{"id":17,"date":"2013-02-26T20:32:40","date_gmt":"2013-02-26T20:32:40","guid":{"rendered":"http:\/\/faculty.engineering.ucdavis.edu\/template\/?page_id=17"},"modified":"2019-01-01T23:27:06","modified_gmt":"2019-01-01T23:27:06","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

<\/h3>\n

I. NANOSTRUCTURED & POLYMERIC MATERIALS<\/strong><\/h3>\n
    \n
  1. 2002 Chunsheng Du and Ning Pan<\/b>, Preparation and Preliminary Property Study of Carbon nanotubes Films by Electrophoretic Deposition, Materials Letters<\/i><\/span>, 57<\/i>, 434-438.<\/li>\n
  2. 2002 Chunsheng Du, David Heldbrant and Ning Pan<\/b>, Preparation of Carbon Nanotube Films by Electrophoretic Deposition, Journal of Materials Science Letters<\/span>, V 21, 565-568.<\/li>\n
  3. 2004 Chunsheng Du and Ning Pan<\/b>, Preparation of single-walled carbon nanotube reinforced magnesia films, Nanotechnology<\/span> 15, 227\u2013231.<\/li>\n
  4. 2004 Wan YQ. Guo Q. Pan<\/b> N<\/b>., Thermo-electro-hydrodynamic model for electrospinning process. International Journal of Nonlinear Sciences & Numerical Simulation. <\/span>5, 5-8.<\/li>\n
  5. 2005 Mircea Chipara, Jeffrey M. Zaleski, David Hui, Chunsheng Du and Ning Pan<\/b>, Electron Spin Resonance on Carbon Nanotubes – Polymer Composites, Journal of Polymer Science B: Polymer Physics<\/span>, 43, 3406\u20133412.<\/li>\n
  6. 2005 Fanlong Zeng, Ding Pan and Ning Pan<\/strong>, Choosing the Impregnants by Thermogravimetric Analysis for Preparing Rayon-Based Carbon Fibers, Journal of Inorganic and Organometallic Polymers & Material<\/span>, 15, 261-267.<\/li>\n
  7. 2005 Ji-Huan He, Yue Wu and\u00a0Ning Pan<\/b>, A Mathematical Model for Preparation by AC-Electrospinning Process,\u00a0International Journal of Nonlinear Sciences and Numerical Simulation<\/span>,\u00a06 (3), 243-248, 2005.<\/li>\n
  8. 2005 Chunsheng Du and\u00a0Ning Pan<\/b>, Growth of Carbon Nanotubes Directly on Nickel Substrate,\u00a0Materials Letters<\/span>, 59, 1678\u2013 1682.<\/li>\n
  9. 2005 Chunsheng Du and\u00a0Ning Pan<\/b>, Carbon nanotube thin films with ordered structures,\u00a0Journal of Materials Chemistry<\/span>, 15: 548-550.<\/li>\n
  10. 2005 Chunsheng Du and\u00a0Ning Pan<\/b>, High power density supercapacitors using locally aligned carbon nanotube electrodes,\u00a0Nanotechnology<\/span>, \u00a016, 350\u2013353.<\/li>\n
  11. 2005 Juan Zhang, Jian-Yong Yu, and\u00a0Ning Pan<\/b>, Variational principles for nonlinear fiber optics,\u00a0Chaos, Solitions and Fractal\u00a0<\/span>, 24, 309\u2013311.<\/li>\n
  12. 2006 Du, C.S. and\u00a0Pan, N.,<\/b>\u00a0High power density supercapacitor electrodes of carbon nanotube films by electrophoretic deposition, Nanotechnology<\/span> 17,\u00a0<\/b>5314\u20135318.<\/li>\n
  13. 2006 Chunsheng Du and\u00a0Ning Pan<\/b>, Supercapacitors Using Carbon Nanotubes Films by Electrophoretic Deposition, Journal of Power Sources<\/span>, 160, 1487\u20131494.<\/li>\n
  14. 2006 Wang, M., Wang J., Chen SY, and\u00a0Ning Pan<\/b>. Electrokinetic Pumping Effects of Charged Porous Media in Microchannels using the Lattice Poisson-Boltzmann Method. Journal of Colloid and Interface Science<\/span>, 304 (1): 246-253.<\/li>\n
  15. 2006 Wen Zhong,\u00a0Ning Pan<\/b>, David Lukas, Multi-scale modeling on liquid transport in fibrous structures, Journal of Computational and Theoretical Nanoscience<\/span>, 3 (4): 506-512.<\/li>\n
  16. 2006 Chen Yuhan, Wu Qilin, Pan Ding,\u00a0Pan Ning,<\/b>\u00a0Fractal aperture distribution of activated carbon fiber and adsorption behavior to low-density benzene stream,\u00a0Journal of Dispersion Science & Technology<\/span>,\u00a027:1157-1160.<\/li>\n
  17. 2007 Du, C.S. and\u00a0Pan, N<\/b>., Carbon Nanotube-based Supercapacitors, Nanotechnology Law & Business<\/span> (invited and peer reviewed), 4, 3 -10.<\/li>\n
  18. 2007 Xiaoyu Yuan, Chunsheng Du, Gang Sun and\u00a0Ning Pan<\/b>, Electroless synthesis of large scale Co-Zn-P nanowire arrays and the magnetic behavior, Applied Surface Science<\/span>, 253, 4546-4549.<\/li>\n
  19. 2008 Chen Yuhan, Wu Qilin, Pan Ding,\u00a0Pan Ning<\/b>, Rayon-based Activated Carbon Fibers Treated with Both Alkali Metal Salt and Lewis Acid, Microporous & Mesoporous Materials<\/span>, 109, 138\u2013146.<\/li>\n
  20. 2008 Qilin Wu,\u00a0Ning Pan<\/b>, Keming Deng and Ding Pan, Thermogravimetry\u2013mass spectrometry on the pyrolysis process of Lyocell fibers with and without catalyst, Carbohydrate Polymers<\/span>, 72, 222\u2013228.<\/li>\n
  21. 2008 Chunsheng Du, Jondo Yun, Randy K. Dumas, Xiaoyou Yuan, Kai Liu,Nigel D. Browning, and\u00a0Ning Pan<\/b>, Three-dimensionally Intercrossing Mn3<\/span>O4<\/span>\u00a0Nanowires, Acta Materialia<\/span>, 56, 3516\u20133522.<\/li>\n
  22. 2008 Lianjiang Tan, Ding Pan,\u00a0Ning Pan<\/b>, Gelation behavior of polyacrylonitrile solution in relation to aging process and gel concentration, Polymer<\/span>, 49, 5676-5682.<\/li>\n
  23. 2008 Qilin Wu,\u00a0Ning Pan<\/b>, Keming Deng and Ding Pan, Thermogravimetry\u2013mass spectrometry on the pyrolysis process of Lyocell fibers with and without catalyst, Carbohydrate Polymers<\/span>, 72: 222\u2013228.<\/li>\n
  24. 2008 Lianjiang Tan, Ding Pan,\u00a0Ning Pan<\/b>, A thermodynamic study on a ternary system of H2<\/span>O-DMF-PAN, Journal of Applied Polymer Science<\/span>, 110,\u00a03439\u00a0–\u00a03447.<\/li>\n
  25. 2008 Lianjiang Tan, Huifang Chen, Ding Pan,\u00a0Ning Pan<\/b>, Investigating the Spinnability in the Dry-jet Wet Spinning of PAN Precursor Fiber, Journal of Applied Polymer Science<\/span>, 110, 1997-2000.<\/li>\n
  26. 2009 Ozcan Koysuren, Chunsheng Du,\u00a0Ning Pan<\/b>, Goknur Bayram, Preparation and Comparison of Two Electrodes for Supercapacitors: Pani\/CNT\/Ni and Pani\/Alizarin treated Nickel, Journal of Applied Polymer Science<\/span>, 113, 1070\u20131081.<\/li>\n
  27. 2009 Lianjiang Tan, Ding Pan,\u00a0Ning Pan<\/b>, Rheological Study on Thermal-induced Gelation Behavior of PAN Solution, Journal of Polymer Research<\/span>, 16, 341\u2013350.<\/li>\n
  28. 2009 Lianjiang Tan, Ding Pan,\u00a0Ning Pan<\/b>, Investigation into the gelation and crystallization of polyacrylonitrile, European Polymer Journal<\/span>, 45, 1617-1624.<\/li>\n
  29. 2009 Weiping Du, Huifang Chen, Haifeng Xu, Ding Pan and\u00a0Ning Pan<\/b>, Viscoelastic Behavior of Polyacrylonitrile\/Dimethyl Sulfoxide Concentrated Solution with Water, Journal of Polymer Science, B: Polymer Physics<\/span>,\u00a047<\/b>, 1437\u20131442.<\/li>\n
  30. 2010 Keya Dharamvir, Kiran Jeet, Chunsheng Du, Ning Pan<\/strong> and Vijay K. Jindal, Structural Modifications of Multiwalled Carbon Nanotubes by Swift Heavy Ions Irradiation, Journal of Nano Research<\/span>, 10<\/b>, 1-9.<\/li>\n
  31. 2011 Yueming Li, Marshall Zijll, Shirley Chiang, Ning Pan<\/strong>, KOH Modified Graphene Nanosheets for Supercapacitor Electrodes, Journal of Power Sources<\/span>, 196, 6003\u20136006.<\/li>\n
  32. 2011 Lianjiang Tan, Ding Pan, Ning Pan<\/strong>, Water Effect on the Rheological Behavior of PAN Solution during Thermal-induced Gelation Process, Polymers for Advanced Technologies<\/span>, 22<\/strong>, 2279\u20132284.<\/li>\n
  33. 2011 Ravandi S. A. Hosseini; Pan N<\/strong>., Morphological Characterization of Individual Polyacrylonitrile Nanofibers, <\/a>Current Nanoscience<\/span>,\u00a07, 415-419.<\/li>\n
  34. 2012 Sanliang Zhang, Yueming Li, and Ning Pan<\/strong>, Graphene based Supercapacitor fabricated by Vacuum Filtration Deposition, Journal of Power Sources<\/span>, 206, 476\u2013 482.<\/li>\n
  35. 2013 Sanliang Zhang and Ning Pan<\/strong>, Supercapacitor performance of crumpled and planar graphene materials produced by hydrogen gas reduction of graphene oxide, J. Mater. Chem. A<\/span>, 1, 7957-7962.<\/li>\n
  36. 2013 Li, Jie; He, Bin; Pan, Ning<\/strong>; Pan, Zhijuan, Study on Taylor cone and trajectory of spinning jet by altering the properties of negative electrode, Advanced Materials Research<\/span>, 796,<\/b> 317-322.<\/li>\n
  37. 2014 Li, Jie; Tian, Long; Pan, Ning<\/strong>; Pan, Zhijuan, Mechanical and electrical properties of the PA6\/SWNTs nanofiber yarn by electrospinning, Polymer Engineering and Science<\/span>, 54<\/strong>,\u00a01618-1624.<\/li>\n
  38. 2014 Shengming Yu, Yueming Li and Ning Pan<\/strong>, KOH activated carbon\/graphene nanosheets composites as high performance electrode materials in supercapacitor, RSC Advances<\/span>, 4<\/strong>, 48758.<\/li>\n
  39. 2014 Sixiao Hu, Sanliang Zhang, Ning Pan<\/strong>, You-Lo Hsieh, High energy density supercapacitors from lignin derived submicron activated carbon fibers in aqueous electrolytes, Journal of Power Sources<\/em><\/span>, 270<\/strong>, 106-112.<\/li>\n
  40. 2014 Sanliang Zhang and Ning Pan<\/strong>, Supercapacitor Performance Evaluation, Advanced Energy Materials<\/span><\/em>, 1401401.<\/li>\n
  41. 2015 Bipin Kumar, Apurba Das, Ning Pan<\/strong>, R. Alagirusamy, Rupali Gupta and Jitender Singh, Liquid Transmission Characteristics of Padding Bandages under Pressure, Journal of Biomaterials Applications<\/u><\/em>, DOI: 10.1177\/0885328215597589.<\/li>\n
  42. 2016 Bipin Kumar, Jinlian Hu, Ning Pan<\/strong>, Smart medical stocking using memory polymer for chronic venous disorders, Biomaterials<\/u><\/em>, 75<\/strong>,174-181.<\/li>\n
  43. 2016 Bipin Kumar, Jinlian Hu, Ning Pan<\/strong>, Memory Bandage for Functional Compression Management for Venous Ulcers, Fibers<\/u><\/em>, 4<\/strong>, doi:10.3390\/fib4010010.<\/li>\n
  44. 2016 Bipin Kumar, Jinlian Hu, Ning Pan<\/strong>, A smart orthopedic compression device based on a polymeric stress memory actuator, Materials & Design<\/u><\/em>, DOI10.1016\/j.matdes.2016.02.092.<\/li>\n
  45. 2016 Ravandi Hosseini, Ning Pan<\/strong>, Frank Ko, Dynamic mechanical relaxations of electrospun poly(acrylonitrile-co-methyl acrylate) nanofibrous yarn, Textile Research Journal<\/em><\/span>, DOI: 10.1177\/0040517516665265.<\/li>\n
  46. 2017 Jinlian Hu, Shanshan Zhu, Robert J. Young, Ziqing Cai, Liangbin Li, Jianping Han and Ning Pan<\/strong>, Stress memory materials and their fundamental Platform, Journal of Materials Chemistry A<\/em><\/span>, DOI: 10.1039\/c6ta08005g.<\/li>\n
  47. 2017\u00a0Ruya Li, Yang Si, Zijie Zhu, Yaojun Guo, Yingjie Zhang, Ning Pan<\/b>, Gang Sun,and Tingrui Pan, Supercapacitive iontronic nanofabric sensing, Advanced Materials<\/em><\/span>, DOI: 10.1002\/adma.201700253.<\/li>\n
  48. 2017 Jing Gao, Jun Liu, Ruifang Xu, Huiwen Guo, Lu Wang and Ning Pan<\/strong>,Micro-nanostructure based Super-hydrophobic Surface on Cotton Fabric, Textile Research Journal<\/span><\/em>, DOI: 10.1177\/0040517517732080.<\/li>\n
  49. 2017 Wang, Y.; Chen, Z.F.; Yu, S.J.; Pan N<\/b>.; Liao, J.H., Preparation and Characterization of Dense Graphite\/Glassy Carbon Composite Coating for Sealing Application, Materials Research Express<\/span><\/i>, 4<\/b>, 095601.<\/li>\n
  50. 2017 Zhang, S., Lum, C. & Pan, N<\/strong>., Enhanced performance of carbon\/carbon supercapacitors upon graphene addition, Environ. Eng.<\/em>,<\/span> 2: 9. doi:10.1007\/s41204-017-0020-0.<\/li>\n
  51. 2019 Lu, YJ, Tian, M., Sun, XT, Pan, N<\/strong>., Chen, FX, Zhu, SF, Zhang, XS, Guo, X., and Chen, SJ, Highly sensitive wearable 3D piezoresistive pressure sensors based on graphene coated isotropic non-woven substrate, Composites Part A: Applied Science and Manufacturing,\u00a0117<\/strong>,\u00a0202-210.<\/li>\n<\/ol>\n

    \u00a0II. BIOMECHANICS OF HUMAN AND TEXTILE INTERACTIONS<\/strong><\/p>\n

      \n
    1. 2002 Jianhua Wu and Ning Pan<\/b>, Random walk model of postural sway on carpeted floors, Biomedical Engineering:\u00a0 Recent Developments<\/span>.\u00a0 J. Vossoughi (Editor), Medical and Engineering Publishers, Inc., 55-56.<\/li>\n
    2. 2006 Wen Zhong, Malcolm MQ Xing, Ning Pan<\/b> and Howard I Maibach, Textiles and Human Skin, Microclimate, Cutaneous Reactions: An overview, Journal of Toxicology: Cutaneous and Ocular toxicology<\/span>, 25 (1): 23-39.<\/li>\n
    3. 2006 Malcolm MQ Xing, Zhiguo Sun, Wen Zhong, Ning Pan<\/b> and Howard Maibach, an EFE model on skin – sleeve interactions during arm rotation, ASME Journal of Biomechnical Engineering, <\/span>128, 872-878.<\/li>\n
    4. 2006 Malcolm Xing, Ning Pan<\/b>, Wen Zhong and Howard Maibach, Skin friction blistering: Computer model, Skin Research and Technology<\/span>; 12: 1\u20137.<\/li>\n
    5. 2007 Ulrich Y. Schaff, Malcolm M. Q. Xing, Kathleen K. Lin, Ning Pan<\/b>, Noo Li Jeon <\/i>and Scott I. Simon, Vascular mimetics based on microfluidics for imaging the leukocyte\u2013 endothelial inflammatory response, Lab on a Chip<\/span>, 7, 448\u2013456.<\/li>\n
    6. 2007 Jianhua Wu, Ning Pan<\/b> and Keith R. Williams, Mechanical, Biomechanical and Psychophysical Study of Carpet Performance, Textile Research Journal<\/span>, 77, 172~178.<\/li>\n
    7. 2008 Malcolm MQ Xing, Wen Zhong, Ning Pan<\/b> and Howard Maibach, Interfacial kinetics effects on transdermal drug delivery: a computer modeling, Skin Research and Technology<\/span>, 14:165-72.<\/li>\n
    8. 2008 N. Pan<\/b>, Sweat management for military applications, \u201cMilitary Textiles\u201d Edited by E Wilusz, CRC-Woodhead Publishing Ltd., Cambridge, UK, 137-155.<\/li>\n
    9. 2008 Jianhua Wu, Ning Pan<\/b> and Keith R. Williams, Dynamic Analysis of Posture Profiles in Quiet Stance on Carpets through Fractional Brownian Motion, Textile Research Journal<\/span>, 78, 45-52.<\/li>\n
    10. 2009 Jing Gao and Ning Pan<\/b>, Explanation of the Fractal Characteristics of Goose Down Configurations, Textile Research Journal<\/span>, 79<\/b>, 1142\u20131147.<\/li>\n
    11. 2009 Jing Gao, Ning Pan<\/b> and Weidong Yu, Fractal character forecast of down fiber assembly microstructure, Journal of Textile Institute<\/span>, 100<\/b>, 539\u2013544.<\/li>\n
    12. 2009 Malcolm M. Q. Xing, Xiaoying Hui, Wen Zhong, Ning Pan<\/b>, Frank Yaghmaie, H. I. Maibach, In vitro human topical bioactive drug transdermal absorption: Estradiol, Cutaneous and Ocular Toxicology<\/span>, 28<\/b>, 171-175.<\/li>\n
    13. 2010 Jing Gao, Ning Pan<\/b> and Weidong Yu, Compression Behavior Evaluation of Single-Down-Fiber and Down Fiber Assemblies, Journal of the Textile Institute<\/span>, 101<\/b>, 253\u2013260.<\/li>\n
    14. 2010 Yiming Gan, Ling Cheng, Xin Ding and Ning Pan<\/b>, Blood flow fluctuation underneath human forearm skin caused by local thermal stimuli of different fabrics, Journal of Thermal Biology<\/span>, 35<\/b>, 352-377.<\/li>\n
    15. 2012 Mingwei Tian, Sukang Zhu and Ning Pan<\/strong>, Skin Thermal Stimulation on Touching Cool Fabric from the Transient Stage to Steady-State Stage, International Journal of Thermal Sciences<\/span>, 53<\/b>, 80-88.<\/li>\n
    16. 2012 Wen Zhong, Malcolm MQ Xing, Ning Pan,<\/strong> Chapter 18.\u00a0Textiles and human skin, microclimate, and cutaneous reactions: overview, Dermatotoxicology, Ed by: Klaus Peter Wilhelm, Hongbo Zhai, Howard I. Maibach, Eighth Edition, 156-163, CRC Press.<\/li>\n
    17. Xia Yin, Qun Chen, Ning Pan<\/strong>, Feasibility\u00a0of\u00a0Perspiration\u00a0Based\u00a0Infrared\u00a0Camouflage, Applied Thermal Engineering<\/span>, 36<\/b>, 32-38.<\/li>\n
    18. 2013 Xia Yin, Qun Chen, Ning Pan<\/strong>, A Study and a Design Criterion for Multilayer-Structure in Perspiration Based Infrared Camouflage, Experimental Thermal and Fluid Science<\/span>, 46<\/b>, 211\u2013220.<\/li>\n
    19. 2014 Xia Yin, Qun Chen, Ning Pan<\/strong>, A More Comprehensive Transport Model for Multilayer-Cloth for Perspiration Based Infrared Camouflage, Applied Thermal Engineering<\/span>, 68<\/b>, 10-19.<\/li>\n
    20. 2016 N. Pan<\/strong>, and R. Postle \u201c10 Commandments\u201d in Wearable Technologies, China Textile Leader<\/span><\/em>, 54-57.<\/li>\n
    21. 2016 Ge Wu, Duan Li, Pengpeng Hu, Yueqi Zhong and Ning Pan<\/strong>, Automatic foot scanning and measurement based on multiple RGB-depth cameras, Textile Research Journal<\/em>, DOI: 10.1177\/0040517516677233.<\/li>\n
    22. 2017 Ge Wu, Duan Li, Pengpeng Hu, Yueqi Zhong and Ning Pan<\/strong>, Foot shape prediction using elliptical Fourier analysis, Textile Research Journal<\/em>, DOI: 10.1177\/0040517517693983.<\/li>\n
    23. 2017 Liang ST, Pan N<\/b>., Wu XY and Ding XM, Effects of pressure-free steam ironing on cotton fabric surface and wrinkle recovery, Textile Research Journal<\/i>, DOI: 10.1177\/0040517517725124.<\/li>\n<\/ol>\n

      \u00a0III. PHYSICS OF POROUS MATERIALS
      \n<\/strong><\/p>\n

        \n
      1. 1997 Lukas, D., Glazyrina, E. and Pan, N<\/b>., Computer Simulation of Liquid Wetting Dynamics in Fiber Structures Using the Ising Model, Journal of Textile Institute<\/span>, V.88, Part 1, No.2, 149-161.<\/li>\n
      2. 2000 Giulio Ferruzzi, William Casey, and Ning Pan,<\/b> Mechanical Properties of Gellan and Polyacrylamide Gels with Implications for Soil Stabilization, Soil Science<\/span>, V 165(10): 778-792.<\/li>\n
      3. 2003 Jihuan He, Hongmei Liu, Ning Pan<\/b>, Variational model for ionomeric polymer\u2013metal composite, Polymer<\/span> 44, 8195\u20138199.<\/li>\n
      4. 2005 D. Lukas, V. Soukupova, Ning Pan<\/b> and D. V. Parikh, Computer Simulation of 3-D Liquid Transport in Fibrous Materials, SIMULATION: Transactions of SMS<\/span>, 80, 547 – 557.<\/li>\n
      5. 2006 Gao J<\/a>, Pan N<\/a><\/b>, Yu WD<\/a>,\u00a0 A fractal approach to goose down structure,\u00a0 International Journal of Nonlinear Sciences And Numerical Simulation<\/span> 7 (1): 113-116.<\/li>\n
      6. 2006 D. Luk\u00e1\u0161, J. Chaloupek, E. Ko\u0161\u0165\u00e1kov\u00e1, N. Pan<\/b> and I. Martinkov\u00e1, Morphological Transitions of Capillary Rise in a Bundle of Two and Three Solid Parallel Cylinders, PHYSICA<\/span>, A 371, 226\u2013248.<\/li>\n
      7. 2007 Gao J<\/a>, Pan N<\/a><\/b>, Yu WD<\/a>,\u00a0 Golden Mean and Fractal Dimension of Goose Down. International Journal of Nonlinear Sciences and Numerical Simulation<\/span>. Vol.8 (1), 113-116.<\/li>\n
      8. 2007 Moran Wang, Jihuan He; Jinku Wang, Shiyi Chen and Ning Pan<\/b>, Three dimensional influences on the effective thermal conductivity of porous media, Journal of Physics D: Applied Physics<\/span>, 40, 260 -265.<\/li>\n
      9. 2007 Moran Wang, Jinku Wang, Ning Pan<\/b>, Shiyi Chen, Mesoscopic predictions of the effective thermal conductivity for microscale random porous media, Physical Review E<\/span>, 75, 036702 ~ 036710.<\/li>\n
      10. 2007 Moran Wang and Ning Pan<\/b>, Numerical analyses of effective dielectric constant of multiphase micro porous media, Journal of Applied Physics<\/span>, 101, 14102 ~ 14108.<\/li>\n
      11. 2007 Moran Wang; Jihuan He; Jianyong Yu; Ning Pan<\/b>, Lattice Boltzmann modeling of the effective thermal conductivity for fibrous materials, International Journal of Thermal Sciences<\/span>, 46, 848 ~ 855.<\/li>\n
      12. 2007 Jing Gao, Ning Pan<\/b>, Weidong Yu, Structures and Properties of the Goose Down as a Material for Thermal Insulation, Textile Research Journal<\/span>, 77, 617~626.<\/li>\n
      13. 2007 Moran Wang, Jinku Wang,\u00a0Ning Pan<\/b>, Shiyi Chen, Lattice Poisson-Boltzmann Simulations of Electroosmotic Flows in Charged Anisotropic Porous Media, Communication of Computational Phys<\/span>,\u00a02<\/b>, 1055-1070<\/li>\n
      14. 2007 Jing Gao,\u00a0Ning Pan<\/b>\u00a0and Weidong Yu, Fractal Dimension of Down Fibre Assemblies, International Symposium on Nonlinear Dynamics, Journal of Physics: Conference Series<\/span> 96, doi:10.1088\/1742-6596\/96\/1\/012162.<\/li>\n
      15. 2007 Moran Wang, Fankong Meng, and\u00a0Ning Pan<\/b>. Transport properties of functionally graded materials. J. Appl. Phys.<\/span>, 102, 033514-517.<\/li>\n
      16. 2007 Jing Gao,\u00a0Ning Pan<\/b>, Weidong Yu., Golden Mean and Fractal Dimension of Goose Down. International Journal of Nonlinear Sciences and Numerical Simulation<\/span>. Vol.8 (1), 113-116.<\/li>\n
      17. 2008 Moran Wang and\u00a0Ning Pan<\/b>, Mesoscopic modeling of the effective thermal conductivity of random open-cell porous foams, International Journal of Heat and Mass Transfer<\/span>, 51, 1325\u20131331.<\/li>\n
      18. 2008 M. Wang and N. Pan<\/b>. Predictions of Effective Physical Properties of Complex Multiphase Materials. Material Science and Engineering-R: Report<\/span>(Invited Review), 63: 1\u201330.<\/li>\n
      19. 2008 Hongying Yang, Sukang Zhu, Keijing Li and Ning Pan<\/b>, Modeling Fabric\u2019s Optical Behaviors, Materials Science Forum<\/span> Vols. 575-578, 1266-1271.<\/li>\n
      20. 2008 Moran Wang, Qinjun Kang, Ning Pan<\/b>, Thermal conductivity enhancement of carbon fiber composites, Applied Thermal Engineering<\/span>, 29,<\/a> 418-421.<\/li>\n
      21. 2008 Jing Gao, Ning Pan<\/b> and Weidong Yu, Fractal Dimension of Down Fibre Assemblies, International Symposium on Nonlinear Dynamics, Journal of Physics: Conference Series<\/span> 96, doi:10.1088\/1742-6596\/96\/1\/012162.<\/li>\n
      22. 2009 Lei Zuo, Sukang Zhu and Ning Pan<\/b>, Determination of sample size for step-wise transient thermal tests, Polymer Testing<\/span>, 28, 307-314.<\/li>\n
      23. 2009 Moran Wang and Ning Pan<\/b>, Elastic property of multiphase composites with random microstructure, Journal of Computational Physics<\/span>, 228<\/b>, 5978\u20135988.<\/li>\n
      24. 2009 Qun Chen, Moran Wang, Ning Pan<\/b>, Zengyuan Guo, Irreversibility of Heat Conduction in Complex Multiphase Systems and Its Application to the Effective Thermal Conductivity of Porous Media, International Journal of Nonlinear Sciences and Numerical Simulation<\/span>, 10<\/b>, 7-16.<\/li>\n
      25. 2009 Lei Zuo, Sukang Zhu and Ning Pan<\/b>, Experimental Method of Textile Material Performance on Unsteady-State Thermal Transfer, Journal of Donghua University (Natural Science)<\/span>, 2-14.<\/li>\n
      26. 2010 Hongying Yang, Sukang Zhu and Ning Pan<\/b>, On the Kubelka-Munk Single-Constant\/ Two-Constant Theories, Textile Research Journal<\/span>, 80<\/b>, 263 ~ 270.<\/li>\n
      27. 2010 Lukas, D., Pan, N<\/b>., Sarkar, A., Weng M., Chaloupek, J., Kostakova, E., Ocheretna, L., Mikes,P., Pociute, M. and Amler, E., Auto-model based computer simulation of Plateau-Rayleigh instability of mixtures of immiscible liquids, Physica A<\/span>., 389<\/b>, 2164-2176.<\/li>\n
      28. 2010 Pan N<\/a>., <\/b>Recent Progress in Soft Materials Science, International Journal of Nonlinear Sciences and Numerical Simulation<\/span>, 11, \u00a01-1.<\/li>\n
      29. 2010 Wang M. R<\/a>., Chen Q<\/a>., Kang Q. J<\/a>., and Pan N<\/a><\/b>.,\u00a0 Ben-Naim E<\/a>., Nonlinear effective properties of unsaturated porous materials, International Journal of Nonlinear Sciences and Numerical Simulation<\/span>, 11, <\/b>\u00a049-56.<\/li>\n
      30. 2010 Liu Y.Q<\/a>, Gao J<\/a>., Yu W. D<\/a>., and Pan N<\/a><\/b>., Soft Contact of Fibrous Surfaces<\/a>,<\/span> International Journal of Nonlinear Sciences and Numerical Simulation<\/span>, 11, <\/b>\u00a071-79.<\/li>\n
      31. 2011 Chunyan Zhang, Xianfeng Wang, Jinyou Lin, Bin Ding, Jianyong Yu, Ning Pan<\/strong>, Nanoporous Polystyrene Fibers Functionalized by Polyethyleneimine for Enhanced Formaldehyde Sensing, Sensors and Actuators B-chemical<\/span>, 152, 316\u2013323.<\/li>\n
      32. 2011 Shu Yang, Wei-Dong Yu, Ning Pan<\/strong>, Band structure in two-dimensional fiber\u2013air phononic crystals, Physica B<\/span>, 406, 963\u2013966.<\/li>\n
      33. 2011 Mingwei Tian, Sukang Zhu and Ning Pan<\/strong>, Measuring the Thermophysical Properties of Porous Fibrous Materials with a New Unsteady-state Method, Journal of Thermal Analysis and Calorimetry<\/span>, 107<\/b>, 395-405.<\/li>\n
      34. 2011 Shu Yang, Wei-Dong Yu, Ning Pan<\/strong>, Investigation of the sound-absorbing behavior of fiber assemblies, Textile Research Journal<\/span>, 81<\/b>, 673\u2013682.<\/li>\n
      35. 2011 Shu Yang, Wei-Dong Yu, Ning Pan<\/strong>, Fractal phenomenon in sound absorbing behavior of down fiber assembly, Textile Research Journal<\/span>, 81<\/b>, 1139 – 1144.<\/li>\n
      36. 2012 Mingwei Tian, Sukang Zhu and Ning Pan<\/strong>, Effects of Layer Stacking Sequence on Temperature Response of Multi-layer Composite Materials under Dynamic Conditions, Applied Thermal Engineering<\/span>, 33-34<\/b>, 219-226.<\/li>\n
      37. 2012 Mingwei Tian, Sukang Zhu, Lijun Qu, Guangting Han, Fukui Pan and Ning Pan<\/strong>, Effects of Layering Sequence on Thermal Response of Multilayer Fibrous Materials: Unsteady-state Cases, Experimental Thermal and Fluid Science<\/span>, 41<\/b>,143-148.<\/li>\n
      38. 2012 Xiaoyan Liu, Rongrong Song, Weidong Yu, Ning Pan<\/strong>, Developing UV-Protective Cotton Fabric Based on SiOx<\/i> Nanoparticles, Fibers and Polymers<\/span>, 13<\/b>, 489-494.<\/li>\n
      39. 2013 Xia Yin, Jing Gao, Weidong Yu, Ning Pan<\/strong>, A Study on adhesive force generated by fly hairy pads contacting surfaces of different roughness, Journal of Xian Polytechnic University<\/span>, 27<\/b>, 282\u2013292.<\/li>\n
      40. 2013 Wang, Moran; Wang, Xinmiao;\u00a0 Wang, Jinku; and\u00a0 Pan, Ning<\/strong>,\u00a0 Grain size effects on effective thermal conductivity of porous materials with internal thermal contact resistance, Journal of Porous Media<\/span><\/em>, 16<\/b>, 1043-1048.<\/li>\n
      41. 2014 Ning Pan<\/strong>, Exploring the significance of structural hierarchy in material Systems – A review, Applied Physics Review<\/span>, 1<\/b>, 021302.<\/li>\n
      42. 2015 Chiyu Xie, Jinku Wang, Dong Wang, Ning Pan<\/strong> and Moran Wang, Lattice Boltzmann Modeling of Thermal Conduction in Composites with Thermal Contact Resistance, Communications in Computational Physics<\/u><\/em>, 17<\/strong>, 1037 \u2013 1055<\/li>\n
      43. 2015 Tian, M., Pan, N<\/strong>., Qu, L., Guo, X., and Han, G., A theoretical analysis of local thermal equilibrium in fibrous materials, Thermal Science<\/u><\/em>, 19<\/strong>, 69-82.<\/li>\n
      44. 2016 Chengdong Li, Binbin Li, Ning Pan<\/strong>, Zhaofeng Chen, Muhammad Umar Saeed, Tengzhou Xu, Yong Yang, Thermo-physical properties of polyester fiber reinforced fumed silica\/hollow glass microsphere composite core and resulted vacuum insulation panel, Energy and Buildings<\/u><\/em>, 125<\/strong>, 298-309.<\/li>\n
      45. 2016 Chengdong Li, Muhammad Umar Saeed, Ning Pan<\/strong>, Zhaofeng Chen, Tengzhou Xu, Fabrication and characterization of low-cost and green vacuum insulation panels with fumed silica\/rice husk ash hybrid core material, Materials & Design<\/em><\/span>, <\/strong>107<\/strong>, 440\u2013449.<\/li>\n
      46. 2017 Xinting He, Yangyu Guo, Min Li, Ning Pan<\/strong>, Moran Wang, Effective gas diffusion coefficient in fibrous materials by mesoscopic modeling, International Journal of Heat and Mass Transfer<\/em><\/span>, 107<\/strong> 736\u2013746.<\/li>\n
      47. 2018 Liang ST., Pan N<\/strong>., Wu XY and Ding XM, Steam impinging and heat and water spreading in fabrics, Textile Research Journal<\/em><\/span>, 1177\/0040517518773373.<\/li>\n
      48. 2018 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan<\/b>, Design and optimization of core\/shell structures as highly efficientopacifiers for silica aerogels as high-temperature thermal insulation, International Journal of Thermal Sciences\u00a0<\/strong><\/i><\/span>133<\/strong> (2018) 206\u2013215.<\/li>\n
      49. 2018 Liang ST., Pan N<\/strong>., Wu XY and Ding XM, Steam impinging and heat and water spreading in fabrics, Textile Research Journal<\/em>, 10.1177\/0040517518773373.<\/li>\n
      50. 2018 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan<\/strong>, Design and optimization of core\/shell structures as highly efficient opacifiers for silica aerogels as high-temperature thermal insulation, International Journal of Thermal Sciences<\/em>133<\/strong>(2018) 206\u2013215.<\/li>\n
      51. 2019 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan<\/strong>, Numerical modeling of the gas-contributed thermal conductivity of aerogels, International Journal of Heat and Mass Transfer<\/em>131<\/strong>(2019) 217\u2013225.<\/li>\n
      52. <\/li>\n<\/ol>\n

        \u00a0IV. MECHANICS OF SOFT FIBROUS MATERIALS<\/strong><\/p>\n

          \n
        1. 1989 Carnaby, G. A. and Pan, N.,<\/b> Theory of the Compression Hysteresis of Fibrous Assemblies, Textile Research Journal<\/span>, V.59, 275.<\/li>\n
        2. 1989 Pan, N<\/b>. and Carnaby, G. A., Theory of the Shear Deformation of Fibrous Assemblies, Textile Research Journal<\/span>, V.59, 285.<\/li>\n
        3. 1992 Pan, N<\/b>. , Development of a Constitutive Theory for Short Fiber Yarns Part I : Mechanics of Staple Yarn without Slippage Effect, Textile Research Journal<\/span>, V. 62, 749-765.<\/li>\n
        4. 1993 Moon Seo, Palmer, M.L., Pan, N.,<\/b> Boyce, M., Schwarts, P. and Backer, S., On the Mechanical Properties of Fabric Woven from Yarns Produced by Different Spinning Technology: Yarn Failure in Woven Fabric, Textile Research Journal<\/span>, 63, p. 123-134.<\/li>\n
        5. 1993 Pan, N.<\/b> , A Modified Analysis on the Microstructural Characteristics of General Fiber Assemblies, Textile Research Journal<\/span>, V.63, p. 336-345.<\/li>\n
        6. 1993 Pan, N.<\/b> , Development of a Constitutive Theory for Short Fiber Yarns Part II: Mechanics of Staple Yarn with Slippage Effect, Textile Research Journal<\/span>, V. 63, 504-514.<\/li>\n
        7. 1993 Pan, N.<\/b> , Development of a Constitutive Theory for Short Fiber Yarns Part III: Effects of Fiber Orientation and Fiber Bending Deformation, Textile Research Journal<\/span>. , V. 63, 565-572.<\/li>\n
        8. 1993 Pan, N.<\/b> , Prediction of Statistical Strengths of Twisted Fiber Structures, Journal of Material Science<\/span>, V. 28, 6107-6114.<\/li>\n
        9. 1993 Pan, N.<\/b> , Theoretical Modelling and Analysis of Fiber Pull-Out Behavior from a Bonded Fibrous Matrix : Elastic Bond Case , Journal of the Textile Institute<\/span>, V. 84, 472-485.<\/li>\n
        10. 1993 Pan, N.<\/b> and Mee-Young Yoon, Behavior of Yarn Pullout from Woven Fabrics : The Theoretical and Experimental, Textile Research Journal<\/span>, V. 63, 629-637.<\/li>\n
        11. 1994 Buschle-Diller, G., Zeronian, S.H., Ning Pan,<\/b> and Yoon, M.Y., Enzymatic Hydrolysis of Cotton, Linen, Ramie and Viscose Rayon Fabrics, Textile Research Journal<\/span>, V. 64, 270-279.<\/li>\n
        12. 1995 Pan, N.<\/b> and Postle, R., Strengths of Twisted Blend Fibrous Structures: Theoretical prediction of the hybrid effects, Journal of Textile Institute<\/span>, V 86, 559-580.<\/li>\n
        13. 1996 Pan, N.,<\/b> An Analysis on Woven Fabric Strengths: Prediction of fabric strength under uniaxial and biaxial extensions, Composite Science and Technology<\/span>, V56, 311-327.<\/li>\n
        14. 1996 Pan, N.<\/b> and Mee -Young Yoo, The Structural Anisotropy, Failure Criterion and Shear Strength of Woven Fabrics, Textile Research Journal<\/span>, V.66, 238-244.<\/li>\n
        15. 1996 Pan, N.<\/b> On the Mechanics of Blended Yarns, Journal of Federation of Asian Professional Textile Associations<\/span>, V3,19-33.<\/li>\n
        16. 1997 Pan, N.,<\/b> Development of a Constitutive Theory for Short Fiber Yarns Part IV: Mechanics of blended yarns, Journal of Textile Institute<\/span>, V.87, 467-483.<\/li>\n
        17. 1997 Pan, N<\/b>., Chen, J., Seo, M. and Backer,S., Micromechanics of a Planar Hybrid Fibrous Network, Textile Research Journal<\/span> , V 67, 907-925.<\/li>\n
        18. 1997 Pan, N<\/strong>. and Zhang, X.S., Shear Strength of Fibrous Sheets: An experimental investigation, Textile Research Journal<\/span> , V.67, 593-600.<\/li>\n
        19. 1997 Ning Pan,<\/b> Chen, H.C., Thompson,J., Inglesby,M.K., Khatua, S. ,Zhang, X.S.and Zeronian, S.H., The Size Effects on the Mechanical Behavior of Fibers, Journal of Materials Science<\/span>, V.32, 2677-2685.<\/li>\n
        20. 1998 Jirsak, O., Gok, T, Ozipek, B., and Pan, N., <\/b>Comparison between a Dynamic and a Static Methods for Measurement of Thermal Conductive Properties of Textiles, Textile Research Journal<\/span>, V 68, 47 – 56.<\/li>\n
        21. 1999 Yoo Hwa Sook, Ning Pan<\/b> and Gang Sun, Changes of Physical and Mechanical Properties of Firefighter Protective Clothing After Radiant Heat Exposure, Journal of the Korean Society of Clothing and Textiles<\/span>, V.23, 853-863.<\/li>\n
        22. 1999 Richard J. Bassett, Ron Postle and Ning Pan,<\/b> Grip Point Spacing along the Edges of an Anisotropic Fabric Sheet in a Biaxial Tensile Test, Polymer Composites<\/span>, V20, 305-313.<\/li>\n
        23. 1999 Zeronian, S.H., Inglesby, M.K., Ning Pan, <\/b>Lin, D., Sun, Genevieve., Soni, B. Alger, K.and Gibbon, J. D., The fine structure of Biocomponent polymer fibers, Journal of Applied Polymer Science<\/span>, V71, 1163-1173.<\/li>\n
        24. 1999 Richard J. Bassett, Ron Postle and Ning Pan,<\/b> Experimental Methods for Measurement of Fabric Mechanical Properties: A Review and Analysis, Textile Research Journal<\/span>, V69, 866-875.<\/li>\n
        25. 2000 Jirsak, O., Gok, T, Ozipek, B., and Ning Pan.,<\/b> Thermo-insulating Properties of Perpendicular-laid versus Cross-laid Lofty Nonwoven Fabrics, Textile Research Journal<\/span>, V70,121-128.<\/li>\n
        26. 2000 Gang Sun, Hwa Sook Yoo, and Ning Pan<\/b>, Thermal Performance and Comfort of Wildland Firefighting Clothing: The transport properties of multi-layer fabric systems, ASTM STP 1386<\/span>, Performance of Protective Clothing: Issues and priorities for the 21st century, V7. 504-518.<\/li>\n
        27. 2000 Gang Sun, Hwa Sook Yoo, Xiao Shan Zhang and Ning Pan<\/b>, Radiant Protective and Transport Properties of Fabrics Used by Wildland Firefighters, Textile Research Journal<\/span>, V. 70, 567-573.<\/li>\n
        28. 2000 Ning Pan<\/b>, Kezhang Chen, Constantin Monego and Stanley Backer, Study of Mechanical Properties of Blended Fibrous Structures by a Simple Model, Textile Research Journal<\/span>, V.70, 502-507.<\/li>\n
        29. 2000 Mary Lynn Realff, Ning Pan<\/b>, Moon Seo, Mary C Boyce and Stanley Backer, A Stochastic Simulation of the Failure Process and Ultimate Strength of Blended Continuous Yarns, Textile Research Journal<\/span>, V.70, 415-430<\/li>\n
        30. 2000 Ning Pan<\/b>, Shumin Zhao and Tao Hua, Relationship between Scale Effect and Structure Levels in Fibrous Structures, Polymer Composites<\/span>, V.21, 187-195.<\/li>\n
        31. 2000 Ning Pan<\/b>, Yiping Lin, Xungai Wang and Ron Postle, An Oblique Fiber Bundle Test and Analysis, Textile Research Journal<\/span>, V. 70, 671-674.<\/li>\n
        32. 2001 Ning Pan<\/b> and Tao Hua and Yiping Qiu, Relationships between fiber, fiber bundle and yarn\u00a0 strengths, Textile Research Journal<\/span>,\u00a0 V 71 (11), 960-964.<\/li>\n
        33. 2001Yiping Zhang, Xungai Wang, Ning Pan<\/b> and Ron Postle, Weibull Analysis of the Tensile Behavior of Fibers with Geometrical Irregularities, Journal of Materials Sciences<\/span>, V 37, 1401-1406.<\/li>\n
        34. 2002 Ning Pan<\/b> and David Brookstein, Physical Properties of Twisted Structures II Industrial yarns, cords and ropes, Journal of Applied Polymer Science<\/span>, V 83, 610-630.<\/li>\n
        35. 2003 Ning Pan<\/strong>, The Relationship of the Tensile Strengths between Grab and Strip Specimens of a Fabric, Textile Research Journal<\/span>, V 73, 165-171.<\/li>\n
        36. 2003 Hongying Yang, Sukang Zhu and Ning Pan<\/b>, Mechanism of inorganic UV blocking agents for fabrics, Journal of Donghua University, English Ed., <\/span>29, 7-14.<\/li>\n
        37. 2003 David Lukas and Ning Pan<\/b>, Wetting of a fiber bundle in fibrous structures, Polymer Composites<\/span>, V24, 314-322.<\/li>\n
        38. 2004 Hongying Yang, Sukang Zhu and Ning Pan<\/b>, Studying the Mechanisms of TiO2<\/sub> as UV Blocking Additives for Films and Fabrics by an Improved Scheme, J. Applied Polymer Sciences, <\/span>92, 3201-3210.<\/li>\n
        39. 2004 Wen Zhong and Ning Pan<\/strong>, Stochastic modeling of tear behavior of coated fabrics, Modeling and Simulation in Materials Science and Engineering, <\/span>12, 293-309.<\/li>\n
        40. 2004 Huiyu Sun and Ning Pan<\/b>, On the Poisson\u2019s Ratios of a Woven Fabric, Journal of Composite Structures<\/span>, 68, 505-510.<\/li>\n
        41. 2004 Huiyu Sun and Ning Pan<\/b>, The shear modulus of a Woven Fabric, Journal of Composite Structures<\/span>, 67, 317-322.<\/li>\n
        42. 2004 Jun Lang and Sukang Zhuand Ning Pan<\/b>, Frictional Behavior of Synthetic Yarns during Processing, Textile Research Journal<\/span>, 73<\/b>, 227-231.<\/li>\n
        43. 2004 Ning Pan<\/b>, On Uniqueness of Fibrous Materials, Design & Nature II<\/span>. Eds: Collins, M. and Brebbia, C. WIT Press, Boston, 493-504.<\/li>\n
        44. 2005 Jianhua Wu and Ning Pan<\/b>, Grab and Strip Tensile Strengths for Woven Fabrics: An Experimental Verification, Textile Research Journal<\/span>, 75(11), 789\u2013796.<\/li>\n
        45. 2007 Wen Zhong and Ning Pan,<\/b> Aerosol Filtration by Fibrous Filters: A Statistical Mechanics Approach, Textile Research Journal<\/span>, 77, 284~289.<\/li>\n
        46. 2007 Ning Pan<\/b>, Ji-Huan He<\/i>and Jianyung Yu, Fibrous Materials as Soft Matters, Textile Research Journal<\/span>, 77, 205~213.<\/li>\n
        47. 2007 Jae Ho Jung, Ning Pan<\/b> and Tae Jin Kang, Extensible elastica solutions on the large deflection of fiber cantilever with circular wavy crimp. II. classification of equilibrium configurations, Fibers and Polymers<\/span> 8 (4): 399- 407.<\/li>\n
        48. 2008 N. Pan<\/b>, Mechanical failure criteria for textiles and textile damage resistance, \u201cMilitary Textiles\u201d Edited by E Wilusz, CRC-Woodhead Publishing Ltd., Cambridge, UK, 50-67.<\/li>\n
        49. 2010 Jing Gao, Ning Pan<\/b> and Weidong Yu, Compression Behavior Evaluation of Single-Down-Fiber and Down Fiber Assemblies, Journal of the Textile Institute<\/span><\/em>, 101<\/b>, 253\u2013260.<\/li>\n
        50. 2014 Qu L, Tian M, Guo X, Pan N<\/strong>, Zhang X, Zhu S. Preparation and Properties of Natural Cellulose Fibres from Broussonetia papyrifera <\/em>(L.) Vent. Bast, FIBRES & TEXTILES in Eastern Europe<\/u><\/em> , 22<\/strong>, 4(106): 24-28.<\/li>\n
        51. 2015 Ning Pan<\/strong>, Radko Kovar , Mehdi Kamali Dolatabadi , Ping Wang, Diantang Zhang, Ying Sun and Li Chen, Origin of the tensile strength of a woven sample\u00a0cut in bias directions, Royal Society Open Science<\/u><\/em>, 2<\/strong>: 140499.<\/li>\n
        52. 2017 Song M, Pan N<\/strong>., Outlooks on Wearable Technology Products. J Textile Eng Fashion Technol<\/em><\/span>3(3): 00102. DOI: 10.15406\/jteft.2017.03.00102<\/li>\n
        53. <\/li>\n<\/ol>\n

          V.MECHANICS OF FIBER REINFORCED\u00a0<\/strong>COMPOSITES<\/b><\/span><\/h3>\n
            \n
          1. 1991 Pan, N.,<\/b> The optimal fiber volume fraction and fiber-matrix property compatibility for short fiber reinforced composites, Proc. of The V Conference on Advanced Engineering Fibers and Textile Structures for Composites<\/span>, NASA Conference Publication 3176, p. 101-122.<\/li>\n
          2. 1993 Pan, N<\/b>., Theoretical Determination of The optimal fiber volume fraction and fiber-matrix property compatibility for short fiber reinforced composites, Polymer Composites<\/span>, V.14, p.85-93.<\/li>\n
          3. 1994 Pan, N.,<\/b> Analytical Characterization of the Anisotropy and Local Heterogeneity of Short Fiber Composites: Fiber fraction as a variable, J. Composite Materials<\/span>, V.28, 1500-1531.<\/li>\n
          4. 1995 Pan, N.,<\/b> A Detailed Examination of the Translation Efficiency of Fiber Strength into Composite Strength, J. Reinforced Plastics and Composite<\/span>, V. 14, 2-28.<\/li>\n
          5. 1995 Pan, N.<\/b> , Micromechanics of Short Fiber Reinforced Composites, Journal of Federation of Asian Professional Textile Associations<\/span>, V.2, 26-41.<\/li>\n
          6. 1995 Pan, N.<\/b> , On the Elastic Property Prediction of Randomely Oriented Fiber Composites, Mechanics of Plastics and Plastic Composites<\/span>, ed. Boyce, M.C., MD -Vol. 68, San Francisco, ASME, 97 – 104.<\/li>\n
          7. 1995 Pan, N.<\/b> and Postle, R., Probabilistic Mechanics of Hybrid Fiber Composites, Mechanics of Plastics and Plastic Composites<\/span>, ed. Boyce, M.C., MD-Vol. 68, San Francisco, ASME, 71-78.<\/li>\n
          8. 1996 Pan, N.<\/b> and Postle, R., Tensile Strengths and the Hybrid Effects of Hybrid Fiber Composites : A probabilistic approach, Transactions of the Royal Society in London<\/span> , Series A., 354, 1875-1897.<\/li>\n
          9. 1996 Pan, N.,<\/b> Elastic Constants of Randomly Oriented Fiber Composites: A new approach to prediction, Sci. & Engi. Composite Materials<\/span>, V.5, 63-72.<\/li>\n
          10. 1998 Pan, N<\/b>, Chen, K.Z., Monego, C.J. and Backer, S., The Hybrid Effects in Hybrid Fiber Composites: Experimental verifications, Proceedings of the Royal Society in London<\/span>, V 454:1109-1127.<\/li>\n
          11. 1998 Pan, N.,<\/b> Chen, H.C., Thompson, J., Inglesby, M.K. and Zeronian, S.H., Investigation on the strength-size relationship in fibrous structures including composites, Journal of Materials Science<\/span>, V 33:2667-2672.<\/li>\n
          12. 2000 Ning Pan<\/b>, On Fiber Volume Fractions, Proc. ICCE\/7<\/span>, p. 642.<\/li>\n
          13. 2003 Yuping Zhang, Xungai Wang and Ning Pan<\/b>, An Experimental Examination of Fiber Reinforcing Effect in a Novel Model Composite,<\/span> Composites Part B: Engineering<\/span>. V34, <\/b><\/i>499-505.<\/i><\/li>\n
          14. 2003 Huiyu Sun, <\/sup>Shenglin Di, Nong Zhang, Ning Pan<\/b>, and Changchun Wu, Micromechanics of 3-D braided composites using homogenization theory and multivariable finite element method, Computer and Structures<\/span>, V 81, 2021-2027.<\/li>\n
          15. 2003 Wen Zhong and Ning Pan<\/b>, A Computer Simulation of Single Fiber Pull out Process in a Composite, J. Composite Materials<\/span>, 37, 1951-1969.<\/li>\n
          16. 2006 Huiyu Sun and Ning Pan<\/b>, Mechanical Characterization of the Interfaces in Laminate Composites, Journal of Composite Structures<\/span>, 74, 25\u201329.<\/li>\n
          17. 2007 Baohun Gu and Ning Pan<\/b>, 3-D textile structural composites under high strain rate compression: Z-transform and discrete frequency-domain analysis, Philosophical Magazine<\/span>, 87, 5461\u20135484.<\/li>\n
          18. 2011 Dian Tang Zhang, Ying Sun, Wei Hai, Li Chen and Ning Pan<\/strong>, Microstructural characterization of \u201cnew\u201d 2.5 D woven reinforcement materials, Advanced Materials Research<\/span> 217-218<\/b>, 97-100.<\/li>\n
          19. 2011 Diantang Zhang, Baodong LI, Ying SUN, Ning PAN<\/strong>, Studies on the Low-velocity Impact Response of Ultra-High Molecular Weight Polyethylene Laminated Composites, Advanced Materials Research,<\/span> <\/i>332-334<\/b>,1691-1694.<\/li>\n
          20. 2012 Jinchao Li, Li Chen, Yifan Zhang, Ning Pan<\/strong>, Microstructure and finite element analysis of 3D five-directional braided composites, Journal of Reinforced Plastics and Composites<\/span>, 31<\/b>, 107-115.<\/li>\n
          21. 2013 Yifan ZHANG, Fei SUN, Yanjie Wang, Li Chen, Ning PAN<\/strong>, Study on intra\/inter-ply shear deformation of three dimensional woven preforms for composite materials, Materials & Design<\/span>,\u00a049, 151-159.<\/li>\n
          22. 2013 Diantang ZHANG, Ying SUN, Li Chen, Ning PAN<\/strong>, A comparative study on low-velocity impact response of fabric composite laminates, Materials & Design<\/span>,\u00a050, 750-756.<\/li>\n
          23. 2014 Diantang ZHANG, Ying SUN, Li Chen, Sanliang Zhang, Ning PAN<\/strong>, Influence of fabric structure and thickness on the ballistic impact behavior of Ultrahigh molecular weight polyethylene composite laminate, Materials & Design<\/span>,\u00a054<\/b>, 315-322.\u00a0<\/i><\/b><\/li>\n
          24. 2015 F Sun, Y Zhang, L Chen, M Zhang, N Pan<\/strong>, Shear properties of three\u2010dimensional woven composite reinforcements, Polymer Composites<\/u><\/em>, DOI 10.1002\/pc.23581.<\/li>\n<\/ol>\n

            VI. SENSORY PERFORMANCE OF FIBROUS PRODUCTS<\/i><\/strong><\/p>\n

              \n
            1. 1984 Yen, K. C. and Pan, N.,<\/b> et al., The Objective Assessment of Fabric Handle, Journal of China Textile Engineering Association<\/span>, V.5, 237-240.<\/li>\n
            2. 1984 Pan, N., <\/b>The Methodology Problem in Fabric Handle Study, Journal of China Wool Science & Technology,<\/span> V.6, 37-43.<\/li>\n
            3. 1984 Yen, K. C. and Pan, N.,<\/b> Pattern Recognition Method for Fabric Handle Evaluation, Journal of China Textile Engineering Association<\/span>, V.5, 731-734.<\/li>\n
            4. 1984 Pan, N.<\/b> and Yen, K.C., The optimal Subset Selection from the Parameter Group Correlated to Fabric Handle, Journal of China Textile University<\/span>, V.2, 35-46.<\/li>\n
            5. 1985 Yen, K.C. and Pan, N., <\/b>et al, Factor Analysis on the Primary Features of Fabric Handle, Journal of China Textile Engineering Association<\/span>, V.6, 530-553.<\/li>\n
            6. 1985 Pan, N<\/b>. and Yen, K.C., Fuzzy Cluster Analysis in Fabric Handle Evaluation, Journal of China Textile University<\/span>, V.11, 52-60.<\/li>\n
            7. 1985 Yen, K.C. and Pan, N<\/b>., An Objective Measure for Fabric Handle Assessment, Journal of China Textile University<\/span>, V.11, 78-85.<\/li>\n
            8. 1985 Yen, K.C. and Pan, N.,<\/b> et al., A new Approach to the Prediction of Fabric Handle from Mechanical Properties of Woven Fabrics, Proc. of 3rd Japan – Australia Science and Technology Symposium<\/span>, p.83-91 , Kyoto, Japan, September.<\/li>\n
            9. 1986 Pan, N.<\/b> and Yen, K.C., A New Measurement Proposal for Fabric Handle Evaluation, Journal of China Textile University<\/span>, English Edition, 2: 1-14.<\/li>\n
            10. 1988 Pan, N.<\/b> and Yen, K.C., et al, The Objective Measures for Fabric Primary Handle, Textile Research Journal<\/span>, V.58, 531.<\/li>\n
            11. 1988 Pan, N.<\/b> and Yen, K.C., et al, The Objective Measure for Fabric Total Handle, Textile Research Journal<\/span>, V.58, 438.<\/li>\n
            12. 1988 Pan, N.<\/b> and Yen, K.C., et al, Fuzzy Cluster Analysis for Fabric Handle Sorting, Textile Research Journal<\/span>, V.58, 565.<\/li>\n
            13. 1992 Pan, N.<\/b> and Yen, K.C., Physical Explanations of Fabric Extracting Curve for Fabric Handle Evaluation, Textile Research Journal<\/span>, V.62, p. 279-290.<\/li>\n
            14. 1993 Pan, N.<\/b> , Zeronian, H., and Ryu H.S., An Alternative Approach to the Objective Measurement of Fabrics, Textile Research Journal<\/span> , V.63, p.33 -43.<\/li>\n
            15. 1998 Brandt, B., Brown, D., Burns, L., Cameron, B., Chandler, J., Dallas, M., Kaiser, S., Lennon, S., Ning Pan<\/b>, Salusso, C. and Smitley, R., Development of an Interdisciplinary Method for the Study of Fabric Perception, J. Text. Inst<\/span>., V89: 65-77.<\/li>\n
            16. 2006 Ning Pan<\/strong>, Quantification and evaluation of human tactile sense towards fabrics, Int. Journal of Nature & Design, 1: 1-13 (invited).<\/li>\n
            17. 2010 Yiming Gan, Ling Cheng, Xin Ding and Ning Pan<\/b>, Blood flow fluctuation underneath human forearm skin caused by local thermal stimuli of different fabrics, Journal of Thermal Biology<\/span>, 35<\/b>, 352-377.<\/li>\n
            18. 2011 Seyed Hosseini Ravandi and Ning Pan<\/strong>, The influence of gray level co-occurrence\u00a0matrix variables on the textural features of wrinkled fabric surfaces,\u00a0Journal of\u00a0Textile Institute,\u00a0102<\/b>, 315 \u2013 321.<\/li>\n
            19. 2011 Xiaoyan Liu, Weidong Yu, Ning Pan<\/strong>, Evaluation of High Performance Fabric Under Light Irradiation, Journal of Applied Polymer Science<\/span>, 120, 552\u2013556.<\/li>\n
            20. 2011 Mingwei Tian, Sukang Zhu and Ning Pan<\/strong>, Simulation of Efficiency of Liquid Cooling Garments, Advanced Materials Research,<\/span> <\/i>331<\/b>, 636-639.<\/li>\n
            21. 2012 Mingwei Tian, Sukang Zhu and Ning Pan<\/strong>, Skin Thermal Stimulation on Touching Cool Fabric from the Transient Stage to Steady-State Stage, International Journal of Thermal Sciences<\/span>, 53<\/b>, 80-88.<\/li>\n
            22. 2012 Yiming Gan, Yuqing Liu, Xin Ding and Ning Pan<\/strong>. Thermal sensation at index finger while applying external pressure at upper arm. Journal of Thermal Biology<\/span>, 37<\/b>, 502\u2013509.<\/li>\n<\/ol>\n

              VII. OTHER ENGINEERING<\/strong><\/h4>\n
                \n
              1. 1981 <\/span>Pan, N. <\/b>and Chen, Y. F., Developing a Constant-Temperature Hot Wire Anemometer, <\/span>Journal of China Text. University<\/span>, V.7, 169-177.\u00a0<\/span><\/li>\n
              2. 1984 Pan, N.<\/b> and Chen, Y. F., The Measurement and Analysis of Flow Speed Field on Air Jet Loom, Journal of China Text. University<\/span>, V.10, 60-63.<\/li>\n
              3. 2000 Ke-Zhang Chen, Cun-Zhu Huang, Shang-Xian Chen and Ning Pan<\/b>, Development of a New Drafting System for Ring Spinning Machines, Textile Research Journal<\/span>, V70, 154-160.<\/li>\n
              4. 2004 Jun Lang, Sukang Zhu and Ning Pan<\/b>,Change of Yarn Hairiness during Winding Process Analysis of the trail fiber ends, Textile Research Journal,<\/span> 74 (10): 905-913.<\/li>\n
              5. 2004 Jun Lang Sukang Zhu and Ning Pan<\/b>, Frictional Behavior of Synthetic Yarns during Processing, Textile Research Journal,<\/span> 73, 227-231.<\/li>\n
              6. 2005 Ji-Huan He, Yanping Yu, Ning Pan<\/b>, Xu-Chu Cai , Jian-Yong Yu, and Shan-Yuan Wang, Quasistatic Model for Two-Strand Yarn Spinning, Mech. Research Communication<\/span>, 32, 197\u2013200.<\/li>\n
              7. 2005 Ji-Huan He, Yanping Yu,Jian-Yong Yu, Ning Pan,<\/b> Wei-Ru Li, and Shan-Yuan Wang, Nonlinear Dynamical Model for Two-Strand Yarn Spinning, Textile Research Journal,<\/span>\u00a0 75 (2): 181-184.<\/li>\n
              8. 2005 Ji-Huan He, Yanping Yu,Jian-Yong Yu, Ning Pan<\/b>, Wei-Ru Li, and Shan-Yuan Wang,\u00a0 A Linear Dynamical Model for Two-Strand Yarn Spinning, Textile Research Journal,<\/span> 75, 87-90.<\/li>\n
              9. 2007 Jae Ho Jung, Ning Pan<\/b> and Tae Jin Kang, Tension Transmission Via an Elastic Rod Gripped by Two Circular-Edged Plates, International Journal of Mechanical Sciences,<\/span> 49, 1095 – 1103.<\/li>\n
              10. 2008 Jae Ho Jung, Ning Pan<\/b> and Tae Jin Kang, Generalized capstan problem: Bending rigidity, nonlinear friction, and extensibility effect, Tribology International<\/span> 41, 524\u2013534.<\/li>\n
              11. 2008 Jae Ho Jung,\u00a0Ning Pan<\/b>\u00a0and Tae Jin Kang, Capstan Equation Including Bending Rigidity and Non-Linear Frictional Behavior, Mechanism and Machine Theory<\/span>, 43, 661-675<\/li>\n
              12. 2009 Qun Chen, Moran Wang, Ning Pan<\/b>, Zengyuan Guo, Optimization principles for convective heat transfer, Energy<\/span>, 34,<\/b> 1199\u20131206.<\/li>\n
              13. 2009 Qun Chen, Moran Wang, Ning Pan<\/b>, Zengyuan Guo, An Optimization Principle for Variable Viscosity Fluid Flow and Its Application to Heavy Oil Flow Drag Reduction, Energy and Fuels<\/span>, 23<\/b>, 4470\u20134478.<\/li>\n
              14. 2010 Chen Q<\/a>., Yang K. D., Pan N<\/a>. and Guo Z.Y., A new approach to analysis and optimization of evaporative cooling system I: Theory, Energy<\/span>, 35<\/b>, 2448-2454.<\/li>\n
              15. 2011 Qun Chen, Hongye Zhu, Ning Pan<\/strong>, Zengyuan Guo, An Alternative Criterion in Heat Transfer Optimization, Proc. R. Soc. A<\/span>., <\/i>467<\/b>, 1012\u20131028.<\/li>\n
              16. 2011 Chen Q<\/a>., Pan N<\/a>. and Guo Z.Y., A new approach to analysis and optimization of evaporative cooling system II: Applications, Energy<\/span>, 36<\/b>, 2890-2898.<\/li>\n
              17. 2011 Chen Q<\/a>, Wu J<\/a>, Wang M. R<\/a>, Pan N<\/a>, Guo ZY<\/a>, A comparison of optimization theories for energy conservation in heat exchanger groups, Chinese Science Bulletin<\/span>,\u00a056<\/b>, 449-454.<\/li>\n<\/ol>\n

                \u00a0Books Co\/authored and Co\/edited:<\/strong><\/p>\n

                2005 Ning Pan<\/b>,\u00a0<\/i>Physics of Fibrous Soft Matter<\/i>s, <\/b><\/i>Higher Education Publishing, Inc., Beijing, 741 Pages.<\/p>\n

                2006 Ning Pan <\/b>and Wen Zhong, Fluid transport phenomena in fibrous materials<\/i>, Textile Progress, Woodhead Publishing Ltd., Cambridge, UK, 124 Pages.<\/p>\n

                2006 Edited by\u00a0Ning Pan\u00a0<\/b><\/b>and Phil Gibson,\u00a0<\/b>Thermal and Moisture Transport in Fibrous Material<\/i>, Woodhead Publishing Ltd., Cambridge, UK, 656 pages.<\/p>\n

                2011 Edited by\u00a0Ning Pan<\/strong> and Gang Sun: Functional textiles for improved performance,\u00a0protection and health<\/em>, Woodhead Publishing Ltd., Cambridge, England. 528 Pages.<\/p>\n","protected":false},"excerpt":{"rendered":"

                I. NANOSTRUCTURED & POLYMERIC MATERIALS 2002 Chunsheng Du and Ning Pan, Preparation and Preliminary Property Study of Carbon nanotubes Films by Electrophoretic Deposition, Materials Letters, 57, 434-438. 2002 Chunsheng Du, David Heldbrant and Ning Pan, Preparation of Carbon Nanotube Films by Electrophoretic Deposition, Journal of Materials Science Letters, V 21, \u2026 Continue reading → <\/span><\/a><\/p>\n","protected":false},"author":230,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"open","template":"template-onecolumn.php","meta":{"inline_featured_image":false,"ngg_post_thumbnail":0,"footnotes":""},"class_list":["post-17","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/pages\/17","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/users\/230"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/comments?post=17"}],"version-history":[{"count":10,"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/pages\/17\/revisions"}],"predecessor-version":[{"id":270,"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/pages\/17\/revisions\/270"}],"wp:attachment":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/pan\/wp-json\/wp\/v2\/media?parent=17"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}