卿新林

职称:中央“千人计划”国家特聘专家、特聘教授、博士生导师

职务:航空航天学院教授委员会主任、系主任

Email:xinlinqing@xmu.edu.cn

研究方向:

飞行器健康管理技术、结构健康监测技术、先进传感技术、智能结构、复合材料结构检测与修理技术等

个人简历:

一、简介

清华大学固体力学博士,美国斯坦福大学航空航天博士后,中央第六批 “千人计划”国家特聘专家,国家外专局高端外专项目《大型客机项目》专家,结构健康监测国际航空工业指导委员会技术委员会理事。现任厦门大学航空航天学院特聘教授、博士生导师、教授委员会主任,西北工业大学讲座教授、博士生导师。曾任中国商飞公司北京研究中心民机健康管理研究部负责人,作为项目负责人承担过美国国防部(DOD)、美国航空航天局(NASA)、美国国家科学与技术研究院 (NIST)、美国联邦航空管理局(FAA)、中国工信部、中国国家自然科学基金等数亿元的研究课题。研究成果5次在美国NASA技术简报上报道,发表论文130多篇,获得美国授权发明专利16项、中国授权发明专利5项、实用新型专利3项,正在申报的中国发明专利17项。


二、学习与工作经历

2015.10-  厦门大学航空航天学院特聘教授、教授委员会主任

2015.12-2016.01美国斯坦福大学访问教授

2010.10-2015.10中国商用飞机有限责任公司特聘研究员、北京研究中心民机健康管理研究部部长

2000.03-2010.10美国Acellent公司首席科学家、技术总监、运营长

1998.03-2000.02美国斯坦福大学航空航天系博士后

1997.03-1998.02美国UIUC机械工程系访问教授

1995.09-1997.02清华大学工程力学系副教授

1993.10-1995.08天津大学力学系博士后

1991.02-1993.10清华大学固体力学专业博士生

1988.09-1991.01天津大学实验力学专业硕士生


三、研究方向与兴趣

飞行器健康管理技术,结构健康监测技术,先进传感技术,复合材料结构技术,实验固体力学。


四、主持的课题

2010年10月回国后,主持国家自然科学基金、工信部民机预研专项、北京市重大科技成果落地转化培育项目等六千多万元的研究课题。在美国工作期间,主持或承担美国国家航空航天局(NASA)、美国国防部(DOD)、美国国家科学与技术研究院 (NIST)、美国联邦航空管理局(FAA)、波音与空客公司等四千多万美元的研究课题。部分主持的课题如下:

  1. 国家自然科学基金项目《复合材料连接结构损伤探测技术与服役状态表征理论》(2015-2018)

  2. 国家自然科学基金项目《分布式多功能复合材料结构状态探测技术研究》(2012-2015)

  3. 工信部民机预研专项《XXX客机集成化结构健康监测技术研究》(2012-2015)

  4. 工信部民机预研专项《XXX客机全机综合健康管理技术研究》(2012-2015)

  5. 北京市重大科技成果落地转化培育项目《大型民机综合健康管理系统研究》(2012-2015)

  6. 美国国防部创新研究项目《Materials State Awareness》(2010-2011)

  7. 美国国防部/Bell Helicopter OSST (Operations Support and Sustainment Technology)的子项目-结构健康监测系统论证(2007-2010)

  8. 美国国防部创新研究项目《Autonomous Self-powered (ASP) Structural Health Monitoring System》(2006-2009)

  9. 美国NASA创新研究项目《Maturation of Structural Health Management Systems for Solid Rocket Motors》(2008-2009)

  10. 美国国防部创新研究项目《Multifunctional Sensor Network for Structural State Sensing》(2008-2009)

  11. 美国国防部创新研究项目《Embedded Stress/Strain Sensors for Deep Submergence System Fairing Panels》(2007-2008)

  12. 美国NASA创新研究项目《Autonomous Composite Fan Containment Integrity Monitoring (AUTOCONFIRM) System》(2007-2008)

  13. 美国NASA创新研究项目《Smart Tape for Structural Health Monitoring of Liquid Rocket Engines》(2004-2007)

  14. 美国国防部创新研究项目《Novel Self-sensing Local/Global Structural Health Monitoring System》(2004-2007)

  15. 美国国防部创新研究项目《A Real-time Active SMART Patch System for Monitoring the Integrity of Bonded Repair on Aircraft Structures》(2002-2005)

  16. 美国NASA创新研究项目《Hybrid Piezoelectric/Fiber Optic SMART Layers for Structural Health Monitoring》(2001-2004)


五、主要学术奖励与荣誉

  1. 中央“千人计划”国家特聘专家;

  2. 国家外专局高端外专项目《大型客机项目》入选专家;

  3. 2016年中国产学研合作创新奖;

  4. 科学中国人(2015年)年度人物;

  5. 2012年中国商飞优秀科技论文二等奖;

  6. 2011年两次美国NASA技术简报原始创新奖;

  7. 领导的研究团队在2009年结构健康监测国际会议上获Airbus颁发的Most Practical SHM Technology 奖;

  8. 2009年美国NASA空间活动奖;

  9. 2007年美国NASA空间活动奖;

  10. 2006年结构健康监测国际会议上获Boeing颁发的最佳论文奖;

  11. 2003国际光学工程学会智能材料与结构产品研发奖;

  12. 1997年中国国家发明三等奖;

  13. 11996年国家教委科技进步二等奖。


六、主要学术兼职

  1. 结构健康监测国际航空工业指导委员会技术委员会理事;

  2. 中国仪器仪表学会设备结构健康监测与预警分会副理事长;

  3. 第一届飞行器健康管理技术国际研讨会组委会主席;

  4. SPIE智能材料与结构-结构健康监测国际会议组委会成员;

  5. 国际结构健康监测与完整性管理会议学术委员会副主任;

  6. 美国斯坦福大学国际结构健康监测会议组委会成员;

  7. 中国复合材料学会通讯理事;

  8. 民机结构与复合材料北京市重点实验室常务副主任;

  9. 民机结构与复合材料北京市重点实验室学术委员会委员;

  10. 上海民用飞机健康监控工程技术中心技术委员会委员;

  11. 西北工业大学讲座教授,南京航空航天大学、中国民航大学客座教授;

  12. 2011年民用飞机复合材料结构疲劳与健康监测国际研讨会组委会合作主席。


七、研究成果

研究成果多次被NASA技术简报报道(Maturation of Structural Health Management Systems for Solid Rocket Motors, NASA Tech Briefs, 2011;Autonomous System for Monitoring the Integrity of Composite Fan Housings,NASA Tech Briefs, 2010;Flexible Structural-Health-Monitoring Sheets, NASA Tech Brief, 2008;Hybrid Piezoelectric/Fiber-Optic Sensor Sheets-Multiple Sensors of Different Types Could be Installed On Or In Structures, MNASA Tech Briefs, 2004).

发表期刊与会议论文130多篇,部分代表性论文:

  1. Zhu, K., Qing, X. and Liu, B., Torsional guided wave-based debonding detection in honeycomb sandwich beams, Smart Materials and Structures, 25: 115048, 2016.

  2. Wang, Y. S., Qing, X.*, Liang, D. and Banerjee, S.,Multi-field coupled sensing network for health monitoring of composite bolted joint, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 2016.

  3. 王奕首,卿新林,复合材料连接结构健康监测技术研究进展, 复合材料学报, 33(1): 1-16, 2016.

  4. Cai, J., Yuan, S., Qing, X., Chang, F.-K., Shi, L. and Qiu, L., Linearly dispersive signal construction of Lamb waves with measured relative wavenumber curves, Sensors and Actuators A: Physical, 221: 41-52, 2015.

  5. Hong, M., Su, Z., Ye, L., Sohn, H. and Qing, X. , Locating fatigue damage using temporal signal features of nonlinear Lamb waves, Mechanical Systems and Signal Processing, 60-61:182-197, 2015.

  6. Wang, Y., Gao, L., Qiu, L., Yuan, S. and Qing, X., An adaptive filter based temperature compensation technique for structural health monitoring, Journal of Intelligent Material Systems and Structures, 25(17): 2187-2198, 2014.

  7. Hong, M., Su, Z., Wang, Q., Cheng, L. and Qing, X., Modeling nonlinearities of ultrasonic waves for fatigue damage characterization: theory, simulation, and experimental validation, Ultrasonics, 54(3): 770-778, 2014.

  8. Su, Z., Zhou, C., Hong, M., Cheng, L., Wang, Q. and Qing, X., Acousto-ultrasonics-based fatigue damage characterization: linear versus nonlinear signal features, Mechanical Systems and Signal Processing, 45(1): 225-239, 2014.

  9. Qiu, L., Liu, M., Qing, X. and Yuan, S., A quantitative multidamage monitoring method for large-scale complex composite, Structural Health Monitoring, 12(3): 183-196, 2013.

  10. Cai, J., Shi, L. and Qing, X., A time–distance domain transform method for Lamb wave dispersion compensation considering signal waveform correction, Smart Materials and Structures, 22(10): 105024, 2013.

  11. Gao, L. and Qing, X., Sensing of Damage in Glass Fiber Composites by Adding Carbon Nanotubes, Applied Mechanics and Materials, 330: 68-76, 2013.

  12. 蔡建, 石立华, 卿新林, 考虑波形修正的Lamb波时间-距离域映射方法, 仪器仪表学报, 34(5): 1015-1021, 2013.

  13. 蔡建, 石立华, 卿新林, 基于相对测量波数的线性频散信号构建方法, 仪器仪表学报, 34(4): 948-954, 2013.

  14. 蔡建, 石立华, 卿新林, 杜朝亮, 基于非频散信号构建的Lamb波高分辨率损伤成像方法, 航空学报, 34(8): 815-1823, 2013.

  15. 赵琳, 张博明, 卿新林, 谢惠民, 基于单胞解析模型的复合材料面内剪切性能与损伤分析, 复合材料学报, 30: 153-157, 2013.

  16. 郭艳丽, 李旭, 叶金蕊, 白光辉, 卿新林, 张博明, 晏冬秀, 邵严, 高密度分布式光纤传感技术在FRP复合材料结构健康监测中的应用, 复合材料学报, 30(12): 247-250, 2013.

  17. Du, C., Wang, Y., Gao, D., Liu, K. and Qing, X., In-situ quantitative monitoring of fatigue crack using fastest time of flight diffraction method. Transactions of Nonferrous Metals Society of China, 22(11): 2679−2684, 2012.

  18. 卿新林, 王奕首, 赵琳, 结构健康监测技术及其在航空航天领域中的应用实验力学, 27(5): 517-526, 2012.

  19. 卿新林, 王奕首, 高丽敏, 多功能复合材料结构状态感知系统, 实验力学, 26(5): 611-616, 2011.

  20. Banerjee, S., Qing, X., Beard, S. and Chang, K.-K., Prediction of Progressive Damage State at the Hot Spots Using Statistical Estimation, Journal of Intelligent Material Systems and Structures, 21(6): 595-605, 2010.

  21. Qing, X. P., Beard, S., Shen, S., Banerjee, S. etc. Development of a real-time active pipeline integrity detection system, Smart Materials and Structures, 18(11): 115010, 2009.

  22. Qing, X. P.,Beard, S. J., Ikegami, R., Chang, F.-K. and Boller, C., Aerospace applications of SMART Layer technology, Encyclopedia of Structural Health Monitoring, Wiley, 2009.

  23. Qing, X. P.,Beard, S. J., Kumar, A., etc., SMART Layer Technology and its applications, Encyclopedia of Structural Health Monitoring, Wiley, 2009.

  24. Wu, Z., Qing,X. and Chang, F.-K., Damage detection for composite laminate plates with a distributed hybrid PZT/FBG sensor network, Journal of Intelligent Material Systems and Structures, 20(9): 1069-1077, 2009.

  25. Qing, X. P.,Beard, S. J., Kumar, A., etc., Performance of piezoelectric sensors based SHM system under combined cryogenic temperature and vibration environment, Smart Materials and Structures, 17(5):055010, 2008.

  26. Wu, Z.,Qing, X.,Ghosh, K., Karbhar, V. and Chang, F.-K., Health monitoring of bonded composite repair in bridge rehabilitation, Smart Materials and Structure, 17(4): 045014, 2008.

  27. Qing,X. P., Beard,S., etc., Built-in sensor network for structural health monitoring of composite structure, Journal of Intelligent Material Systems and Structures, 18(1):39-49, 2007.

  28. Hua, T., Xie,H., Pan, B., Qing,X., etc. A new micro-tensile system for measuring the mechanical properties of low-dimensional materials-Fibers and films, Polymer Testing, 26(4):513-518, 2007.

  29. Qing, X. P.,Beard, S. J.,Kumar, A. and Hannum, R., A real-time active smart patch system for monitoring the integrity of bonded repair on an aircraft structure, Smart Materials and Structures, 15(3):N66-N73, 2006.

  30. Qing, X. P.,Beard, S. J., Kumar,A. etc.,Advances in the development of built-in diagnostic system for filament wound composite structures, Composite Science and Technology, 66(11): 1694-1072, 2006.

  31. Qing,X. P., Chan, H.-L., Beard, S. J., etc.,Effect of adhesive on the performance of piezoelectric transducer for structural health monitoring, International Journal of Adhesion and Adhesive, 26(8): 622-628, 2006.

  32. Qing,X. P., Chan, H.-L., Beard S. J. and Kumar, A.,A smart tape diagnostic system for structural health monitoring of rocket engine, Journal of Intelligent Material Systems and Structures, 17(7): 619-628, 2006.

  33. Qing, X., Kumar, A., Zhang, C., etc.,Hybrid piezoelectric/fiber optic diagnostic system for structural health monitoring, Smart Materials and Structures, 14(3):S98-S103, 2005.

  34. Qing, X., Chang, F.-K. and Starnes, J., Damage tolerance of notched composite laminates with reinforcing strips, Journal of Composite Materials, 37(2):111-128, 2003.

  35. Sun,H., Chang, F.-K. and Qing, X.,The Response of composite joints with bolt clamping loads Part I: model development, Journal of Composite Materials, 36(2): 47-67, 2002.

  36. Sun,H., Chang, F.-K. and Qing, X., The response of composite joints with bolt clamping loads Part II: model verification, Journal of Composite Materials, 36(1): 69-92, 2002.

  37. Sehitoglu,H.,Qing,X., Smith,T., Maier, H. andAllison, J., Stress-strain response of a cost 319-T6 aluminum under thermo-mechanical loading, Physical Metallurgy and Materials Science A: Metallurgical and Materials Transactions, 31(1): 139-151, 2000.

  38. Qing,X.,Gu,Y., Dai,F. and Liang, K.,Crack-tip transformation zones of CeO2-stabilized tetragonal ZrO2 polycrystals. Journal of Material Science Letters, 16(8): 652-655, 1997.

  39. Qing, X.,Qin, Y. and Dai, F., Experimental investigation of micromechanical behavior of advanced materials by moire interferometry. Optics and Lasers in Engineering, 25(2-3):179-189, 1996.

  40. Qing,X. and Qin, Y., An experimental investigation of carbon-fiber/aluminum laminates with double-edge cracks. Composite Science and Technology, 53(4):393-397, 1995.

  41. Mao, T., Han, J., Qing, X. and Dai, F., Experimental investigation of bending behavior in CALL hybrid composites. Composite Science and Technology, 53(3): 275-279, 1995.

  42. Qing, X.,Qin, Y. and Dai, F., Optical fringe multiplication in more interferometry, Applied Optcs, 34(31):7291-7294, 1995.

  43. Qing, X.,Qin, Y., Dai,F. and Sun, Q., Experimental investigation of the transformation zone of tetragonal zirconia polycrystalline ceramics. Journal of Material Science, 30(24):6267-6272, 1995.

获得授权美国发明专利16项、中国发明专利5项、实用新型专利3项,正在申报的中国发明专利17项。

美国专利:

  1. Beard, B., Zhang, D. and Qing, X., Transducer array self-diagnostics and self-healing, US Patent 9,109,999, 2015.

  2. Qing, X., Li, I. J. and Zhang, C., Structural health monitoring system having integrated power supply, US Patent 8,639,453, 2014.

  3. Banerjee, S., Qing, X., Beard, S. J. and Chang, F.K., Method and apparatus for estimating damage in a structure, US Patent 8,521,444, 2013.

  4. Qing, X., Zhang, C., Li, I. J., Chang,F.-K. and Chung, H., Integrated circuit system for controlling structural health monitoring processes, US Patent 8,352,201, 2013.

  5. Qing, Xinlin, Beard, S. J. and Li, I. J., Method and apparatus for conducting structural health monitoring in a cryogenic, high vibration environment, US Patent 8,347,722, 2013.

  6. Beard, S. J., Qing, X., Chang, T. and Ouyang, L., Optimal sensor location for damage detection, US Patent 8,301,400, 2012.

  7. Qing, X., Zhang, C., Li, I., Chang, F.-K and Chung, H., Integrated circuit system for controlling structural health monitoring processes and applications, US Patent 8,265,889, 2012.

  8. Zhang, C., Qing, X. and Li, I., Structural health monitoring system having memory on structure, US Patent 8,244,486, 2012.

  9. Beard, S. and Qing, X., Method and apparatus for reducing crosstalk in structural health Monitoring System, US Patent 7,596,078, 2009.

  10. Malkin, M C. and Qing, X.,Method and apparatus and method for connecting a first flat conductor with a second conductor, US Patent 7,507,100, 2009.

  11. Lu, Y., Qing, X., Zhang, C. and Li, I., Vehicle systems and methods for detecting pedestrian impacts, US Patent 7488015, 2009.

  12. Qing, X. and Chang, F.-K., Method of manufacturing a structural health monitoring layer, US Patent 7,413,919, 2008.

  13. Qing, X., Zhang, C. and Li, I., Method of detecting and analyzing changes in the external loading conditions of structure. US Patent 7430911, 2008.

  14. Qing, X., Beard, S., Yu, Z. and Li, I., Method and apparatus for switching among elements of a structural health monitoring system, US Patent 7,395,189, 2008.

  15. Qing, X. and Beard, S., Single-wire sensor/actuator network for structural health monitoring, US Patent 7,387,033, 2008.

  16. Beard, S., Qing, X., Chan, H., Zhang, C. and Chang, F.-K., Method and apparatus for detecting a load change upon a structure and analyzing characteristics of resulting damage, US Patent 7,458,266, 2008.

中国专利:

  1. 杜朝亮,王奕首,卿新林, 一种线性缺陷定量化监测方法, 发明专利, 专利号: ZL 2012 1 0488569.8, 授权公告日: 2016/9/28

  2. 杜朝亮, 王奕首, 卿新林, 王新林, 一种温度补偿方法及装置, 发明专利, 专利号: ZL 2014 1 0011527.4, 授权公告日: 2016/8/17

  3. 卿新林, 蔡建, 复合材料机械连接结构的综合监测系统, 发明专利, 专利号: ZL 2014 1 0079562.X, 授权公告日: 2016/3/23

  4. 杜朝亮, 姜丽丽, 卿新林, 一种基于能量分布向量比的触击位置和能量测量方法, 发明专利, 专利号: ZL 2012 1 0560733.1, 授权公告日: 2015/10/28

  5. 杜朝亮, 姜丽丽, 卿新林, 基于波传播时间及能量函数的触击位置和能量测量方法, 发明专利, 专利号: ZL 2012 1 0560122.7, 授权公告日: 2015/10/28

  6. 鲁明宇, 卿新林, 一种用于安装传感器接头的装置, 实用新型专利, 专利号: ZL 2014 2 0348547.6, 授权公告日: 2014/11/05

  7. 赵琳, 卿新林, 鲁明宇, 杨海楠, 一种压电传感器辅助安装装置, 实用新型专利, 专利号: ZL 2014 2 0350888.7, 授权公告日: 2014/11/05

  8. 卿新林, 蔡建, 孙虎, 一种用于高应变场合的压电陶瓷传感元件, 实用新型专利, 专利号: ZL 2014 2 0162519.5, 授权公告日: 2014/10/8


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