Ning Pan, Ph.D

UC Davis Biological and Agricultural Engineering BAE Faculty Ning Pan

Position Title
Distinguished Professor

  • Biological and Agricultural Engineering
229 Everson Hall
Bio

Research

Physics of fibrous soft materials; biophysics and biomechanics in human-textile interactions; heat, mass and energy transport phenomena in porous media, nanotechnology in energy storage; and thermodynamics in heat transfer optimization.

So far he has published over 200 peer reviewed journal papers cited over 7,533 times, with h-index of 45, according to Google Scholar (04/2017), four books to his credit.

Selected Publications

I. Nanostructured and Polymeric Materials

  1. 2002 Chunsheng Du and Ning Pan, Preparation and Preliminary Property Study of Carbon nanotubes Films by Electrophoretic Deposition, Materials Letters, 57, 434-438.
  2. 2002 Chunsheng Du, David Heldbrant and Ning Pan, Preparation of Carbon Nanotube Films by Electrophoretic Deposition, Journal of Materials Science Letters, V 21, 565-568.
  3. 2004 Chunsheng Du and Ning Pan, Preparation of single-walled carbon nanotube reinforced magnesia films, Nanotechnology 15, 227–231.
  4. 2004 Wan YQ. Guo Q. Pan N., Thermo-electro-hydrodynamic model for electrospinning process. International Journal of Nonlinear Sciences & Numerical Simulation. 5, 5-8.
  5. 2005 Mircea Chipara, Jeffrey M. Zaleski, David Hui, Chunsheng Du and Ning Pan, Electron Spin Resonance on Carbon Nanotubes – Polymer Composites, Journal of Polymer Science B: Polymer Physics, 43, 3406–3412.
  6. 2005 Fanlong Zeng, Ding Pan and Ning Pan, Choosing the Impregnants by Thermogravimetric Analysis for Preparing Rayon-Based Carbon Fibers, Journal of Inorganic and Organometallic Polymers & Material, 15, 261-267.
  7. 2005 Ji-Huan He, Yue Wu and Ning Pan, A Mathematical Model for Preparation by AC-Electrospinning Process, International Journal of Nonlinear Sciences and Numerical Simulation, 6 (3), 243-248, 2005.
  8. 2005 Chunsheng Du and Ning Pan, Growth of Carbon Nanotubes Directly on Nickel Substrate, Materials Letters, 59, 1678– 1682.
  9. 2005 Chunsheng Du and Ning Pan, Carbon nanotube thin films with ordered structures, Journal of Materials Chemistry, 15: 548-550.
  10. 2005 Chunsheng Du and Ning Pan, High power density supercapacitors using locally aligned carbon nanotube electrodes, Nanotechnology,  16, 350–353.
  11. 2005 Juan Zhang, Jian-Yong Yu, and Ning Pan, Variational principles for nonlinear fiber optics, Chaos, Solitions and Fractal , 24, 309–311.
  12. 2006 Du, C.S. and Pan, N., High power density supercapacitor electrodes of carbon nanotube films by electrophoretic deposition, Nanotechnology 17, 5314–5318.
  13. 2006 Chunsheng Du and Ning Pan, Supercapacitors Using Carbon Nanotubes Films by Electrophoretic Deposition, Journal of Power Sources, 160, 1487–1494.
  14. 2006 Wang, M., Wang J., Chen SY, and Ning Pan. Electrokinetic Pumping Effects of Charged Porous Media in Microchannels using the Lattice Poisson-Boltzmann Method. Journal of Colloid and Interface Science, 304 (1): 246-253.
  15. 2006 Wen Zhong, Ning Pan, David Lukas, Multi-scale modeling on liquid transport in fibrous structures, Journal of Computational and Theoretical Nanoscience, 3 (4): 506-512.
  16. 2006 Chen Yuhan, Wu Qilin, Pan Ding, Pan Ning, Fractal aperture distribution of activated carbon fiber and adsorption behavior to low-density benzene stream, Journal of Dispersion Science & Technology, 27:1157-1160.
  17. 2007 Du, C.S. and Pan, N., Carbon Nanotube-based Supercapacitors, Nanotechnology Law & Business (invited and peer reviewed), 4, 3 -10.
  18. 2007 Xiaoyu Yuan, Chunsheng Du, Gang Sun and Ning Pan, Electroless synthesis of large scale Co-Zn-P nanowire arrays and the magnetic behavior, Applied Surface Science, 253, 4546-4549.
  19. 2008 Chen Yuhan, Wu Qilin, Pan Ding, Pan Ning, Rayon-based Activated Carbon Fibers Treated with Both Alkali Metal Salt and Lewis Acid, Microporous & Mesoporous Materials, 109, 138–146.
  20. 2008 Qilin Wu, Ning Pan, Keming Deng and Ding Pan, Thermogravimetry–mass spectrometry on the pyrolysis process of Lyocell fibers with and without catalyst, Carbohydrate Polymers, 72, 222–228.
  21. 2008 Chunsheng Du, Jondo Yun, Randy K. Dumas, Xiaoyou Yuan, Kai Liu,Nigel D. Browning, and Ning Pan, Three-dimensionally Intercrossing Mn3O4 Nanowires, Acta Materialia, 56, 3516–3522.
  22. 2008 Lianjiang Tan, Ding Pan, Ning Pan, Gelation behavior of polyacrylonitrile solution in relation to aging process and gel concentration, Polymer, 49, 5676-5682.
  23. 2008 Qilin Wu, Ning Pan, Keming Deng and Ding Pan, Thermogravimetry–mass spectrometry on the pyrolysis process of Lyocell fibers with and without catalyst, Carbohydrate Polymers, 72: 222–228.
  24. 2008 Lianjiang Tan, Ding Pan, Ning Pan, A thermodynamic study on a ternary system of H2O-DMF-PAN, Journal of Applied Polymer Science, 110, 3439 – 3447.
  25. 2008 Lianjiang Tan, Huifang Chen, Ding Pan, Ning Pan, Investigating the Spinnability in the Dry-jet Wet Spinning of PAN Precursor Fiber, Journal of Applied Polymer Science, 110, 1997-2000.
  26. 2009 Ozcan Koysuren, Chunsheng Du, Ning Pan, Goknur Bayram, Preparation and Comparison of Two Electrodes for Supercapacitors: Pani/CNT/Ni and Pani/Alizarin treated Nickel, Journal of Applied Polymer Science, 113, 1070–1081.
  27. 2009 Lianjiang Tan, Ding Pan, Ning Pan, Rheological Study on Thermal-induced Gelation Behavior of PAN Solution, Journal of Polymer Research, 16, 341–350.
  28. 2009 Lianjiang Tan, Ding Pan, Ning Pan, Investigation into the gelation and crystallization of polyacrylonitrile, European Polymer Journal, 45, 1617-1624.
  29. 2009 Weiping Du, Huifang Chen, Haifeng Xu, Ding Pan and Ning Pan, Viscoelastic Behavior of Polyacrylonitrile/Dimethyl Sulfoxide Concentrated Solution with Water, Journal of Polymer Science, B: Polymer Physics, 47, 1437–1442.
  30. 2010 Keya Dharamvir, Kiran Jeet, Chunsheng Du, Ning Pan and Vijay K. Jindal, Structural Modifications of Multiwalled Carbon Nanotubes by Swift Heavy Ions Irradiation, Journal of Nano Research, 10, 1-9.
  31. 2011 Yueming Li, Marshall Zijll, Shirley Chiang, Ning Pan, KOH Modified Graphene Nanosheets for Supercapacitor Electrodes, Journal of Power Sources, 196, 6003–6006.
  32. 2011 Lianjiang Tan, Ding Pan, Ning Pan, Water Effect on the Rheological Behavior of PAN Solution during Thermal-induced Gelation Process, Polymers for Advanced Technologies, 22, 2279–2284.
  33. 2011 Ravandi S. A. Hosseini; Pan N., Morphological Characterization of Individual Polyacrylonitrile Nanofibers, Current Nanoscience, 7, 415-419.
  34. 2012 Sanliang Zhang, Yueming Li, and Ning Pan, Graphene based Supercapacitor fabricated by Vacuum Filtration Deposition, Journal of Power Sources, 206, 476– 482.
  35. 2013 Sanliang Zhang and Ning Pan, Supercapacitor performance of crumpled and planar graphene materials produced by hydrogen gas reduction of graphene oxide, J. Mater. Chem. A, 1, 7957-7962.
  36. 2013 Li, Jie; He, Bin; Pan, Ning; Pan, Zhijuan, Study on Taylor cone and trajectory of spinning jet by altering the properties of negative electrode, Advanced Materials Research, 796, 317-322.
  37. 2014 Li, Jie; Tian, Long; Pan, Ning; Pan, Zhijuan, Mechanical and electrical properties of the PA6/SWNTs nanofiber yarn by electrospinning, Polymer Engineering and Science, 54, 1618-1624.
  38. 2014 Shengming Yu, Yueming Li and Ning Pan, KOH activated carbon/graphene nanosheets composites as high performance electrode materials in supercapacitor, RSC Advances, 4, 48758.
  39. 2014 Sixiao Hu, Sanliang Zhang, Ning Pan, You-Lo Hsieh, High energy density supercapacitors from lignin derived submicron activated carbon fibers in aqueous electrolytes, Journal of Power Sources, 270, 106-112.
  40. 2014 Sanliang Zhang and Ning Pan, Supercapacitor Performance Evaluation, Advanced Energy Materials, 1401401.
  41. 2015 Bipin Kumar, Apurba Das, Ning Pan, R. Alagirusamy, Rupali Gupta and Jitender Singh, Liquid Transmission Characteristics of Padding Bandages under Pressure, Journal of Biomaterials Applications, DOI: 10.1177/0885328215597589.
  42. 2016 Bipin Kumar, Jinlian Hu, Ning Pan, Smart medical stocking using memory polymer for chronic venous disorders, Biomaterials, 75,174-181.
  43. 2016 Bipin Kumar, Jinlian Hu, Ning Pan, Memory Bandage for Functional Compression Management for Venous Ulcers, Fibers, 4, doi:10.3390/fib4010010.
  44. 2016 Bipin Kumar, Jinlian Hu, Ning Pan, A smart orthopedic compression device based on a polymeric stress memory actuator, Materials & Design, DOI10.1016/j.matdes.2016.02.092.
  45. 2016 Ravandi Hosseini, Ning Pan, Frank Ko, Dynamic mechanical relaxations of electrospun poly(acrylonitrile-co-methyl acrylate) nanofibrous yarn, Textile Research Journal, DOI: 10.1177/0040517516665265.
  46. 2017 Jinlian Hu, Shanshan Zhu, Robert J. Young, Ziqing Cai, Liangbin Li, Jianping Han and Ning Pan, Stress memory materials and their fundamental Platform, Journal of Materials Chemistry A, DOI: 10.1039/c6ta08005g.
  47. 2017 Ruya Li, Yang Si, Zijie Zhu, Yaojun Guo, Yingjie Zhang, Ning Pan, Gang Sun,and Tingrui Pan, Supercapacitive iontronic nanofabric sensing, Advanced Materials, DOI: 10.1002/adma.201700253.
  48. 2017 Jing Gao, Jun Liu, Ruifang Xu, Huiwen Guo, Lu Wang and Ning Pan,Micro-nanostructure based Super-hydrophobic Surface on Cotton Fabric, Textile Research Journal, DOI: 10.1177/0040517517732080.
  49. 2017 Wang, Y.; Chen, Z.F.; Yu, S.J.; Pan N.; Liao, J.H., Preparation and Characterization of Dense Graphite/Glassy Carbon Composite Coating for Sealing Application, Materials Research Express, 4, 095601.
  50. 2017 Zhang, S., Lum, C. & Pan, N., Enhanced performance of carbon/carbon supercapacitors upon graphene addition, Environ. Eng., 2: 9. doi:10.1007/s41204-017-0020-0.
  51. 2019 Lu, YJ, Tian, M., Sun, XT, Pan, N., 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, 117, 202-210.

 II. Biomechanics of Human and Textile Interactions

  1. 2002 Jianhua Wu and Ning Pan, Random walk model of postural sway on carpeted floors, Biomedical Engineering:  Recent Developments.  J. Vossoughi (Editor), Medical and Engineering Publishers, Inc., 55-56.
  2. 2006 Wen Zhong, Malcolm MQ Xing, Ning Pan and Howard I Maibach, Textiles and Human Skin, Microclimate, Cutaneous Reactions: An overview, Journal of Toxicology: Cutaneous and Ocular toxicology, 25 (1): 23-39.
  3. 2006 Malcolm MQ Xing, Zhiguo Sun, Wen Zhong, Ning Pan and Howard Maibach, an EFE model on skin – sleeve interactions during arm rotation, ASME Journal of Biomechnical Engineering, 128, 872-878.
  4. 2006 Malcolm Xing, Ning Pan, Wen Zhong and Howard Maibach, Skin friction blistering: Computer model, Skin Research and Technology; 12: 1–7.
  5. 2007 Ulrich Y. Schaff, Malcolm M. Q. Xing, Kathleen K. Lin, Ning Pan, Noo Li Jeon and Scott I. Simon, Vascular mimetics based on microfluidics for imaging the leukocyte– endothelial inflammatory response, Lab on a Chip, 7, 448–456.
  6. 2007 Jianhua Wu, Ning Pan and Keith R. Williams, Mechanical, Biomechanical and Psychophysical Study of Carpet Performance, Textile Research Journal, 77, 172~178.
  7. 2008 Malcolm MQ Xing, Wen Zhong, Ning Pan and Howard Maibach, Interfacial kinetics effects on transdermal drug delivery: a computer modeling, Skin Research and Technology, 14:165-72.
  8. 2008 N. Pan, Sweat management for military applications, “Military Textiles” Edited by E Wilusz, CRC-Woodhead Publishing Ltd., Cambridge, UK, 137-155.
  9. 2008 Jianhua Wu, Ning Pan and Keith R. Williams, Dynamic Analysis of Posture Profiles in Quiet Stance on Carpets through Fractional Brownian Motion, Textile Research Journal, 78, 45-52.
  10. 2009 Jing Gao and Ning Pan, Explanation of the Fractal Characteristics of Goose Down Configurations, Textile Research Journal, 79, 1142–1147.
  11. 2009 Jing Gao, Ning Pan and Weidong Yu, Fractal character forecast of down fiber assembly microstructure, Journal of Textile Institute, 100, 539–544.
  12. 2009 Malcolm M. Q. Xing, Xiaoying Hui, Wen Zhong, Ning Pan, Frank Yaghmaie, H. I. Maibach, In vitro human topical bioactive drug transdermal absorption: Estradiol, Cutaneous and Ocular Toxicology, 28, 171-175.
  13. 2010 Jing Gao, Ning Pan and Weidong Yu, Compression Behavior Evaluation of Single-Down-Fiber and Down Fiber Assemblies, Journal of the Textile Institute, 101, 253–260.
  14. 2010 Yiming Gan, Ling Cheng, Xin Ding and Ning Pan, Blood flow fluctuation underneath human forearm skin caused by local thermal stimuli of different fabrics, Journal of Thermal Biology, 35, 352-377.
  15. 2012 Mingwei Tian, Sukang Zhu and Ning Pan, Skin Thermal Stimulation on Touching Cool Fabric from the Transient Stage to Steady-State Stage, International Journal of Thermal Sciences, 53, 80-88.
  16. 2012 Wen Zhong, Malcolm MQ Xing, Ning Pan, Chapter 18. Textiles 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.
  17. Xia Yin, Qun Chen, Ning Pan, Feasibility of Perspiration Based Infrared Camouflage, Applied Thermal Engineering, 36, 32-38.
  18. 2013 Xia Yin, Qun Chen, Ning Pan, A Study and a Design Criterion for Multilayer-Structure in Perspiration Based Infrared Camouflage, Experimental Thermal and Fluid Science, 46, 211–220.
  19. 2014 Xia Yin, Qun Chen, Ning Pan, A More Comprehensive Transport Model for Multilayer-Cloth for Perspiration Based Infrared Camouflage, Applied Thermal Engineering, 68, 10-19.
  20. 2016 N. Pan, and R. Postle “10 Commandments” in Wearable Technologies, China Textile Leader, 54-57.
  21. 2016 Ge Wu, Duan Li, Pengpeng Hu, Yueqi Zhong and Ning Pan, Automatic foot scanning and measurement based on multiple RGB-depth cameras, Textile Research Journal, DOI: 10.1177/0040517516677233.
  22. 2017 Ge Wu, Duan Li, Pengpeng Hu, Yueqi Zhong and Ning Pan, Foot shape prediction using elliptical Fourier analysis, Textile Research Journal, DOI: 10.1177/0040517517693983.
  23. 2017 Liang ST, Pan N., Wu XY and Ding XM, Effects of pressure-free steam ironing on cotton fabric surface and wrinkle recovery, Textile Research Journal, DOI: 10.1177/0040517517725124.

 III. Physics of Porous Materials

  1. 1997 Lukas, D., Glazyrina, E. and Pan, N., Computer Simulation of Liquid Wetting Dynamics in Fiber Structures Using the Ising Model, Journal of Textile Institute, V.88, Part 1, No.2, 149-161.
  2. 2000 Giulio Ferruzzi, William Casey, and Ning Pan, Mechanical Properties of Gellan and Polyacrylamide Gels with Implications for Soil Stabilization, Soil Science, V 165(10): 778-792.
  3. 2003 Jihuan He, Hongmei Liu, Ning Pan, Variational model for ionomeric polymer–metal composite, Polymer 44, 8195–8199.
  4. 2005 D. Lukas, V. Soukupova, Ning Pan and D. V. Parikh, Computer Simulation of 3-D Liquid Transport in Fibrous Materials, SIMULATION: Transactions of SMS, 80, 547 – 557.
  5. 2006 Gao J, Pan N, Yu WD,  A fractal approach to goose down structure,  International Journal of Nonlinear Sciences And Numerical Simulation 7 (1): 113-116.
  6. 2006 D. Lukáš, J. Chaloupek, E. Košťáková, N. Pan and I. Martinková, Morphological Transitions of Capillary Rise in a Bundle of Two and Three Solid Parallel Cylinders, PHYSICA, A 371, 226–248.
  7. 2007 Gao J, Pan N, Yu WD,  Golden Mean and Fractal Dimension of Goose Down. International Journal of Nonlinear Sciences and Numerical Simulation. Vol.8 (1), 113-116.
  8. 2007 Moran Wang, Jihuan He; Jinku Wang, Shiyi Chen and Ning Pan, Three dimensional influences on the effective thermal conductivity of porous media, Journal of Physics D: Applied Physics, 40, 260 -265.
  9. 2007 Moran Wang, Jinku Wang, Ning Pan, Shiyi Chen, Mesoscopic predictions of the effective thermal conductivity for microscale random porous media, Physical Review E, 75, 036702 ~ 036710.
  10. 2007 Moran Wang and Ning Pan, Numerical analyses of effective dielectric constant of multiphase micro porous media, Journal of Applied Physics, 101, 14102 ~ 14108.
  11. 2007 Moran Wang; Jihuan He; Jianyong Yu; Ning Pan, Lattice Boltzmann modeling of the effective thermal conductivity for fibrous materials, International Journal of Thermal Sciences, 46, 848 ~ 855.
  12. 2007 Jing Gao, Ning Pan, Weidong Yu, Structures and Properties of the Goose Down as a Material for Thermal Insulation, Textile Research Journal, 77, 617~626.
  13. 2007 Moran Wang, Jinku Wang, Ning Pan, Shiyi Chen, Lattice Poisson-Boltzmann Simulations of Electroosmotic Flows in Charged Anisotropic Porous Media, Communication of Computational Phys, 2, 1055-1070
  14. 2007 Jing Gao, Ning Pan and Weidong Yu, Fractal Dimension of Down Fibre Assemblies, International Symposium on Nonlinear Dynamics, Journal of Physics: Conference Series 96, doi:10.1088/1742-6596/96/1/012162.
  15. 2007 Moran Wang, Fankong Meng, and Ning Pan. Transport properties of functionally graded materials. J. Appl. Phys., 102, 033514-517.
  16. 2007 Jing Gao, Ning Pan, Weidong Yu., Golden Mean and Fractal Dimension of Goose Down. International Journal of Nonlinear Sciences and Numerical Simulation. Vol.8 (1), 113-116.
  17. 2008 Moran Wang and Ning Pan, Mesoscopic modeling of the effective thermal conductivity of random open-cell porous foams, International Journal of Heat and Mass Transfer, 51, 1325–1331.
  18. 2008 M. Wang and N. Pan. Predictions of Effective Physical Properties of Complex Multiphase Materials. Material Science and Engineering-R: Report(Invited Review), 63: 1–30.
  19. 2008 Hongying Yang, Sukang Zhu, Keijing Li and Ning Pan, Modeling Fabric’s Optical Behaviors, Materials Science Forum Vols. 575-578, 1266-1271.
  20. 2008 Moran Wang, Qinjun Kang, Ning Pan, Thermal conductivity enhancement of carbon fiber composites, Applied Thermal Engineering, 29, 418-421.
  21. 2008 Jing Gao, Ning Pan and Weidong Yu, Fractal Dimension of Down Fibre Assemblies, International Symposium on Nonlinear Dynamics, Journal of Physics: Conference Series 96, doi:10.1088/1742-6596/96/1/012162.
  22. 2009 Lei Zuo, Sukang Zhu and Ning Pan, Determination of sample size for step-wise transient thermal tests, Polymer Testing, 28, 307-314.
  23. 2009 Moran Wang and Ning Pan, Elastic property of multiphase composites with random microstructure, Journal of Computational Physics, 228, 5978–5988.
  24. 2009 Qun Chen, Moran Wang, Ning Pan, 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, 10, 7-16.
  25. 2009 Lei Zuo, Sukang Zhu and Ning Pan, Experimental Method of Textile Material Performance on Unsteady-State Thermal Transfer, Journal of Donghua University (Natural Science), 2-14.
  26. 2010 Hongying Yang, Sukang Zhu and Ning Pan, On the Kubelka-Munk Single-Constant/ Two-Constant Theories, Textile Research Journal, 80, 263 ~ 270.
  27. 2010 Lukas, D., Pan, N., 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., 389, 2164-2176.
  28. 2010 Pan N., Recent Progress in Soft Materials Science, International Journal of Nonlinear Sciences and Numerical Simulation, 11,  1-1.
  29. 2010 Wang M. R., Chen Q., Kang Q. J., and Pan N.,  Ben-Naim E., Nonlinear effective properties of unsaturated porous materials, International Journal of Nonlinear Sciences and Numerical Simulation, 11,  49-56.
  30. 2010 Liu Y.Q, Gao J., Yu W. D., and Pan N., Soft Contact of Fibrous Surfaces, International Journal of Nonlinear Sciences and Numerical Simulation, 11,  71-79.
  31. 2011 Chunyan Zhang, Xianfeng Wang, Jinyou Lin, Bin Ding, Jianyong Yu, Ning Pan, Nanoporous Polystyrene Fibers Functionalized by Polyethyleneimine for Enhanced Formaldehyde Sensing, Sensors and Actuators B-chemical, 152, 316–323.
  32. 2011 Shu Yang, Wei-Dong Yu, Ning Pan, Band structure in two-dimensional fiber–air phononic crystals, Physica B, 406, 963–966.
  33. 2011 Mingwei Tian, Sukang Zhu and Ning Pan, Measuring the Thermophysical Properties of Porous Fibrous Materials with a New Unsteady-state Method, Journal of Thermal Analysis and Calorimetry, 107, 395-405.
  34. 2011 Shu Yang, Wei-Dong Yu, Ning Pan, Investigation of the sound-absorbing behavior of fiber assemblies, Textile Research Journal, 81, 673–682.
  35. 2011 Shu Yang, Wei-Dong Yu, Ning Pan, Fractal phenomenon in sound absorbing behavior of down fiber assembly, Textile Research Journal, 81, 1139 – 1144.
  36. 2012 Mingwei Tian, Sukang Zhu and Ning Pan, Effects of Layer Stacking Sequence on Temperature Response of Multi-layer Composite Materials under Dynamic Conditions, Applied Thermal Engineering, 33-34, 219-226.
  37. 2012 Mingwei Tian, Sukang Zhu, Lijun Qu, Guangting Han, Fukui Pan and Ning Pan, Effects of Layering Sequence on Thermal Response of Multilayer Fibrous Materials: Unsteady-state Cases, Experimental Thermal and Fluid Science, 41,143-148.
  38. 2012 Xiaoyan Liu, Rongrong Song, Weidong Yu, Ning Pan, Developing UV-Protective Cotton Fabric Based on SiOx Nanoparticles, Fibers and Polymers, 13, 489-494.
  39. 2013 Xia Yin, Jing Gao, Weidong Yu, Ning Pan, A Study on adhesive force generated by fly hairy pads contacting surfaces of different roughness, Journal of Xian Polytechnic University, 27, 282–292.
  40. 2013 Wang, Moran; Wang, Xinmiao;  Wang, Jinku; and  Pan, Ning,  Grain size effects on effective thermal conductivity of porous materials with internal thermal contact resistance, Journal of Porous Media, 16, 1043-1048.
  41. 2014 Ning Pan, Exploring the significance of structural hierarchy in material Systems – A review, Applied Physics Review, 1, 021302.
  42. 2015 Chiyu Xie, Jinku Wang, Dong Wang, Ning Pan and Moran Wang, Lattice Boltzmann Modeling of Thermal Conduction in Composites with Thermal Contact Resistance, Communications in Computational Physics, 17, 1037 – 1055
  43. 2015 Tian, M., Pan, N., Qu, L., Guo, X., and Han, G., A theoretical analysis of local thermal equilibrium in fibrous materials, Thermal Science, 19, 69-82.
  44. 2016 Chengdong Li, Binbin Li, Ning Pan, 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, 125, 298-309.
  45. 2016 Chengdong Li, Muhammad Umar Saeed, Ning Pan, 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, 107, 440–449.
  46. 2017 Xinting He, Yangyu Guo, Min Li, Ning Pan, Moran Wang, Effective gas diffusion coefficient in fibrous materials by mesoscopic modeling, International Journal of Heat and Mass Transfer, 107 736–746.
  47. 2018 Liang ST., Pan N., Wu XY and Ding XM, Steam impinging and heat and water spreading in fabrics, Textile Research Journal, 1177/0040517518773373.
  48. 2018 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan, Design and optimization of core/shell structures as highly efficientopacifiers for silica aerogels as high-temperature thermal insulation, International Journal of Thermal Science133 (2018) 206–215.
  49. 2018 Liang ST., Pan N., Wu XY and Ding XM, Steam impinging and heat and water spreading in fabrics, Textile Research Journal, 10.1177/0040517518773373.
  50. 2018 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan, Design and optimization of core/shell structures as highly efficient opacifiers for silica aerogels as high-temperature thermal insulation, International Journal of Thermal Sciences133(2018) 206–215.
  51. 2019 Chuan-Yong Zhu, Zeng-Yao Lia, Hao-Qiang Pang, Ning Pan, Numerical modeling of the gas-contributed thermal conductivity of aerogels, International Journal of Heat and Mass Transfer131(2019) 217–225.

 IV. Mechanics of Soft Fibrous Materials

  1. 1989 Carnaby, G. A. and Pan, N., Theory of the Compression Hysteresis of Fibrous Assemblies, Textile Research Journal, V.59, 275.
  2. 1989 Pan, N. and Carnaby, G. A., Theory of the Shear Deformation of Fibrous Assemblies, Textile Research Journal, V.59, 285.
  3. 1992 Pan, N. , Development of a Constitutive Theory for Short Fiber Yarns Part I : Mechanics of Staple Yarn without Slippage Effect, Textile Research Journal, V. 62, 749-765.
  4. 1993 Moon Seo, Palmer, M.L., Pan, N., 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, 63, p. 123-134.
  5. 1993 Pan, N. , A Modified Analysis on the Microstructural Characteristics of General Fiber Assemblies, Textile Research Journal, V.63, p. 336-345.
  6. 1993 Pan, N. , Development of a Constitutive Theory for Short Fiber Yarns Part II: Mechanics of Staple Yarn with Slippage Effect, Textile Research Journal, V. 63, 504-514.
  7. 1993 Pan, N. , Development of a Constitutive Theory for Short Fiber Yarns Part III: Effects of Fiber Orientation and Fiber Bending Deformation, Textile Research Journal. , V. 63, 565-572.
  8. 1993 Pan, N. , Prediction of Statistical Strengths of Twisted Fiber Structures, Journal of Material Science, V. 28, 6107-6114.
  9. 1993 Pan, N. , Theoretical Modelling and Analysis of Fiber Pull-Out Behavior from a Bonded Fibrous Matrix : Elastic Bond Case , Journal of the Textile Institute, V. 84, 472-485.
  10. 1993 Pan, N. and Mee-Young Yoon, Behavior of Yarn Pullout from Woven Fabrics : The Theoretical and Experimental, Textile Research Journal, V. 63, 629-637.
  11. 1994 Buschle-Diller, G., Zeronian, S.H., Ning Pan, and Yoon, M.Y., Enzymatic Hydrolysis of Cotton, Linen, Ramie and Viscose Rayon Fabrics, Textile Research Journal, V. 64, 270-279.
  12. 1995 Pan, N. and Postle, R., Strengths of Twisted Blend Fibrous Structures: Theoretical prediction of the hybrid effects, Journal of Textile Institute, V 86, 559-580.
  13. 1996 Pan, N., An Analysis on Woven Fabric Strengths: Prediction of fabric strength under uniaxial and biaxial extensions, Composite Science and Technology, V56, 311-327.
  14. 1996 Pan, N. and Mee -Young Yoo, The Structural Anisotropy, Failure Criterion and Shear Strength of Woven Fabrics, Textile Research Journal, V.66, 238-244.
  15. 1996 Pan, N. On the Mechanics of Blended Yarns, Journal of Federation of Asian Professional Textile Associations, V3,19-33.
  16. 1997 Pan, N., Development of a Constitutive Theory for Short Fiber Yarns Part IV: Mechanics of blended yarns, Journal of Textile Institute, V.87, 467-483.
  17. 1997 Pan, N., Chen, J., Seo, M. and Backer,S., Micromechanics of a Planar Hybrid Fibrous Network, Textile Research Journal , V 67, 907-925.
  18. 1997 Pan, N. and Zhang, X.S., Shear Strength of Fibrous Sheets: An experimental investigation, Textile Research Journal , V.67, 593-600.
  19. 1997 Ning Pan, 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, V.32, 2677-2685.
  20. 1998 Jirsak, O., Gok, T, Ozipek, B., and Pan, N., Comparison between a Dynamic and a Static Methods for Measurement of Thermal Conductive Properties of Textiles, Textile Research Journal, V 68, 47 – 56.
  21. 1999 Yoo Hwa Sook, Ning Pan 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, V.23, 853-863.
  22. 1999 Richard J. Bassett, Ron Postle and Ning Pan, Grip Point Spacing along the Edges of an Anisotropic Fabric Sheet in a Biaxial Tensile Test, Polymer Composites, V20, 305-313.
  23. 1999 Zeronian, S.H., Inglesby, M.K., Ning Pan, Lin, D., Sun, Genevieve., Soni, B. Alger, K.and Gibbon, J. D., The fine structure of Biocomponent polymer fibers, Journal of Applied Polymer Science, V71, 1163-1173.
  24. 1999 Richard J. Bassett, Ron Postle and Ning Pan, Experimental Methods for Measurement of Fabric Mechanical Properties: A Review and Analysis, Textile Research Journal, V69, 866-875.
  25. 2000 Jirsak, O., Gok, T, Ozipek, B., and Ning Pan., Thermo-insulating Properties of Perpendicular-laid versus Cross-laid Lofty Nonwoven Fabrics, Textile Research Journal, V70,121-128.
  26. 2000 Gang Sun, Hwa Sook Yoo, and Ning Pan, Thermal Performance and Comfort of Wildland Firefighting Clothing: The transport properties of multi-layer fabric systems, ASTM STP 1386, Performance of Protective Clothing: Issues and priorities for the 21st century, V7. 504-518.
  27. 2000 Gang Sun, Hwa Sook Yoo, Xiao Shan Zhang and Ning Pan, Radiant Protective and Transport Properties of Fabrics Used by Wildland Firefighters, Textile Research Journal, V. 70, 567-573.
  28. 2000 Ning Pan, Kezhang Chen, Constantin Monego and Stanley Backer, Study of Mechanical Properties of Blended Fibrous Structures by a Simple Model, Textile Research Journal, V.70, 502-507.
  29. 2000 Mary Lynn Realff, Ning Pan, 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, V.70, 415-430
  30. 2000 Ning Pan, Shumin Zhao and Tao Hua, Relationship between Scale Effect and Structure Levels in Fibrous Structures, Polymer Composites, V.21, 187-195.
  31. 2000 Ning Pan, Yiping Lin, Xungai Wang and Ron Postle, An Oblique Fiber Bundle Test and Analysis, Textile Research Journal, V. 70, 671-674.
  32. 2001 Ning Pan and Tao Hua and Yiping Qiu, Relationships between fiber, fiber bundle and yarn  strengths, Textile Research Journal,  V 71 (11), 960-964.
  33. 2001Yiping Zhang, Xungai Wang, Ning Pan and Ron Postle, Weibull Analysis of the Tensile Behavior of Fibers with Geometrical Irregularities, Journal of Materials Sciences, V 37, 1401-1406.
  34. 2002 Ning Pan and David Brookstein, Physical Properties of Twisted Structures II Industrial yarns, cords and ropes, Journal of Applied Polymer Science, V 83, 610-630.
  35. 2003 Ning Pan, The Relationship of the Tensile Strengths between Grab and Strip Specimens of a Fabric, Textile Research Journal, V 73, 165-171.
  36. 2003 Hongying Yang, Sukang Zhu and Ning Pan, Mechanism of inorganic UV blocking agents for fabrics, Journal of Donghua University, English Ed., 29, 7-14.
  37. 2003 David Lukas and Ning Pan, Wetting of a fiber bundle in fibrous structures, Polymer Composites, V24, 314-322.
  38. 2004 Hongying Yang, Sukang Zhu and Ning Pan, Studying the Mechanisms of TiO2 as UV Blocking Additives for Films and Fabrics by an Improved Scheme, J. Applied Polymer Sciences, 92, 3201-3210.
  39. 2004 Wen Zhong and Ning Pan, Stochastic modeling of tear behavior of coated fabrics, Modeling and Simulation in Materials Science and Engineering, 12, 293-309.
  40. 2004 Huiyu Sun and Ning Pan, On the Poisson’s Ratios of a Woven Fabric, Journal of Composite Structures, 68, 505-510.
  41. 2004 Huiyu Sun and Ning Pan, The shear modulus of a Woven Fabric, Journal of Composite Structures, 67, 317-322.
  42. 2004 Jun Lang and Sukang Zhuand Ning Pan, Frictional Behavior of Synthetic Yarns during Processing, Textile Research Journal, 73, 227-231.
  43. 2004 Ning Pan, On Uniqueness of Fibrous Materials, Design & Nature II. Eds: Collins, M. and Brebbia, C. WIT Press, Boston, 493-504.
  44. 2005 Jianhua Wu and Ning Pan, Grab and Strip Tensile Strengths for Woven Fabrics: An Experimental Verification, Textile Research Journal, 75(11), 789–796.
  45. 2007 Wen Zhong and Ning Pan, Aerosol Filtration by Fibrous Filters: A Statistical Mechanics Approach, Textile Research Journal, 77, 284~289.
  46. 2007 Ning Pan, Ji-Huan Heand Jianyung Yu, Fibrous Materials as Soft Matters, Textile Research Journal, 77, 205~213.
  47. 2007 Jae Ho Jung, Ning Pan 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 8 (4): 399- 407.
  48. 2008 N. Pan, Mechanical failure criteria for textiles and textile damage resistance, “Military Textiles” Edited by E Wilusz, CRC-Woodhead Publishing Ltd., Cambridge, UK, 50-67.
  49. 2010 Jing Gao, Ning Pan and Weidong Yu, Compression Behavior Evaluation of Single-Down-Fiber and Down Fiber Assemblies, Journal of the Textile Institute, 101, 253–260.
  50. 2014 Qu L, Tian M, Guo X, Pan N, Zhang X, Zhu S. Preparation and Properties of Natural Cellulose Fibres from Broussonetia papyrifera (L.) Vent. Bast, FIBRES & TEXTILES in Eastern Europe , 22, 4(106): 24-28.
  51. 2015 Ning Pan, Radko Kovar , Mehdi Kamali Dolatabadi , Ping Wang, Diantang Zhang, Ying Sun and Li Chen, Origin of the tensile strength of a woven sample cut in bias directions, Royal Society Open Science, 2: 140499.
  52. 2017 Song M, Pan N., Outlooks on Wearable Technology Products. J Textile Eng Fashion Technol3(3): 00102. DOI: 10.15406/jteft.2017.03.00102

V. Mechanics of Fiber Reinforced Composites

  1. 1991 Pan, N., 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, NASA Conference Publication 3176, p. 101-122.
  2. 1993 Pan, N., Theoretical Determination of The optimal fiber volume fraction and fiber-matrix property compatibility for short fiber reinforced composites, Polymer Composites, V.14, p.85-93.
  3. 1994 Pan, N., Analytical Characterization of the Anisotropy and Local Heterogeneity of Short Fiber Composites: Fiber fraction as a variable, J. Composite Materials, V.28, 1500-1531.
  4. 1995 Pan, N., A Detailed Examination of the Translation Efficiency of Fiber Strength into Composite Strength, J. Reinforced Plastics and Composite, V. 14, 2-28.
  5. 1995 Pan, N. , Micromechanics of Short Fiber Reinforced Composites, Journal of Federation of Asian Professional Textile Associations, V.2, 26-41.
  6. 1995 Pan, N. , On the Elastic Property Prediction of Randomely Oriented Fiber Composites, Mechanics of Plastics and Plastic Composites, ed. Boyce, M.C., MD -Vol. 68, San Francisco, ASME, 97 – 104.
  7. 1995 Pan, N. and Postle, R., Probabilistic Mechanics of Hybrid Fiber Composites, Mechanics of Plastics and Plastic Composites, ed. Boyce, M.C., MD-Vol. 68, San Francisco, ASME, 71-78.
  8. 1996 Pan, N. and Postle, R., Tensile Strengths and the Hybrid Effects of Hybrid Fiber Composites : A probabilistic approach, Transactions of the Royal Society in London , Series A., 354, 1875-1897.
  9. 1996 Pan, N., Elastic Constants of Randomly Oriented Fiber Composites: A new approach to prediction, Sci. & Engi. Composite Materials, V.5, 63-72.
  10. 1998 Pan, N, 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, V 454:1109-1127.
  11. 1998 Pan, N., 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, V 33:2667-2672.
  12. 2000 Ning Pan, On Fiber Volume Fractions, Proc. ICCE/7, p. 642.
  13. 2003 Yuping Zhang, Xungai Wang and Ning Pan, An Experimental Examination of Fiber Reinforcing Effect in a Novel Model Composite, Composites Part B: Engineering. V34, 499-505.
  14. 2003 Huiyu Sun, Shenglin Di, Nong Zhang, Ning Pan, and Changchun Wu, Micromechanics of 3-D braided composites using homogenization theory and multivariable finite element method, Computer and Structures, V 81, 2021-2027.
  15. 2003 Wen Zhong and Ning Pan, A Computer Simulation of Single Fiber Pull out Process in a Composite, J. Composite Materials, 37, 1951-1969.
  16. 2006 Huiyu Sun and Ning Pan, Mechanical Characterization of the Interfaces in Laminate Composites, Journal of Composite Structures, 74, 25–29.
  17. 2007 Baohun Gu and Ning Pan, 3-D textile structural composites under high strain rate compression: Z-transform and discrete frequency-domain analysis, Philosophical Magazine, 87, 5461–5484.
  18. 2011 Dian Tang Zhang, Ying Sun, Wei Hai, Li Chen and Ning Pan, Microstructural characterization of “new” 2.5 D woven reinforcement materials, Advanced Materials Research 217-218, 97-100.
  19. 2011 Diantang Zhang, Baodong LI, Ying SUN, Ning PAN, Studies on the Low-velocity Impact Response of Ultra-High Molecular Weight Polyethylene Laminated Composites, Advanced Materials Research, 332-334,1691-1694.
  20. 2012 Jinchao Li, Li Chen, Yifan Zhang, Ning Pan, Microstructure and finite element analysis of 3D five-directional braided composites, Journal of Reinforced Plastics and Composites, 31, 107-115.
  21. 2013 Yifan ZHANG, Fei SUN, Yanjie Wang, Li Chen, Ning PAN, Study on intra/inter-ply shear deformation of three dimensional woven preforms for composite materials, Materials & Design, 49, 151-159.
  22. 2013 Diantang ZHANG, Ying SUN, Li Chen, Ning PAN, A comparative study on low-velocity impact response of fabric composite laminates, Materials & Design, 50, 750-756.
  23. 2014 Diantang ZHANG, Ying SUN, Li Chen, Sanliang Zhang, Ning PAN, Influence of fabric structure and thickness on the ballistic impact behavior of Ultrahigh molecular weight polyethylene composite laminate, Materials & Design, 54, 315-322. 
  24. 2015 F Sun, Y Zhang, L Chen, M Zhang, N Pan, Shear properties of three‐dimensional woven composite reinforcements, Polymer Composites, DOI 10.1002/pc.23581.

VI. Sensory Performance of Fibrous Products

  1. 1984 Yen, K. C. and Pan, N., et al., The Objective Assessment of Fabric Handle, Journal of China Textile Engineering Association, V.5, 237-240.
  2. 1984 Pan, N., The Methodology Problem in Fabric Handle Study, Journal of China Wool Science & Technology, V.6, 37-43.
  3. 1984 Yen, K. C. and Pan, N., Pattern Recognition Method for Fabric Handle Evaluation, Journal of China Textile Engineering Association, V.5, 731-734.
  4. 1984 Pan, N. and Yen, K.C., The optimal Subset Selection from the Parameter Group Correlated to Fabric Handle, Journal of China Textile University, V.2, 35-46.
  5. 1985 Yen, K.C. and Pan, N., et al, Factor Analysis on the Primary Features of Fabric Handle, Journal of China Textile Engineering Association, V.6, 530-553.
  6. 1985 Pan, N. and Yen, K.C., Fuzzy Cluster Analysis in Fabric Handle Evaluation, Journal of China Textile University, V.11, 52-60.
  7. 1985 Yen, K.C. and Pan, N., An Objective Measure for Fabric Handle Assessment, Journal of China Textile University, V.11, 78-85.
  8. 1985 Yen, K.C. and Pan, N., 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, p.83-91 , Kyoto, Japan, September.
  9. 1986 Pan, N. and Yen, K.C., A New Measurement Proposal for Fabric Handle Evaluation, Journal of China Textile University, English Edition, 2: 1-14.
  10. 1988 Pan, N. and Yen, K.C., et al, The Objective Measures for Fabric Primary Handle, Textile Research Journal, V.58, 531.
  11. 1988 Pan, N. and Yen, K.C., et al, The Objective Measure for Fabric Total Handle, Textile Research Journal, V.58, 438.
  12. 1988 Pan, N. and Yen, K.C., et al, Fuzzy Cluster Analysis for Fabric Handle Sorting, Textile Research Journal, V.58, 565.
  13. 1992 Pan, N. and Yen, K.C., Physical Explanations of Fabric Extracting Curve for Fabric Handle Evaluation, Textile Research Journal, V.62, p. 279-290.
  14. 1993 Pan, N. , Zeronian, H., and Ryu H.S., An Alternative Approach to the Objective Measurement of Fabrics, Textile Research Journal , V.63, p.33 -43.
  15. 1998 Brandt, B., Brown, D., Burns, L., Cameron, B., Chandler, J., Dallas, M., Kaiser, S., Lennon, S., Ning Pan, Salusso, C. and Smitley, R., Development of an Interdisciplinary Method for the Study of Fabric Perception, J. Text. Inst., V89: 65-77.
  16. 2006 Ning Pan, Quantification and evaluation of human tactile sense towards fabrics, Int. Journal of Nature & Design, 1: 1-13 (invited).
  17. 2010 Yiming Gan, Ling Cheng, Xin Ding and Ning Pan, Blood flow fluctuation underneath human forearm skin caused by local thermal stimuli of different fabrics, Journal of Thermal Biology, 35, 352-377.
  18. 2011 Seyed Hosseini Ravandi and Ning Pan, The influence of gray level co-occurrence matrix variables on the textural features of wrinkled fabric surfaces, Journal of Textile Institute, 102, 315 – 321.
  19. 2011 Xiaoyan Liu, Weidong Yu, Ning Pan, Evaluation of High Performance Fabric Under Light Irradiation, Journal of Applied Polymer Science, 120, 552–556.
  20. 2011 Mingwei Tian, Sukang Zhu and Ning Pan, Simulation of Efficiency of Liquid Cooling Garments, Advanced Materials Research, 331, 636-639.
  21. 2012 Mingwei Tian, Sukang Zhu and Ning Pan, Skin Thermal Stimulation on Touching Cool Fabric from the Transient Stage to Steady-State Stage, International Journal of Thermal Sciences, 53, 80-88.
  22. 2012 Yiming Gan, Yuqing Liu, Xin Ding and Ning Pan. Thermal sensation at index finger while applying external pressure at upper arm. Journal of Thermal Biology, 37, 502–509.

VII. Other Engineering

  1. 1981 Pan, N. and Chen, Y. F., Developing a Constant-Temperature Hot Wire Anemometer, Journal of China Text. University, V.7, 169-177. 

  2. 1984 Pan, N. and Chen, Y. F., The Measurement and Analysis of Flow Speed Field on Air Jet Loom, Journal of China Text. University, V.10, 60-63.
  3. 2000 Ke-Zhang Chen, Cun-Zhu Huang, Shang-Xian Chen and Ning Pan, Development of a New Drafting System for Ring Spinning Machines, Textile Research Journal, V70, 154-160.
  4. 2004 Jun Lang, Sukang Zhu and Ning Pan,Change of Yarn Hairiness during Winding Process Analysis of the trail fiber ends, Textile Research Journal, 74 (10): 905-913.
  5. 2004 Jun Lang Sukang Zhu and Ning Pan, Frictional Behavior of Synthetic Yarns during Processing, Textile Research Journal, 73, 227-231.
  6. 2005 Ji-Huan He, Yanping Yu, Ning Pan, Xu-Chu Cai , Jian-Yong Yu, and Shan-Yuan Wang, Quasistatic Model for Two-Strand Yarn Spinning, Mech. Research Communication, 32, 197–200.
  7. 2005 Ji-Huan He, Yanping Yu,Jian-Yong Yu, Ning Pan, Wei-Ru Li, and Shan-Yuan Wang, Nonlinear Dynamical Model for Two-Strand Yarn Spinning, Textile Research Journal,  75 (2): 181-184.
  8. 2005 Ji-Huan He, Yanping Yu,Jian-Yong Yu, Ning Pan, Wei-Ru Li, and Shan-Yuan Wang,  A Linear Dynamical Model for Two-Strand Yarn Spinning, Textile Research Journal, 75, 87-90.
  9. 2007 Jae Ho Jung, Ning Pan and Tae Jin Kang, Tension Transmission Via an Elastic Rod Gripped by Two Circular-Edged Plates, International Journal of Mechanical Sciences, 49, 1095 – 1103.
  10. 2008 Jae Ho Jung, Ning Pan and Tae Jin Kang, Generalized capstan problem: Bending rigidity, nonlinear friction, and extensibility effect, Tribology International 41, 524–534.
  11. 2008 Jae Ho Jung, Ning Pan and Tae Jin Kang, Capstan Equation Including Bending Rigidity and Non-Linear Frictional Behavior, Mechanism and Machine Theory, 43, 661-675
  12. 2009 Qun Chen, Moran Wang, Ning Pan, Zengyuan Guo, Optimization principles for convective heat transfer, Energy, 34, 1199–1206.
  13. 2009 Qun Chen, Moran Wang, Ning Pan, Zengyuan Guo, An Optimization Principle for Variable Viscosity Fluid Flow and Its Application to Heavy Oil Flow Drag Reduction, Energy and Fuels, 23, 4470–4478.
  14. 2010 Chen Q., Yang K. D., Pan N. and Guo Z.Y., A new approach to analysis and optimization of evaporative cooling system I: Theory, Energy, 35, 2448-2454.
  15. 2011 Qun Chen, Hongye Zhu, Ning Pan, Zengyuan Guo, An Alternative Criterion in Heat Transfer Optimization, Proc. R. Soc. A., 467, 1012–1028.
  16. 2011 Chen Q., Pan N. and Guo Z.Y., A new approach to analysis and optimization of evaporative cooling system II: Applications, Energy, 36, 2890-2898.
  17. 2011 Chen Q, Wu J, Wang M. R, Pan N, Guo ZY, A comparison of optimization theories for energy conservation in heat exchanger groups, Chinese Science Bulletin, 56, 449-454.

Books Co/authored and Co/edited:

2005 Ning PanPhysics of Fibrous Soft Matters, Higher Education Publishing, Inc., Beijing, 741 Pages.

2006 Ning Pan and Wen Zhong, Fluid transport phenomena in fibrous materials, Textile Progress, Woodhead Publishing Ltd., Cambridge, UK, 124 Pages.

2006 Edited by Ning Pan and Phil GibsonThermal and Moisture Transport in Fibrous Material, Woodhead Publishing Ltd., Cambridge, UK, 656 pages.

2011 Edited by Ning Pan and Gang Sun: Functional textiles for improved performance, protection and health, Woodhead Publishing Ltd., Cambridge, England. 528 Pages.

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