书籍

  1. 冯妍卉,豆瑞锋,冯黛丽, 邱琳, 张欣欣 改编. Heat and Mass Transfer:Fundamentals and Applications, 2020.06, 第2版, 北京高等教育出版社.
  2. 冯妍卉,冯黛丽,张欣欣. 介孔复合材料的相变及热输运特性 (Phase Change and Thermal Properties of Mesoporous Heterogeneous Composite Materials), 2019.05, 北京科学出版社.
  3. Lin Qiu, Xinghua Zheng, Meng Liu, Peng Yue, Dawei Tang, “Chapter 4: Heat Conduction and Heat Storage Characterizations of Phase-Change Microcapsules.” Phase Change Materials: Characteristics, Industrial Applications and Energy Implications, Nova Science Publisher, New York, pp. 103-120, 2015, ISBN: 978-1-63482-702-7.
  4. 郑兴华, 祝捷,邱琳, 唐大伟. “第2章: 微纳结构材料的热物理性能表征.” 热能调控微纳结构材料, 科学出版社, 北京, pp. 24-87, 2014, ISBN: 978-7-03-041001-6.
  5. 冯妍卉,贾力,张欣欣,彭晓峰改编. Heat Transfer:a Practical Approach, 2007.06, 第1版, 北京高等教育出版社.

期刊论文

  1. Daili Feng, Yanhui Feng, Pei Li, Yuyang Zang, Chen Wang, Xinxin Zhang. Modified mesoporous silica filled with PEG as a shape-stabilized phase change materials for improved thermal energy storage performance. Microporous Mesoporous Mater: 2020, 292, 109756.
  2. Zepei Yu, Yanhui Feng*, Daili Feng *, Xinxin Zhang. Thermal Conductance Bottleneck of a Three Dimensional Graphene-CNT Hybrid Structure: A Molecular Dynamics Simulation. Physical Chemistry Chemical Physics: 2020, 22, 337 – 343.
  3. Jie Gao, Yanhui Feng*, Zhen Zhang, Daili Feng, Xinxin Zhang. Solidification with crystallization behavior of molten blast furnace slag particle during the cooling process. International Journal of Heat and Mass Transfer: 2020, 146, 118888.
  4. Daili Feng, Yanhui Feng, Qiu Lin, et al. Review on nanoporous composite phase change materials: Fabrication, characterization, enhancement and molecular simulation. Renewable and Sustainable Energy Reviews: 2019, 109, 578-605.
  5. Yanhui Feng*, Jie Gao, Daili Feng*, Xinxin Zhang. Modeling of the molten blast furnace slag particle deposition on the wall including phase change and heat transfer. Applied energy: 2019, 248, 288-298.
  6. Yanhui Feng*, Zhen Zhang, Lin Qiu*, Xinxin Zhang. Heat Recovery Process Modelling of Semi-Molten Blast Furnace Slag in a Moving bed using XDEM. Energy: 2019, 186, 115876.
  7. Daili Feng, Yanhui Feng, Yuyang Zang, Pei Li, Xinxin Zhang. Phase change in modified metal organic frameworks MIL-101 (Cr): mechanism on highly improved energy storage performance. Microporous Mesoporous Mater: 2019, 280, 124–32.
  8. Yanhui Feng*, Hanying Zou, Lin Qiu*, Xinxin Zhang. Size effect on the thermal conductivity of octadecanoic acid: A molecular dynamics study Computational Materials Science: 2019, 158, 14-19.
  9. Lin Qiu, Yanli Li, Yanhui Feng*, Zegui Chen, Xinxin Zhang. Three-dimensional fluid-solid coupling heat transfer simulation based on the multireference frame for a side-blown aluminum annealing furnace. Engineering Applications of Computational Fluid Mechanics: 2019, 13(1), 1036-1048.
  10. Lin Qiu, Yuxin Ouyang, Yanhui Feng*, Xinxin Zhang. Review on micro/nano phase change materials for solar thermal applications. Renewable Energy: 2019, 140, 513-538
  11. Lin Qiu, Pu Guo, Qinyu Kong, Chongwei Tan, Kun Liang, Jun Wei, Ju Nie Tey, Yanhui Feng*, Xinxin Zhang, Beng Kang Tay*. Coating-boosted interfacial thermal transport for carbon nanotube array nano-thermal interface materials. Carbon: 2019, 145, 725-733.
  12. Lin Qiu, Pu Guo, Xueqin Yang, Yuxin Ouyang, Yanhui Feng*, Xinxin Zhang, Jingna Zhao, Xiaohua Zhang*, Qingwen Li. Electro curing of oriented bismaleimide between aligned carbon nanotubes for high mechanical and thermal performances. Carbon: 2019, 145, 650-657.
  13. Lin Qiu, Hanying Zou, Xiaotian Wang, Yanhui Feng*, Xinxin Zhang, Jingna Zhao, Xiaohua Zhang*, Qingwen Li. Enhancing the interfacial interaction of carbon nanotubes fibers by Au nanoparticles with improved performance of the electrical and thermal conductivity. Carbon: 2019, 141, 497-505.
  14. Yanhui Feng*, Junjie Zhou,Junjie Cai, Xinxin Zhang. A 3-D lattice Boltzmann analysis of weld pool dynamic behaviors in plasma arc welding.Applied Thermal Engineering: 2018, 139, 623-635.
  15. Jing Li*, Yanhui Feng, Xinxin Zhang, Ge Wang. Theoretical and experimental research of thermal conductivity of silver(Ag) nanowires in mesoporous substrate. International Journal of Heat and Mass Transfer: 2018, 121, 547-554.
  16. Yanhui Feng, Runzhi Wei, Zhi Huang, Xinxin Zhang. Thermal properties of lauric acid filled in carbon nanotubes as shape-stabilized phase change materials. Physical chemistry chemical physics: 2018, 20(11), 7772-7780.
  17. Junjie Cai, Yanhui Feng, Junjie Zhou, Xinxin Zhang. Numerical analysis of weld pool behaviors in plasma arc welding with the lattice Boltzmann method. International Journal of Thermal Sciences: 2018, 124, 447-458.
  18. Yan Li,Yanhui Feng, Xinxin Zhang, Chuansong Wu. An evolutionary keyhole-mode heat transfer model in continuous plasma arc welding. International Journal of Heat and Mass Transfer: 2018, 117: 1188-1198.
  19. Daili Feng, Yanhui Feng, Chen Wang, Mengya Xiong, R Wei, Ge Wang, Xinxin Zhang. The Effects of Surface Functional Groups on Phase Storage Properties of Core-Shell Composite Phase Change Materials. Journal of Engineering Thermophysics: 2018.
  20. Chengchi He, Yanhui Feng, Daili Feng *, Xinxin Zhang. Exergy Analysis and Optimization of Sintering Process. Steel Research International: 2018.
  21. Lin Qiu, Pu Guo, Hanying Zou, Yanhui Feng*, Xinxin Zhang, Shahid Pervaiz, Dongsheng Wen. Extremely Low Thermal Conductivity of Graphene Nanoplatelets Using Nanoparticle Decoration. ES Energy & Environment: 2018, 2, 66-72.
  22. Lin Qiu, Yanhui Feng*, Zegui Chen, Yanli Li, Xinxin Zhang. Numerical simulation and optimization of the melting process for the regenerative aluminum melting furnace. Applied Thermal Engineering: 2018 ,145 ,315-327.
  23. Lin Qiu, Ning Zhu, Hanying Zou, Yanhui Feng*, Xinxin Zhang, Dawei Tang*. Advances in thermal transport properties at nanoscale in China. International Journal of Heat and Mass Transfer: 2018, 125, 413.
  24. Lin Qiu, Yuxin Ouyang, Yanhui Feng*, Xinxin Zhang. Thermal conductivity measurement of individual porous polyimide fibers using a modified wire-shape 3ω method. Review of Scientific Instruments: 2018, 89(9), 096112.
  25. Lin Qiu, Hanying Zou, Ning Zhu, Yanhui Feng*, Xiaoliang Zhang, Xinxin Zhang. Iodine nanoparticle-enhancing electrical and thermal transport for carbon nanotube fibers. Applied Thermal Engineering: 2018, 141, 913 - 920.
  26. Qinyu Kong, Lin Qiu*, Yu Dian Lim, Chong Wei Tan, Kun Liang, Congxiang Lu, Beng Kang Tay*. Thermal conductivity characterization of three dimensional carbon nanotube network using freestanding sensor-based 3ω technique. Surface and Coatings Technology: 2018, 345, 105 - 112.
  27. Jiajia Zhang, Guangjie Song, Lin Qiu, Yanhui Feng, Jie Chen, Jie Yan, Liyao Liu, Xing Huang, Yutao Cui, Yimeng Sun, Wei Xu*, Daoben Zhu*. Highly conducting polythiophene thin films with less ordered microstructure displaying excellent thermoelectric performance. Macromolecular Rapid Communications: 2018, 39(16), 1800283.
  28. Lin Qiu, Hanying Zou, Dawei Tang, Dongsheng Wen, Yanhui Feng*, Xinxin Zhang. Inhomogeneity in pore size appreciably lowering thermal conductivity for porous thermal insulators. Applied Thermal Engineering: 2018 ,130 ,1004 - 1011.
  29. Zhi Huang, Kang Liu, Yanhui Feng, Jun Zhou, Xinxin Zhang. Bio-inspired Intelligent Evaporation Modulation in Thermo-Sensitive Nanogel Colloid Solution for Self-thermoregulation. Phys. Chem. Chem. Phys.: 2017, 19(25), 16312-16316.
  30. Zizhen Lin, Congliang Huang, WenKai Zhen. Experimental Study on Thermal Conductivity and Hardness of Cu and Ni Nanoparticle Packed Bed for Thermoelectric Application. Nanoscale Research Letters: 2017, 12(1), 189.
  31. Congliang Huang*,Zizhen Lin, Yanhui Feng*, Xinxin Zhang, Ge Wang. Thermal conductivity prediction of 2- dimensional square-pore metallic nanoporous materials with kinetic method approach. International Journal of Thermal Sciences: 2017, 112, 263-269.
  32. Lin Qiu, Kimberly Scheider, Suhaib Abu Radwan, LeighAnn Sarah Larkin, Christopher Blair Saltonstall, Yanhui Feng*, Xinxin Zhang, Pamela M. Norris*. Thermal transport barrier in carbon nanotube array nano-thermal interface materials. Carbon: 2017, 120, 128-136.
  33. Quang N. Pham, LeighAnn S. Larkin, Carina C. Lisboa, Christopher B. Saltonstall, Lin Qiu*, Jennifer D. Schuler, Timothy J. Rupert, Pamela M. Norris. Effect of growth temperature on the synthesis of carbon nanotube arrays and amorphous carbon for thermal applications. Physical Status Solidi A-Applications and Materials Science: 2017 ,214(7) ,1600852.
  34. Daili Feng; Yanhui Feng*; Siwei Yuan; Xinxin Zhang; Ge Wang. Melting Behavior of Ag nanoparticles and their Clusters. Applied Thermal Engineering: 2017, 111, 1457-1463.
  35. Liu Cui, Xiaoze Du*, Gaosheng Wei, Yanhui Feng*. Thermal Conductivity of Graphene Wrinkles: A Molecular Dynamics Simulation. The Journal of Physical Chemistry C: 2016, 120(41), 23807-23812.
  36. Zhi Huang, Xiaoying Li, Yuan Hao, Yanhui Feng*, Xinxin Zhang. Hydrophobically modified nanoparticle suspensions to enhance water evaporation rate. Applied Physics Letters: 2016, 109(16), 161602.
  37. Congliang Huang*, Zun Huang, Zizhen Lin, Yanhui Feng*, Xinxin Zhang, Ge Wang. Influence of Nanopore Shapes on Thermal Conductivity of Two-Dimensional Nanoporous Material. Nanoscale Research Letters: 2016, 11(1), 430.
  38. Lin Qiu, Xiaotian Wang, Dawei Tang*, Xinghua Zheng*, Pamela M. Norris, Dongsheng Wen, Jingna Zhao, Xiaohua Zhang, Qingwen Li. Functionalization and densification of inter-bundle interfaces for improvement in electrical and thermal transport of carbon nanotube fibers. Carbon: 2016 ,105 ,248 - 259.
  39. Xinghua Zheng, Lin Qiu*, Peng Yue, Gang Wang, Dawei Tang.3w slope comparative method for fluid and powder thermal conductivity measurements. Modern Physics Letters B: 2016, 30(25), 1650322.
  40. Lin Qiu, Xiaotian Wang, Guoping Su, Dawei Tang*, Xinghua Zheng*, Jie Zhu, Zhiguo Wang, Pamela M. Norris, Philip D. Bradford, Yuntian Zhu. Remarkably enhanced thermal transport based on a flexible horizontally-aligned carbon nanotube array film. Scientific Reports: 2016, 6, 21014.
  41. Daili Feng, Yanhui Feng, Jun Shi. Lattice Boltzamn model of phonon heat conduction in mesoporous composite material. Acta Physica Sinica: 2016, 65 (24), 244401.
  42. Zizhen Lin, Congliang Huang*, Danchen Luo, Yanhui Feng*, Xin-Xin Zhang, Ge Wang.Thermal performance of metallic nanoparticles in air. Applied Thermal Engineering: 2016, 105 : 686–690.
  43. Lin Qiu, Xiaotian Wang, Dawei Tang,* Xinghua Zheng,* Pamela M. Norris, Dongsheng Wen, Jingna Zhao, Xiaohua Zhang, Qingwen Li. Functionalization and densification of inter-bundle interfaces for improvement in electrical and thermal transport of carbon nanotube fibers. Carbon: 2016, 105, 248-259.
  44. Lin Qiu, Xiaotian Wang, Guoping Su, Dawei Tang*, Xinghua Zheng*, Jie Zhu, Zhiguo Wang, Pamela M. Norris, Philip D. Bradford, Yuntian Zhu. Remarkably enhanced thermal transport based on a flexible horizontally-aligned carbon nanotube array film. Scientific Reports: 2016, 6, 21014.
  45. Yuanhui Sun, Lin Qiu, Liangpo Tang, Hua Geng, Hanfu Wang, Fengjiao Zhang, Dazhen Huang, Wei Xu*, Peng Yue, Ying-shi Guan, Fei Jiao, Yimeng Sun, Dawei Tang, Chong-an Di, Yuanping Yi*, Daoben Zhu*. Flexible n-type high-performance thermoelectric thin films of poly(nickle-ethylenetetrathiolate) prepared by an electrochemical method. Advanced Materials: 2016, 28(17), 3351-3358.
  46. Xinghua Zheng,Lin Qiu*, Peng Yue, Gang Wang, Dawei Tang. 3ω slope comparative method for fluid and powder thermal conductivity measurements.Modern Physics Letters B: 2016, 30(25), 1650322.
  47. Yongliang Zhao, Yanhui Feng*, Xinxin Zhang. Selective adsorption and selective transport diffusion of CO2-CH4 binary mixture in coal ultramicropores. Environmental Science & Technology: 2016, 50(17), 9380-9389.
  48. Yazhou Liu, Yanhui Feng*;Zhi Huang, Xinxin Zhang. Thermal Conductivity of 3D Boron-Based Covalent Organic Frameworks from Molecular Dynamics Simulations. The Journal of Physical Chemistry C: 2016, 120(30), 17060-17068.
  49. Yan Li, Yanhui Feng*, Yafei Li, Xinxin Zhang, Chuansong Wu. Plasma Arc and Weld Pool Coupled Modeling of Transport Phenomena in Keyhole Welding. International Journal of Heat and Mass Transfer, 2016,92,628-638.
  50. Yongliang Zhao, Yanhui Feng*, Xinxin Zhang. Molecular simulation of CO2/CH4 self- and transport diffusion coefficients in coal. Fuel: 2016, 165, 19-27.
  51. Liu Cui, Yanhui Feng*, Jingjing Tang; Peng Tan, Xinxin Zhang. Heat conduction in coaxial canocables of Au nanowire core and carbon nanotube shell: A molecular dynamics simulation. International Journal of Thermal Sciences: 2016, 99, 64-70.
  52. Jing Li*, Yanhui Feng,Xinxin Zhang, Xinming Zhang. Near-field radiative heat transfer between successive nanowires and its effects on thermal conductivity of mesoporous composites. Applied Thermal Engineering: 2015, 93, 978-987.
  53. Congliang Huang*, Zun Huang, Zizhen Lin, Yanhui Feng*, Xinxin Zhang; Ge Wang. Thermal conductivity of silica nanoparticle powder: Measurement and theoretical analysis. The European Physical Journal Plus: 2015, 130(12), 239.
  54. Tianpeng Xiao, Jian Liu, Dapeng Wei, Yanhui Feng, et al.Composite Transparent Electrode of Graphene Nanowalls and Silver Nanowires on Micropyramidal Si for High-Efficiency Schottky Junction Solar Cells. ACS Applied Materials & Interfaces: 2015, 7(36), 20179-20183.
  55. Lin Qiu, Xinghua Zheng*, Jie Zhu, Dawei Tang*, Yajun Dong, Yuelian Peng. Adaptable thermal conductivity characterization of microporous membranes based on freestanding sensor-based 3ω technique. International Journal of Thermal Sciences: 2015, 89(3), 185-192.
  56. Peng Han, Xinghua Zheng*, Wenshuo Hou,Lin Qiu*, Dawei Tang. Study on heat storage and release characteristics of multi-cavity structured phase change microcapsules. Phase Transitions: 2015, 88(7), 704-715.
  57. Lin Qiu, Xinghua Zheng*, Jie Zhu, Dawei Tang, Shiyong Yang, Aijun Hu, Leilei Wang, Shishi Li. Thermal transport in high-strength polymethacrylimide (PMI) foam insulations.International Journal of Thermophysics: 2015, 36(10), 2523-2534.
  58. Tianpeng Jiao, Dapeng Wei*, Jian Liu, Wentao Sun, Shuming Jia, Wei Zhang, Yanhui Feng*, Haofei Shi and Chunlei Du. Flexible solar cells based on graphene-ultrathin silicon Schottky junction, RSC Advances: 2015, 5, 73202-73206.
  59. Liu Cui, Yanhui Feng* and Xinxin Zhang. Dependence of Thermal Conductivity of Carbon Nanopeapods on Filling Ratios of Fullerene Molecules. The Journal of Physical Chemistry A: 2015, 119 (45), 11226-11232.
  60. Liu Cui; Yanhui Feng*; Xinxin Zhang. Enhancement of heat conduction in carbon nanotubes filled with fullerene molecules. Phys. Chem. Chem. Phys.: 2015, 17, 27520-27526.
  61. Jianrui Zhang, Yanhui Feng*, Haibo Yuan, Daili Feng, Xinxin Zhang, Ge Wang. Thermal properties of C17H36/MCM-41 composite phase change materials. Computational Materials Science: 2015, 109, 300–307.
  62. Liu Cui, Yanhui Feng*, Peng Tan and Xinxin Zhang. Heat conduction in double-walled carbon nanotubes with intertube additional carbon atoms. Physical Chemistry Chemical Physics: 2015, 17, 16476 – 16482.
  63. Wei Lin, Yanhui Feng*, Xinxin Zhang. Numerical study of volatiles production, fluid flow and heat transfer in coke ovens. Applied Thermal Engineering: 2015, 81, 353-358.
  64. Wang Haijun, Feng Yanhui*, Zhang Xinxin, Lin Wei, Zhao Yongliang. Study of Coal Hydropyrolysis and Desulfurization by ReaxFF Molecular Dynamics Simulation. Fuel: 2015, 145, 241-248.
  65. Jing Li, Yanhui Feng, Xinxin Zhang, Congliang Huang, Ge Wang. Study of Near-field Radiative Heat Transfer in Mesoporous Alumina. Chinese Physics B: 2015, 24(1).
  66. Jing Li, Yanhui Feng , Xinxin Zhang , Congliang Huang , Ge Wang. Near-field radiative heat transfer across a pore and its effects on thermal conductivity of mesoporous silica. Physica B: Condensed Matter: 2015, 456, 237–243.
  67. Daili Feng, Yanhui Feng and Xinxin Zhang. Numerical Study of Thermal Conductivities of Carbon-Based Mesoporous Composites. Int J Thermophys: 2014, 35, 1863–1878.
  68. Lin Qiu, Yongming Li, Xinghua Zheng*, Jie Zhu, Dawei Tang, Jiquan Wu, Caihong Xu. Thermal-conductivity studies of macro-porous polymer-derived SiOC ceramics.International Journal of Thermophysics: 2014, 35(1), 76-89.
  69. Peng Yue,Lin Qiu*, Xinghua Zheng, Dawei Tang. The Effective Thermal Conductivity of Porous Polymethacrylimide foams.Key Engineering Materials: 2014, 609-610, 196-200.
  70. Guoping Su,Lin Qiu*, Xinghua Zheng*, Zhuohao Xiao, Dawei Tang. Effective thermal conductivity measurement on germanate glass-ceramics employing the 3ω method in high temperature.International Journal of Thermophysics: 2014, 35(2), 336-345.
  71. Meng Liu,Lin Qiu*, Xinghua Zheng*, Jie Zhu, Dawei Tang. Study on the thermal resistance in secondary particles chain of silica aerogel by molecular dynamics simulation.Journal of Applied Physics: 2014, 116(9), 093503.
  72. Zhehao Li*, Yuelian Peng*, Yajun Dong, Hongwei Fan, Ping Chen,Lin Qiu, Qi Jiang. Effects of thermal efficiency in DCMD and the preparation of membranes with low thermal conductivity.Applied Surface Science: 2014, 317(30), 338-349.
  73. Congliang Huang, Yanhui Feng*, Xinxin Zhang, and Ge Wang. Thermal conductivity prediction of mesoporous composites (Cu/MCM-41). THE EUROPEAN PHYSICAL JOURNAL APPLIED PHYSICS. (Eur. Phys. J. Appl. Phys.): 2014, 66, 30902
  74. Zhe Luo, Han Liu, Bryan T. Spann, Yanhui Feng, Peide Ye, Yong P. Chen & Xianfan Xu. Measurement of In-Plane Thermal Conductivity of Ultrathin Films Using Micro-Raman Spectroscopy, Nanoscale and Microscale Thermophysical Engineering: 2014, 18(2), 183-193.
  75. Yan Li , Yanhui Feng* , Xinxin Zhang, Chuansong Wu. Energy propagation in plasma arc welding with keyhole tracking. Energy: 2014, 64(1) 1044-1056.
  76. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Jing Li, Ge Wang. Electron Mean Free Path Model for Rectangular Nanowire, Nanofilm and Nanoparticle. Physica B: Physics of Condensed Matter. 2014, 438: 17-21.
  77. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Ge Wang. Thermal conductivity of Nanoporous Glass Alumina Film and Composites. Mod. Phys. Lett. B.: 2014, 28, 1450019.
  78. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Jing Li, Ge Wang. Thermal Conductivity Prediction of a Cu Circular Nanowire. Physica E: Low-dimensional Systems and Nanostructures: 2014, 58, 111–117.
  79. Lin Qiu, Xinghua Zheng*, Jie Zhu, Guoping Su, Dawei Tang. The effect of grain size on the lattice thermal conductivity of an individual polyacrylonitrile-based carbon fiber. Carbon: 2013, 51, 265-273.
  80. Lin Qiu, Xinghua Zheng, Guoping Su, Dawei Tang*. Design and application of a freestanding sensor based on 3ω technique for thermal conductivity measurement of solids, liquids and nanopowders. International Journal of Thermophysics: 2013, 34(12), 2261-2275.
  81. Wei Chen,Lin Qiu*, Shiqiang Liang*, Xinghua Zheng, Dawei Tang. Measurement of thermal conductivities of DMP/CH3OH and DMP/H2O by freestanding sensor-based 3ω technique. Thermochimica Acta: 2013, 560, 1-6.
  82. Guoping Su, Xinghua Zheng*,Lin Qiu, Dawei Tang*, Jie Zhu. Measurement of thermal conductivity of anisotropic SiC crystal.International Journal of Thermophysics: 2013, 34(12), 2334-2342.
  83. Gangtao Zhao*, Xiaohui Xu,Lin Qiu, Xinghua Zheng, Dawei Tang. Study on the heat conduction of phase-change material microcapsules. Journal of Thermal Science: 2013, 22(3), 257-260.
  84. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Jing Li, Ge Wang.Specific heat capacity of nanoporous Al2O3. Europhysics letters: 103, 2013: 56002.
  85. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Jing Li, Liu Cui, Ge Wang, Mu Yang. Prediction of Thermal Conductivity of Aluminum Nanocluster-Filled Mesoporous Silica (Al/MCM-41). International Journal of Thermophysics: 2013, 34(12), 2371-2384.
  86. Ke Jin, Yanhui Feng*, Xinxin Zhang, Mingdeng Wang, Junfeng Yang, Xiaobo Ma. Simulation of transport phenomena in coke oven with staging combustion. Applied Thermal Engineering:2013, 58, 354-362.
  87. A.Q. Zhang, Y.H. Feng*, X. X. Zhang, J. Liu, P.L. Guo. Decoupling Simulation of Thermal Processes in Coupled Combustion and Coking Chambers of a Coke Oven. ISIJ International: 2013, 53 (6), 995–1001.
  88. Huang Cong-Liang, Feng Yan-Hui*, Zhang Xin-Xin, Li Jing, Wang Ge. Thermal conductivity of a kind of mesoporous silica SBA-15. Chinese Physics B: 2013, 2(6): 064401.
  89. Yan Li, Yan-Hui Feng*, Xin-Xin Zhang, Chuan-Song Wu. An Improved Simulation of Heat Transfer and Fluid Flow in Plasma Arc Welding with Modified Heat Source Model. International Journal of Thermal sciences: 2013, 64: 93-104.
  90. Daili Feng, Yanhui Feng*, Yang Chen, Wei Li, Xinxin Zhang. Effects of Doping, Stone-Wales and Vacancy Defects on Thermal Conductivity of Single-wall Carbon Nanotubes. Chinese Physics B: 2013, 22(1), 016501.
  91. Congliang Huang, Yanhui Feng*, Xinxin Zhang, Jing Li, Liu Cui, Ge Wang, Mu Yang. Prediction of Thermal Conductivity of Aluminum Nanocluster-Filled Mesoporous Silica (Al/MCM-41). International Journal of Thermophysics: 2013, 34(12), 2371-2384.
  92. T.Q. Li, C.S. Wu, Y.H. Feng, L.C. Zheng. Modeling of the thermal fluid flow and keyhole shape in stationary plasma arc welding. International Journal of Heat and Fluid Flow: 2012, 34, 117-125.
  93. Cui, Xin; Zhang, Xinxin; Feng, Yanhui; Wang, Ge; Yang, Mu; Gao, Hongyi; Luo, Wenbo. Effect of partial substitution of Ca in LaMnO on coal catalytic combustion. Journal of Thermal Analysis and Calorimetry: 2012:1-14.
  94. Li Wei, Feng Yanhui*, Peng Jia,Zhang Xinxin. Effects of stone-wales defects on the thermal conductivity of carbon nanotubes. Journal of Heat Transfer- transactions of the ASME: 2012, 134(9), 092401-1-4.
  95. Lin Qiu, Dawei Tang*, Xinghua Zheng, Guoping Su. The freestanding sensor-based 3ω technique for measuring thermal conductivity of solids: principle and examination. Review of Scientific Instruments: 2011, 82(4), 045106.
  96. Lin Qiu, Xinghua Zheng, Jie Zhu, Dawei Tang*. Note: Non-destructive measurement of thermal effusivity of a solid and liquid using a freestanding serpentine sensor-based 3ω technique. Review of Scientific Instruments: 2011, 82(8), 086110.
  97. Xinghua Zheng*,Lin Qiu, Guoping Su, Dawei Tang, Yuchao Liao, Yunfa Chen. Thermal conductivity and thermal diffusivity of SiO2 nanopowder. Journal of Nanoparticle Research: 2011, 13(12), 6887-6893.
  98. Junhua Sun, Chuan Song Wu, Yanhui Feng. Modeling the transient heat transfer for the controlled pulse key-holing process in plasma arc welding. International Journal of Thermal Sciences: 2011, 50, 1664-1671.
  99. Y.H. Feng, X.X. Zhang, M.L. Wu. Experimental study on the effects of blast cap configurations and charge patterns on coke descending in CDQ cooling shaft. Heat Transfer - Asian Research: 2008, 37(6), 352-358.
  100. Y. H. Feng*, H. Nie, X.X. Zhang, G.Z. Zhang. Numerical Study of Micro-Macro Coupled Transport Phenomena in the Unidirectional Solidification of a Binary System, Numerical Heat Transfer, Part A: Applications: 55(10), 2009, 952-965.
  101. Zhicheng Liu, Yanhui Feng, Xinxin Zhang, Lie Xu, Zhendong Yu. Numerical and experimental study on coke size distribution in bell-type charging in the CDQ shaft. Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials (Eng Ed): 2008, 15(3), 236-240.
  102. Yanhui Feng, Xinxin Zhang, Quan Yu, Zhongyin Shi, Zhicheng Liu, Hu Zhang and Huafei Liu. Experimental and numerical investigations of coke descending behavior in a coke dry quenching cooling shaft. Applied Thermal Engineering: 2008, 28, 1485–1490.
  103. Song Bo; Feng Yanhui; Zhang Xinxin. Numerical Study on Pressure Drop Factor in the Vent-Cap of CDQ Shaft. Journal of Thermal Science: 2008, 17(1), 69-76
  104. Wu Wenfei, Feng Yanhui, Zhang Xinxin. Zonal method solution of radiative heat transfer in a one-dimensional long roller-hearth furnace in CSP. Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials (Eng Ed): 2007, 14(4), 307-311.
  105. Wenfei Wu, Xuan Wu, Yanhui Feng, Xinxin Zhang. Simulation of velocity and temperature distribution of displacement ventilation system with single or double heat sources. Journal of Thermal Science: 2007, 16 (2), 155-158.
  106. W.F. Wu, Y.H. Feng and X.X. Zhang. Heat transfer analysis during rolling of thin slab in CSP. ACTA METALLURGICA SINICA (English letters): 2006,19 (4), 244-250.
  107. Yanhui FENG and Xinxin ZHANG.Effect of Micro Mass Transfer through Phase Interface on Numerical Simulation of Solidification Process, Heat Transfer - Asian Research: 2004, 33(6), 393-401.
  108. Y.H. Feng, Xinxin Zhang, Z.B. Xu and X.H. Wang.Mathematical Model for Turbulent Flow, Heat Transfer and Solidification.Heat Transfer - Asian Research: 2003, 32(7), 582-592
  109. Huafei Liu, Xinxin Zhang, Maolin Wu, Yanhui Feng, Yingbo Wang, Dinan Wang,Computation and Experimental Study of Cooling Process in Coke Dry Quenching Experimental Shaft.Journal of Thermal Science: 2002, 11(2): 121.
  110. Feng Yanhui, Zhang Xinxin.Mathematical Model and Numerical Simulation of Turbulent Flow, Heat Transfer and Solidification in a Rectangular Cavity with a Sheet Traversing along the Symmetrical axis.CHT’01-Advances in Computational Heat Transfer II: 2, 1153-1160. Begell House Inc., New York, Wallingford (UK) .May, 2001(ISBN: 1-56700-158-0) (ISTP收录)
  111. Yanhui Feng, Xinxin Zhang, Zhongbo Xu, Xinhua Wang.Numerical Prediction of Turbulent Flow and Heat Transfer with phase change in Crystallizor of Inverse Casting.Journal of Thermal Science, Vol. 9, No.2, pp. 146-151, 2000.
  112. 邱琳, 郭璞, 冯妍卉*, 张欣欣. 纳米涂层增强碳纳米管阵列界面热输运. 工程热物理学报: 2019, 40(9), 2109-2114
  113. 邱琳, 桑大伟, 冯妍卉*, 龚亦辉, 张欣欣. 高炉熔渣流化床余热回收的优化分析. 工程热物理学报: 2019, 40(5), 1086-1094
  114. 檀鹏, 冯妍卉*, 崔柳, 张欣欣. 层间添加碳原子对双壁碳纳米管导热的影响. 工程热物理学报. 2016, 37 (3), 648-652.
  115. 曹运涛,邱琳*, 郑兴华, 唐大伟, 朱群志, 裴振洪. 3ω微型探测器用于固体材料热导率的测量.工程热物理学报, 2016, 37(4), 803-806. (EI)
  116. 王晴,冯妍卉*,张欣欣.带串联三角形孔的氮化硼纳米带的热整流效应.工程热物理学报. 2015, 36(6): 1532-1536.
  117. 吴宣楠;冯妍卉;李岩;李亚飞;张欣欣;武传松. 穿孔等离子弧焊接弧与熔池的耦合模拟及正交分析,金属学报,2015,51(11),1365-1376.
  118. 崔柳, 冯妍卉*, 檀鹏, 张欣欣. 碳纳米豆荚内C60分子振荡行为的模拟. 科学通报, 2015, 60: 1414–1419.
  119. 李静,冯妍卉*,张欣欣,黄丛亮,杨穆. 介孔二氧化硅球形孔内近场辐射换热. 工程科学学报. 第37 卷,第8 期: 1063-1068, 2015 年8 月.
  120. 冯黛丽,冯妍卉*,袁思伟,张欣欣.颗粒团聚对纳米尺度熔化行为的影响. 工程热物理学报. 2015, 35(2) 1-5.
  121. 邱琳, 郑兴华*, 岳鹏, 唐大伟, 曹丽莉, 邓元. 碲化铋取向纳米柱状薄膜热导率测量.工程热物理学报, 2015, 36(4), 816-819. (EI)
  122. 邱琳, 郑兴华*, 唐大伟, 周文斌, 解思深. 碳纳米管纤维及薄膜的热导率和热扩散率研究.工程热物理学报, 2014, 35(4), 718-721.(EI)
  123. 李岩,冯妍卉*,张欣欣,武传松. 等离子弧焊接穿孔、相变传热与流动的耦合过程. 工程热物理学报. 2014, 35(5) 939-943.
  124. 袁思伟,冯妍卉*,王鑫,张欣欣.α-Al2O3介孔材料导热特性的模拟. 物理学报. 63(1), 2014: 014402. (SCI:000332029100029)
  125. 崔柳,冯妍卉*,张欣欣. 碳纳米豆荚的导热分析. 工程热物理学报. 2014, 35(6) 1162-1166
  126. 唐晶晶, 冯妍卉*, 李威, 崔柳, 张欣欣.碳纳米管电缆式复合材料的热导率. 物理学报. 62(22), 2013.11: 226102.(SCI:000327815700047)
  127. 郑兴华,邱琳*, 李兰兰, 岳鹏, 王刚, 唐大伟. 相变微胶囊的吸热系数测量. 工程热物理学报, 2013, 34(9), 1692-1694.(EI)
  128. 金珂; 冯妍卉*;张欣欣等. 焦炉加热系统流量分配的数值仿真.钢铁.48(9), 2013:9-13.
  129. 李静, 冯妍卉*, 张欣欣, 黄丛亮, 杨穆. 考虑界面散射的金属纳米线热导率修正. 物理学报.62(18), 2013.9: 186501. (SCI: 000324907000053)
  130. 李岩 冯妍卉 张欣欣 武传松. 考虑小孔演变的等离子弧焊接动态热源模型及验证.金属学报. 49(7), 2013.7: 804-810. (SCI: 000322056000006)
  131. 冯黛丽,冯妍卉*,张欣欣.小尺寸铝纳米团簇的相变行为.物理学报. 2013.4, 62 (8): 83602. 1000元(SCI: 000319506400015)
  132. 李威, 冯妍卉*, 唐晶晶, 张欣欣. 碳纳米管Y形分子结的热导率与热整流现象.物理学报. 62(7), 2013.4: 076107. (SCI: 000318151300047)
  133. 黄丛亮,冯妍卉*,张欣欣,李静,王戈,侴爱辉. 金属纳米颗粒的热导率. 物理学报. 62(2) , 2013.1: 026501.(SCI:000316815000064)
  134. 金珂,冯妍卉*,张欣欣,张庆环,张长青,杨俊峰,马小波. 耦合分级燃烧的大容积焦化过程仿真.中国电机工程学报. 32(35) 2012.12:13-20
  135. 张欣欣, 张安强, 冯妍卉, 刘健, 张长青, 于振东. 焦炉能质平衡及余热利用技术. 钢铁. 47(8), 2012:1-4.
  136. 黄丛亮,冯妍卉*,张欣欣,李威,杨穆,李静,王戈. 介孔二氧化硅基导电聚合物复合材料热导率的实验研究. 物理学报. 61(15),2012.8:154402(SCI:000309089100045)
  137. 李威,冯妍卉*,张欣欣, 陈阳. 掺杂、吸附和空位缺陷对碳纳米管导热的影响. 化工学报. 63(S1),2012.5:75-83.
  138. 刘斌,冯妍卉*,姜泽毅,张欣欣. 烧结床层的热质分析. 化工学报. 63(5), 2012.5:1344-1353
  139. 李岩,冯妍卉*,张欣欣,武传松. 等离子弧焊接熔池演变过程的模拟和验证. 工程热物理学报. 33(8), 2012: 1395-1399.
  140. 黄丛亮,冯妍卉*,张欣欣,李静,张琳,王戈. 考虑接触热阻的纳米颗粒堆积热导率的分析. 工程热物理学报. 33(4), 2012:655-660.
  141. 李威,冯妍卉*,张欣欣,陈阳. 碳纳米管中点缺陷对热导率影响的正交试验模拟分析.物理学报. 61(13), 2012:136102
  142. 金珂,冯妍卉*,张欣欣, 林蔚,张长青,杨俊峰,马小波. 耦合燃烧室的焦炉炭化室内热过程的数值分析. 化工学报, 63 (3), 2012: 788-795.
  143. 张安强, 冯妍卉*, 张欣欣, 金珂, 张长青, 王明登, 徐妍. 焦炉燃烧室-炭化室热过程数值模拟及解耦算法, 化工学报, 63 (2),2012: 455-462.
  144. 郑兴华,邱琳, 祝捷, 苏国萍, 唐大伟. 相变微胶囊的热导率测量. 工程热物理学报,2012,33(3),454-456.(EI)
  145. 郑兴华,邱琳, 苏国萍, 唐大伟. 利用3ω法测量纳米SiO2粉末热导率及热扩散率.工程热物理学报, 011, 32(S1),190-193.(EI)
  146. 苏国萍, 唐大伟, 郑兴华,邱琳, 杜景龙. 3ω方法测量各向异性SiC晶体的导热系数. 工程热物理学报, 2011, 32(11), 1885-1888.(EI)
  147. 黄丛亮,冯妍卉*,张欣欣,王戈,李静. 介孔材料MCM-41的导热研究. 物理学报. 2011. 60(11): 114401-1-7.(SCI: 000298442100067)
  148. 陈阳,冯妍卉,李威,张欣欣. 掺杂缺陷对碳纳米管导热系数的影响分析.工程热物理学报. 2011. 32(5):859-862.
  149. 邱琳, 郑兴华, 苏国萍, 唐大伟. 具有独立探头的3ω技术测量固体热导率. 工程热物理学报, 2011, 32(4), 621-624.(EI)
  150. 邱琳, 郑兴华, 李谦, 唐大伟, 钱杨保, 张伟刚. 陶瓷热障涂层的热导率和热扩散率测量.功能材料, 2010, 41(S2), 264-267.(EI)
  151. 彭佳,冯妍卉,李威,张欣欣. 含有Stone-Wales缺陷的碳纳米管的热导率模拟. 工程热物理学报. 2010. 31(11):1901-1904.
  152. 刘晓丹,冯妍卉,杨雪飞,张欣欣. 泡沫金属矩形通道中对流换热的实验和模拟. 中国电机工程学报. 2010. 30(14):56-60.
  153. 杨雪飞,冯妍卉,张欣欣. 泡沫铝通道内瞬态流动的平均换热系数. 工业加热. 2010. 39(1):23-26.
  154. 张欣欣,时娜,冯妍卉,田乃媛,张春霞. 钢铁生产流程系统综合节能实例研究与分析. 冶金能源. 2010.29(1):3-5, 27.
  155. 陆规,彭晓峰,冯妍卉. 加热板上液滴沸腾实验研究. 热科学与技术. 2009. 8(3):198-204.
  156. 宋波,冯妍卉,张欣欣. 干熄炉风帽供风压力损失的数值研究. 热科学与技术. 2009. 8(3):266-271.
  157. 刘晓丹,冯妍卉,杨雪飞,张欣欣. 泡沫金属的热分析. 北京科技大学学报. 2009. 31(7):895-900. (EI: 20094412411742)
  158. 黎想, 冯妍卉, 张欣欣, 姜泽毅, 田乃媛. 工业炉. 高炉内部气体流动与传热的模拟分析. 2009.3, 31(2): 1-8.
  159. 张欣欣,冯妍卉,徐安军. 钢铁制造流程工序界面问题及其关键技术. 工程前沿,2007.3,Vol.6 (节约型制造科技前沿): 133-144.,高等教育出版社.
  160. 张国志,冯妍卉,张欣欣,聂红. 定向凝固过程中的流动效应. 北京科技大学学报,2008.5, 30(5): 548-552.
  161. 王爱国,冯妍卉,林林,张欣欣. 三角形粗糙元的微通道内流动换热的模拟分析. 热科学与技术,2008.3,7(1):11-16.
  162. 赵大庆,冯妍卉,张欣欣. 合金枝晶生长及微细界面热质传递模拟. 工业加热,2008.2,37(1): 1-5.
  163. 冯妍卉,聂红,张欣欣. 定向凝固宏微观热质传递及双扩散流作用, 工程热物理学报,2008.2, 29(2): 301-305.
  164. 冯妍卉,张欣欣,刘志成,吴懋林. 干熄炉焦炭床层局部和平均换热系数. 北京科技大学学报,2007.12, 29(12): 1268-1272.
  165. 宋波,冯妍卉,张欣欣,徐列,于振东. 干熄炉内焦炭床层压力损失的数值求解和实验验证. 工业炉,2007.11, 29(6):1-4.
  166. 冯妍卉,张欣欣,吴懋林. 干熄炉内焦炭下降运动的实验研究. 钢铁,2007.7, 42 (7) : 15-17.
  167. 张国志, 冯妍卉, 张欣欣, 聂红. 氯化铵水溶液定向凝固实验的传热分析. 热科学与技术, 2007, 6 (2) : 113-118.
  168. 宋波,冯妍卉,张欣欣,干熄炉内环形集气道压降及阻力系数的研究,热科学与技术,2007,6 (1): 66-69.
  169. 刘志成 冯妍卉 张欣欣 石中赢 许明超 徐列 于振东. 干熄炉料钟布料焦炭粒度分布的研究. 热科学与技术, 2006, 5 (3) : 251-256.
  170. 刘志成,冯妍卉,张欣欣,吴懋林等.干熄炉料钟布料的实验研究《化工进展》增刊,Vol.25: 174-178, 2006.
  171. 冯妍卉,张欣欣,吴懋林,干熄炉焦炭床层换热的实验和理论研究.《化工进展》增刊,Vol.25: 262-266, 2006.
  172. 刘志成,冯妍卉,张欣欣,吴懋林等.干熄炉预存段内料面堆积形状的研究.《燃料与化工》,37 (3): 14-16, 2006.
  173. 聂红,冯妍卉,张欣欣. 二元合金凝固过程枝晶结构尺度热质传输的影响分析[J]. 工程热物理学报,2006, 27(增刊2):45-48.
  174. 石中赢,张欣欣,冯妍卉,徐列,于振东.CDQ 焦炭运动粘性流模型壁面摩擦的研究.《燃料与化工》,Vol.37, No.4, pp.8-12, 2006.6.
  175. 许明超,冯妍卉,张欣欣,徐列,于振东.考虑燃烧反应的干熄炉内一维传热模.《冶金能源》,Vol.25, No.4, pp.16-19, 2006.7.
  176. 许明超,冯妍卉,张欣欣,徐列,于振东燃烧反应干熄炉内传热模拟的浅析.《应用能源技术》,No.2, pp.4-8, 2006.
  177. 聂红,冯妍卉,张欣欣,合金凝固传热传质宏微观耦合数值研究及验证.《热科学与技术》,Vol. 5,No. 1,pp.44-49,2006.3(ISSN:1671-8097)
  178. 张虎,刘华飞,张欣欣,冯妍卉等.风帽对干熄焦炉内焦炭下降运动的影响.《燃料与化工》,Vol.36, No.2, pp.18-20, 2005.
  179. 刘华飞,张欣欣,冯妍卉,张虎等.焦炭下降运动的势流模型及其实验验证.《燃料与化工》,Vol.36, No.1, pp.22-24, 2005.
  180. 徐文亮,张欣欣,冯妍卉,姜泽毅等.干熄焦挡板除尘器除尘性能的数值模拟.《工业加热》,Vol.34, No.2, pp.36-39 , 2005.
  181. 于泉,张欣欣,冯妍卉,姜泽毅等.干熄炉内焦炭下降的粘性流模型及其比较研究.《工业加热》,Vol.34, No.1, pp.11-13, 2005.
  182. 冯妍卉,张欣欣,张虎等,干熄炉内影响焦炭下降因素的研究.《燃料与化工》,Vol.35, No.2, pp.10-13, 2004.
  183. 王英波,刘华飞,冯妍卉等,对干熄炉内压降的研究.《燃料与化工》,Vol.34, No.5, pp.236-238, 2003.
  184. 冯妍卉,张欣欣,刘华飞等,干熄炉内平均换热系数的研究.《燃料与化工》,Vol.34, No.4, pp.179-181, 2003.
  185. 冯妍卉,张欣欣,武文斐,枝晶尺度质量传递对连铸铸造凝固过程的影响.《热科学与技术》,Vol.2, No.3, pp.215-220, 2003.
  186. 冯妍卉,张欣欣,微观偏析对凝固传热传质数值模拟的影响.《工程热物理学报》,Vol.24, No.1, pp.115-117, 2003.
  187. 冯妍卉,张欣欣,王新华,许中波,反向凝固器内伴随固液相变的湍流流动与传热的数值分析.《北京科技大学学报》,Vol.24, No.6, pp.596-601, 2002.
  188. 冯妍卉,张欣欣,微界面扩散过程对二元合金凝固过程数值模拟的影响.《工业加热》,Vol.31, No.5, pp.31-34, 2002.
  189. 冯妍卉,张欣欣,王新华,许中波,反向凝固条件下二元合金一维相变传热的研究.《金属学报》, vol.36, No.4, pp.383-386, 2000.

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  2. “制备高纯度高导热碳纳米管阵列热界面材料的方法及装置”. 发明专利, 中国, ZL 201611126343.8, 2018年6月1日授权
  3. “螺旋盘管式非相变取热装置”. 发明专利, 中国, ZL 201410194345.5, 2017年8月25日授权
  4. “一种高纯度高导热碳纳米管阵列热界面材料制备装置”. 实用新型专利, 中国, ZL 201621345714.7, 2017年6月27日授权
  5. “双螺旋平面结构谐波法测试材料热物性参数的装置”. 发明专利, 中国, ZL 201410078886.1, 2016年6月1日授权
  6. “测试材料热物性参数的装置及方法”. 发明专利, 中国, ZL 201310032893.3, 2016年2月24日授权
  7. “抗重力型螺旋盘管式非相变取热装置”. 实用新型专利, 中国, ZL 201420237565.7, 2014年9月24日授权
  8. “测量固体热物性参数的光学系统及方法”. 发明专利, 中国, ZL 201210476747.5, 2014年8月20日授权
  9. “用于吸热系数测量的测量装置及测量方法”. 发明专利, 中国, ZL 201210258346.2, 2014年4月9日授权
  10. “用于各向异性材料导热系数和热扩散率的测定方法”. 发明专利, 中国, ZL 201010201486.7, 2013年5月8日授权
  11. “贴面式传感器及测量装置”. 实用新型专利, 中国, ZL 201220360421.1, 2013年2月13日授权
  12. “基于独立型传感器的谐波法测量材料蓄热系数装置及方法”. 发明专利, 中国, ZL 201110138899.X,2013年2月13日授权
  13. “谐波法单根导电丝状材料热物性测试方法及装置”. 发明专利, 中国, ZL 201010141035.9, 2012年10月31日授权
  14. “谐波法微/纳米薄膜热物性测试方法”. 发明专利, 中国, ZL 201010218390.1, 2012年6月27日授权
  15. “具有独立探头的谐波法固体材料热物性测试方法及装置”. 发明专利, 中国, ZL 200910242362.0, 2011年10月5日授权
  16. “具有独立探头的谐波法固体材料热物性测试装置”. 实用新型专利, 中国, ZL 200920277780.9, 2010年7月28日授权
  17. 一种干熄炉上利于焦炭粒度分布的料钟. 实用新型专利, 中国, ZL 2005 2 0023008.6, 2006年
  18. 一种无损测量生物活体组织热参数的方法. 发明专利, L 2004 1 0000021.X, 2005年
  19. 一种干熄炉上的利于焦炭下降的低风帽. 实用新型专利, ZL 2004 2 0009117.8, 2005年
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