ma, H. B., and Gao, H., 2011, “Characteristic Analysis of Adiabatic Spray Absorption Process in Aqueous Lithium Bromide Solution,” International Communication of Heat and Mass Transfer, Vol. 38, pp. 425-428.
  40. Kim, Y. J., Ma, H. B., Yu, Q., 2010, “Plasma nanocoated Carbon Nanotubes for Heat Transfer Nanofluids”, Nanotechnology, 21, 295703/1-7.
  41. Cheng, P., Thompson, S. M., Boswell, J., and Ma, H.B., 2010 “An Investigation of Flat-Plate Oscillating Heat Pipes,” ASME Journal of Electronic Packaging, Vol. 132,  No. 4, pp. 041009-15.
  42. Borgmeyer, B. and Ma, H.B., 2010, “Heat-Spreading Analysis of a Heat Sink Base Embedded with a Heat Pipe, Front. Energy Power Eng. China, Vol. 4(2), pp. 143–148.
  43. Borgmeyer, B., Wilson, C., Ma, H.B., 2010, “Heat Transport Capability and Fluid Flow Neutron Radiography of a Three-Dimensional Oscillating Heat Pipes,” ASME Journal of Heat Transfer, Vol. 132, No.6, pp. 0615021-9.
  44. Thompson, S.M., and Ma, H.B., 2010, “Effect of Localized Heating on Three-Dimensional Flat-Plate Oscillating Heat Pipe, Advances in Mechanical Engineering, Volume 2010 (2010), Article ID 465153, doi:10.1155/2010/465153.
  45. Li, L., Zhang, Y.W., Ma, H.B., Yang, M., 2010, “Molecular Dynamics Simulation of Effect of Liquid Layering around the Nanoparticle on the Enhanced Thermal Conductivity of Nanofluids,” Journal of Nanoparticle Research, Vol. 12, No. 3, pp. 811-821.
  46. Xu, J. J., Zhang, Y.W., and Ma, H.B., 2009, “Effect of Internal Wick Structure on Liquid-Vapor Oscillatory Flow and Heat Transfer in an Oscillating Heat Pipe,” ASME Journal of Heat Transfer, December 12, Vol. 131, pp. 1210121-10.
  47. Sait, H., and Ma, H.B., 2009, “An Experimental Investigation of Thin Film Evaporation,” Nanoscale and Microscale Thermophysical Engineering, No. 4, Vol. 13, pp.218-227.
  48. Zhang, Yuwen, Li, Ling, Ma, H. B., and Yang, MO., 2009, “Effect of Brownian and Thermophoretic Diffusions of Nanoparticles on Nonequilibrium Heat Conduction in a Nanofluid Layer with Periodic Heat Flux,” Numerical Heat Transfer, Part A, Vol.56, pp. 325–341.
  49. Jiao, A. J., Ma, H. B., and Critser, J, 2009, “Experimental Investigation of Cryogenic Oscillating Heat Pipes,” International Journal of Heat and Mass Transfer, Vol. 52, No.15-16, PP. 3504-3509.
  50. Thompson, S.M., Ma, H.B., Winholtz,R.A., Wilson, C., 2009, “Experimental Investigation of Miniature Three-Dimensional Flat-Plate Oscillating Heat Pipe,” ASME Journal of Heat Transfer, Vol. 131, April, pp.0432101-9.
  51. Jiao, A., Zhang, Y., Ma, H.B., Criter, J., 2009, “Effects of Lewis Number on Coupled Heat and Mass Transfer in a Circular Tube Subjected to External Convective Heating,”  International Journal for Heat and Mass Transfer,  Vol. 45, pp. 591–598
  52. Li, L., Zhang, Y, Ma, H.B., Yang, M. 2008, “An Investigation of Molecular Layering at the Liquid-Solid Interface in Nanofluids by Molecular Dynamics Simulation,” Physics Letters A., Vol. 372, pp. 4541-4544.
  53. Chang, J.Y., Prasher, R.S., and Prstic, S., Cheng, P., Ma, H.B., 2008, ”Thermal Performance of Vapor Chambers Under Hot-Spot Heating Conditions,” ASME Journal of Heat Transfer,  2008, Vol. 130, December, pp.1215011-9.
  54. Wilson, C., Borgmeyer, B., Winholtz, R. A., Ma, H.B., Jacobson, D. L., Hussey, D. S., Arif, M., 2008, “Visual Observation of Oscillating Heat Pipes Using Neutron Radiography,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 22, No. 3, pp.366-372.
  55. Zhang, Y., and Ma, H.B., 2008, “Nanoparticle Effect on the Thermal Conductivity of Nanofluids,” International Journal of Heat and Mass Transfer. Vol. 51, No. 19-20, September, pp. 4862-4874.
  56. Xu, H., Ma, H.B., Jiao, A., Critser, J.K., 2008, “Investigation on the Heat Transport Capability of a Cryogenic Oscillating Heat Pipe and Its Application in Achieving ultra-Fast Cooling Rate for Cell Vitrification Cryopreservation,” Cryobiology, Vol. 56, pp.195-203.
  57. Ma, H. B., Borgmeyer, B., Cheng, P., and Y. Zhang, 2008, “Heat Transport Capability in an Oscillating Heat Pipe,” ASME Journal of Heat Transfer, Vol.130, August, pp. 0815011-7 .
  58. Yu, Qingsong, Kim, Y., and Ma, H.B., 2008, “Plasma Treatment Effect on the Thermal Conductivity of Diamond Nanofluids,” Applied Physics Letters Volume: 92   Issue: 10, March, Article Number: 103111.
  59. Jiao, A., Ma, H.B., Han, X., Critser, J., 2008, “Heat Transport Characteristics in Miniature Flat Heat Pipe with Wire Core Wicks,” ASME Journal of Heat Transfer Journal of Heat Transfer. Vol. 130, No. 5, May, pp. 0515011-9.
  60. Han, X., Ma, H.B., Wilson, C., and Critser, J., 2008, “Effects of Nanoparticles on the Nucleation and Devitrification Temperatures of Cryoprotectant Solutions,” Microfluidics & Nanofluidics, Volume: 4   Issue: 4   Pages: 357-361.
  61. Ma, H.B., Cheng, P., Borgmeyer, B., 2008, “Fluid Flow and Heat Transfer in the Evaporating Thin Film Region,” Microfluidics and Nanofluidics, Vol. 4, No. 3, pp. 237-243.
  62. Jiao, A., Ma, H.B., 2007, “Evaporation Heat Transfer Characteristics of Grooved Heat Pipes with Micro Trapezoidal Grooves,” International Journal of Heat and Mass Transfer, Vol. 50, pp.2905-2911.
  63. Cheng, P., and Ma, H.B., 2007, “A Mathematical Model Predicting Minimum Radius Occurring in Mixed Particles,” ASME Journal of Heat Transfer, Vol. 129, No. 3, pp. 391-394.
  64. Borgmeyer, B. and Ma, H.B., 2007, “Experimental Investigation of Oscillating Motions in a Flat Plate Pulsating Heat Pipe,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 21, No. 2, pp. 405-409.
  65. Park, K. and Ma, H. B., 2007, “Nanofluid Efffect on the Heat Transfport Capability in a Well-Balanced Oscillating Heat Pipe,” AIAA Journal of Thermophysics and Heat Transfer, Vo. 21, No. 2, pp. 443-445.
  66. Qu, W., Zhou, Y., and Ma, H.B., 2007, “Dimension Effect on the Startup and Operation of  Oscillating Heat Pipes,” Journal of Engineering Thermophysics, Vol. 28., No. 1, pp. 140-142.
  67. Qu, W. and Ma, H.B., 2007, “Theoretical Analysis of Start-up of a Pulsating Heat Pipe,” International Journal of Heat and Mass Transfer Vol. 50, pp.2309-2316.
  68. Ma, H.B., Wilson, C., Yu, Q, Choi, U.S., Tirumala, M., 2006  “An Experimental Investigation of Heat Transport Capability in a Nanofluid Oscillating Heat Pipe,”  ASME Journal of Heat Transfer, Vol. 128, November, pp.1213-1216.
  69. Yu, Q.S.; Kim, Y.J., Ma, H.B.; 2006, “Plasma Nanocoating on Diamond Nanoparticles for Dispersion Improvement in Water,” Applied Physics Letters, Vol. 88, No. 23, pp. 231503.
  70. Ma, H.B., Wilson, C. Borgmeyer, B., Park, K, Yu, Q, Choi, U.S., Tirumala, M., 2006  “Nanofluid Effect on the Heat Transport Capability in an Oscillating Heat Pipe,” Applied Physics Letters, Vol. 88, No. 14, pp. 1161-1163.
  71. Jiao, A., X, Han, Critser, J., and Ma, H. B., 2006, “Numerical Investigations of Transient Heat Transfer Characteristics and Vitrification Tendencies in Ultra-fast Cell Cooling Processes,” Journal of Cryobiology, Vol. 52, pp. 386-392.
  72. Ma, H. B., Lofgreen, K. P., and Peterson, G.P., 2006 “An Experimental Investigation of a High Flux Heat Pipe Heat Sink,” ASME Journal of Electronic Packaging, Vol.128,  No.1, pp.18-22.
  73. Maschmann, M. R. and Ma, H. B., 2006, “An Investigation of Capillary Flow Effect on Condensation Heat Transfer on a Grooved Plate” International Journal of Heat Transfer Engineering, Vol. 27, No. 3, pp.22-31.
  74. Ma, H. B., Hanlon, M.A., and Chen, C. L., 2006, “An Investigation of Oscillating Motions in a Miniature Pulsating Heat Pipe,” Microfluidics and Nanofluidics, Vol. 2, No. 2,  pp. 171-179.
  75. Jiao, A. J., Riegler, R., Ma, H. B., and Peterson, G. P., 2005, “Thin Film Evaporation on the Heat Transport Capability in a Grooved Heat Pipe,” Journal of Microfluidics and Nanofluidics, Vol. 1, No. 3, pp. 227-233.
  76. Jiao, A. J., Jeong, S., and Ma, H.B., 2004, “Heat Transfer Characteristics of Cryogenic Helium Gas Through a Miniature Tube with a Large Temperature Difference,”  Journal of Cryogenics, Vol. 44, pp 859-866.
  77. Demsky, S., and Ma, H. B., 2004 “Thin Film Evaporation on a Curved Surface,” Microscale Thermophysical Engineering , Vol. 3, No. 3, pp.285 – 299.
  78. Liang, S. B., and Ma, H. B., 2004, “Oscillation Motions in an Oscillating Heat Pipe,” International Communication of Heat and Mass Transfer,Vol. 31. No. 3, pp.365-375.
  79. Hanlon, M. A., and H. B. Ma, 2003, “Evaporation Heat Transfer in Sintered Porous Media,” ASME Journal of Heat Transfer, Vol. 125, August, pp. 644-653.
  80. Liang, S. B., Li, X, and Ma, H. B., 2003, “Thermoacoustic Power Effect on the Refrigeration Performance of Thermal Separators,” International Journal of Cryogenics, Vol. 43. No. 9, pp.493-500.
  81. Teoh, C. K., Maschmann, M. R., and Ma, H. B., 2003, “Heat Transfer Analysis in a Heat Sink Embedded with a Closed Two-Phase Thermosyphon,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 17, No. 3, pp. 348-353.
  82. Ma, H. B., and Peterson, G. P., 2002, “The Influence of the Thermal Conductivity on the Heat Transfer Performance in a Heat Sink,” ASME Journal of Electronic Packaging, Vol. 124, No. 3, pp. 164-170.
  83. Wang, Y., Ma, H. B., and Peterson, 2001, “Investigation of the Temperature Distribution on Radiator Fins with Micro Heat Pipes,” AIAA Journal of Heat Transfer and Thermophysics, Vol. 15, No.1,  Jan. – Mar., pp. 42-49.
  84. Peterson, G. P., and Ma, H. B., 1999, “Temperature Response and Heat Transport in a Micro Heat Pipe,” ASME Journal of Heat Transfer, Vol. 121, No.2, May, pp. 438 – 445.
  85. Ma, H. B., and Peterson, G. P., 1998, “Disjoining Pressure Effect on the Wetting Characteristics in a Capillary Tube,” Microscale Thermophysical Engineering, Vol. 2, No. 4, pp.283-297.
  86. Ma, H. B., and Peterson, G. P., 1998, “The minimum Meniscus Radius and Capillary Heat Transport limit in Micro Heat Pipes,”   ASME Journal of Heat Transfer, Vol. 120, No. 1, pp. 227-233.
  87. Ma, H. B., and Peterson, G. P., 1997, “The Friction Factor for Laminar Flow in Microscale Ducts of Irregular Cross-section,”  Microscale Thermophysical Engineering, Vol. 1, No. 3, pp. 253-265.
  88. Ma, H. B., and Peterson, G. P., 1997, “Temperature Variation and Heat Transfer in Triangular Grooves with an Evaporating Film,” AIAA Journal of Thermophysics and Heat Transfer,Vol.11,No.1,pp.90-97.
  89. Ma, H. B., and Peterson, G. P, 1996 “Experimental Investigation of the Maximum Heat transport in Triangular grooves,”  ASME Journal of Heat Transfer, Vol. 118, No. 3, pp. 740-746.
  90. Ma, H. B., and Peterson, G. P., 1996, “Experimental Investigation of Countercurrent Liquid-Vapor Interactions and Its Effect on the Friction Factor,” International Journal of Experimental Thermal and Fluid Science, Vol. 12, No.1, pp. 25-32.
  91. Peterson, G. P., and Ma, H. B., 1996, “Analysis of Countercurrent Liquid-Vapor Interactions and the Effect on the Liquid Friction Factor,” International Journal of Experimental Thermal and Fluid Science, Vol. 12, No. 1, pp. 13-24.
  92. Peterson, G. P., and Ma, H. B., 1996, “The Theoretical Analysis of the Maximum Heat Transport in Triangular Grooves-A Study of Idealized Micro Heat Pipes,” ASME Journal of Heat Transfer, Vol. 118, No. 3, August, 1996, pp. 731-739.
  93. Ma, H. B., and Peterson, G. P., 1995, “Thermodynamic Analysis of the Influence of Electric Fields on Frost Formation,”  AIAA Journal of Thermophysics and Heat Transfer, Vol. 9, No. 3, pp. 562-565.
  94. Peng, X. F., Wang, B. X., Peterson, G. P., and Ma, H. B., 1995, “Experimental Investigation of Heat Transfer in Flat Plates with Rectangular Microchannels,” International Journal of Heat and Mass Transfer, Vol. 38, No.1, pp.127-137.
  95. Ma, H. B., and Peterson, G. P., 1994, “The Influence of Vapor-Liquid Interactions on the Liquid Pressure Drop in Triangular Microgrooves,” International Journal of Heat and Mass Transfer, Vol.37, No.15, pp.2211-2219.
  96. Ma, H. B., 2008, “Micro Heat Pipes,” Encyclopedia of Micro- and Nanofluidics, D. Li, Springer, ISBN: 9780387324685.
  97. Kim, Y., Yu, Q, Ma, H.B., 2008, “Plasma Treatemtn of Nanoparticles for Nanofluids,” Encyclopedia of Microfluidics and Nanofluidics , D. Li, Springer, ISBN: 9780387324685
  98. Ma, H. B., 2005, “Heat Pipes,” Mechanical Engineers’ Handbook, 3rd Edition, Myer Kutz, John Wiley & Sons, ISBN: 0471449903.