辽宁省光纤传感工程技术研究中心
辽宁省光纤传感工程技术研究中心依托沈阳航空航天大学于2010年经科技厅批准组建。2020年获辽宁省高等学校创新团队。实验室围绕航空航天需求,紧密联系沈飞、606所,的实际需求,开展多功能航空航天复合材料的理论与应用研究,致力于解决军工技术难题,取得了多项成果,在国内外智能制造与健康监测领取取得了重大影响。现主要开展以下4方面的研究:
(1)基于碳纳米三维结构的多功能(阻燃、隐身、传感)纳米复合材料研究;
(2)复合材料制造过程的光纤光栅监测及变形控制技术;
(3)基于多传感器(光纤光栅、碳纳米纸、石墨烯柔性传感器)的复合材料结构健康监测技术;
(4)宏量石墨烯制备及其导电导热功能材料
截止2021年4月,辽宁省光纤传感工程技术研究中心共主持军委科技委国防创新特区、国家基金、国防基础科研、工信部民机专项等纵向课题30余项,经费三千余万元;发表Carbon、CST等论文110篇(SCI收录60篇,SCI他引400余次),申请国家发明专利47件(授权30件);负责的“基于多传感器的航空复合材料构件智能制造及健康监控”获2017年辽宁省科技进步一等奖(排第1),“锐翔双座电动飞机及其关键技术”获2019年辽宁省科技进步一等奖(第2),2019年获中国产学研合作创新奖,2020年获中国航空学会科学技术奖。做国际学术会议报告8次;培养博士、硕士研究生25人。
主要研究成果:
Ø 科研奖励
(1)辽宁省科技进步一等奖(2017-J-1-09-R01),辽宁省政府,2017.12
(2)辽宁省科技进步一等奖(2019-J-1-07-R02),辽宁省政府,2019.12
(3)中国产学研合作创新奖,中国产学研合作促进会,2019.12
Ø 学术论文
在Carbon,Composite science and technology, Polymer testing,Materials and design,无机材料学报,航空学报,复合材料学报等国内外期刊发表学术论文110余篇(SCI检索56篇,其中中科院一区论文15篇,二区论文15篇),其中代表性论文包括:
(1) Lu Shaowei*, Shao Junyan, etal.Preparation and characterization of ultrathin and low density buckypaper for electromagnetic interference shielding, Carbon, 2018
(SCI,IF=9,中科院一区,被引13次)
(2) Shaowei Lu*,Tian Caijiao, etal. Strain sensing behaviors of GnPs/epoxy sensor and health monitoring for composite materials under monotonic tensile and cyclic deformation, Composite Science and Technology,2018,158:94-100 (SCI, IF=7.641,中科院一区,被引13次)
(3) Lu Shaowei*, Chen duo, etal.Real time cure behavior monitoring of composites under different cure cycles using CNT buckypaper sensor, Composite Science and Technology,2017,152:181-89(SCI,IF=7.641,中科院一区,被引25次)
(4) Shaowei Lu*, Kai Du, et al. Real-time monitoring of low-velocity impact damage for composite structures with the omnidirection carbon nanotubes' buckypaper sensors. Structural Health Monitoring, 2019. 03, 18(2): 454-465. (SCI, IF=4.94, 中科院一区,被引23次)
(5) Shaowei Lu*, Tian Caijiao, etal. Health monitoring for composite materials with high linear and sensitivity GnPs/epoxy flexible Strain sensors,Sensors & Actuators: A. Physical, 2017 ,267:409-16 (SCI ,IF=3.13,中科院二区 ,被引5次)
(6) Shaowei Lu*, Duo Chen, etal.Monitoring the manufacturing process of glass fiber reinforced composites with carbon nanotube buckypaper sensor. Polymer Testing. 2016,52:79-84 (SCI,IF=3.23,中科院一区,被引18次)
(7) Shaowei Lu*, Yuan Chaojun, etal. Fabrication of single/multi- walled hybrid buckypaper composites and their enhancement of electromagnetic interference shielding performance. Journal of Physics D:Applied Physics.2016 , 49:445308(SCI, IF=2.77,中科院二区,被引6次)
(8) Shaowei Lu, Yaoyao Bai, etal.Very high S-band microwave absorption of carbon nanotube buckypapers with Mnnanoparticle interlayers.Journal of Applied Physics ,2018,123, 095113 (IF=2.18,中科院二区,被引1次)
(9) Lu Shaowei*, Chen duo, etal, Method of monitoring the glass transition temperature of polymer composites with carbon nanotube Buckypaper sensor, Polymer Testing, 2016,57: 12-16, ( SCI,IF=4.14,中科院一区,TOP期刊,被引14次)
(10) Shaowei Lu*, Dandan Chen, et al. Electromagnetic interference shielding properties of graphene/MWCNT hybrid buckypaper. Micro & Nano Letters, 2018.13(6): 1252-1254. (SCI)
(11) Shaowei Lu, Wearable graphene film strain sensors encapsulated with nylon fabric for human motion monitoring, Sensors and actors A, 2019 ,295:200-209(SCI,IF=3.13, 中科院2区)
(12) Shaowei Lu, Flexible GnPs/EPDM with excellent thermal conductivity and electromagnetic interference shielding properties, Nano, 2019.14(6):1950075(SCI)
(13) Shaowei Lu*, Duo Chen, et al. Monitoring the manufacturing process of glass fiber reinforced composites with carbon nanotube buckypaper sensor. Polymer Testing, 2016.07, 52: 79-84. (SCI, IF=4.14, 中科院一区, 被引11次)
(14) Shaowei Lu*, Chaojun Yuan, et al. Preparation and low-frequency microwave-absorbing properties of MWCNTs/Co-Ni/Fe3O4 hybrid material. Functional Materials Letters, 2016.06, 9(3): 1650035. (SCI, 被引5次)
(15) Shaowei Lu*, Keming Ma, et al. Fabrication and characterization of polymer composites surface coated Fe3O4/MWCNTs hybrid buckypaper as a novel microwave-absorption structure. Journal of Applied Polymer Science, 2015.05, 132(20): 41974. (SCI, IF=1.87, 被引1次)
(16) Shaowei Lu*, Qian Li, et al. Microwave Abosrbing Properties of CNTs Composites Attached with Fe3O4/CNTs Hybrid Buckypaper. Journal of Inorganic Materials, 2015.01, 30(1): 23-28. (SCI, IF=0.49, 中科院四区, 被引1次)
(17) Shaowei Lu*, Xianjun Zeng, et al. Fire Retardancy of Fiber Reinforced Polymer Composites Coated with POSS/Clay/MWCNTs Hybrid Buckypaper. Journal of Inorganic Materials, 2014.06, 29(6): 589-593. (SCI)
(18) Shaowei Lu*, Xianjun Zeng, et al. Electromagetic and microwave absorbing properties of ultra-thin Fe attached carbon nanotube hybrid buckypaper. Functional Materials Letters, 2014.04, 7(2):1450006. (SCI)
(19) Shaowei Lu*, Junchi Ma,etal.Highly sensitive graphene platelets and multi-walled carbon nanotube-based flexible strain sensor for monitoring human joint bending. Applied Physics A, 2019. DOI : 10.1007/s00339-019-2765-8 (SCI, IF=2.18, 中科院3区)
(20) Xiaoqiang Wang,Shaowei Lu*,Tensile strain sensing of buckypaper and buckypaper composites, Materials and Design,2015:414-9(SCI, IF=6.25, 中科院1区,被引25次)
Ø 国家发明专利
(1)卢少微,张海军,聂鹏,高禹,吕伟,王继杰.基于碳纳米管三维网络薄膜的温度传感器制备方法,2014.6,授权国家发明专利,ZL201210439177.2
(2)卢少微,曾宪君,聂鹏,高禹,王继杰等,一种基于碳纳米薄膜的雷达吸波复合材料制备方法,2015.7,授权国家发明专利,ZL201210073837.X
(3)卢少微,张春旭,高禹,王继杰,王志等,碳纳米纸阻燃聚合物基复合材料制备方法,2015.7,授权国家发明专利,ZL201210073654.8
(4)卢少微,李倩,张春旭,曾宪军,高禹,聂鹏,基于碳纳米管/氧化石墨烯/POSS单体的纤维表面上浆剂的制备方法,2014.4,授权国家发明专利,ZL201210439178.7
(5)卢少微,冷劲松,陈平,埋入复合材料的光纤光栅保护与定位方法,2011.8,授权国家发明专利, ZL200910010588.8
(6)卢少微,陈平,高禹,马克明,王柏臣,李伟,一种结构纵向应变监测的智能复合材料层板制作方法, 2011.8,授权国家发明专利,ZL200910011934.4
(7)卢少微,陈平,高禹,马克明,王柏臣,李伟,老化飞机结构损伤光纤智能复合材料修复与健康监测方法,2011.8,授权国家发明专利,ZL200910011522.0
(8)卢少微,陈平,马克明,王柏臣,李伟,一种用啁啾光栅定位碳纤维复合材料横向裂纹的方法,2012.3,授权国家发明专利,ZL200910010458.4
(9)卢少微,陈平,马克明,王柏臣,李伟,复合材料胶结接头脱粘扩展的啁啾光栅监测方法,2012.3,授权国家发明专利,ZL200910010459.9
(10)卢少微,王继杰,张海军等.授权国家发明专利:AL-Sn合金基镀镍光纤光栅传感器制作方法,ZL201210074543.9
(11)卢少微,张海军,贲强,高禹,聂鹏,吕伟,一种基于碳纳米管三维网络薄膜的应变传感器制备方法,2015.5,授权国家发明专利,ZL201210436811.7
(12)卢少微,张春旭,曾宪君,马克明等.一种碳纳米管/氧化石墨烯/纳米Fe3O4夹芯杂化 吸波薄膜制备方法,2014.4,授权国家发明专利,
(13)卢少微,高禹,张春旭,曾宪君,聂鹏,王继杰,碳纳米纸增强导电聚合物基复合材料制备方法,2016.7授权国家发明专利,ZL201210073571.9
(14)王晓强,卢少微,马克明,张璐,徐涛,张海军,赵维涛. 多方向碳纳米纸传感器制备方法[P]. 辽宁:ZL201710172762.3
(15)卢少微,陈铎,王晓强,马克明,张璐,孟庆实,徐涛. 利用碳纳米纸传感器监测聚合物基复合材料固化度的方法[P]. 辽宁:ZL201710172762.3
主要设备仪器:
sm125 光纤光栅传感解调仪
sm125 光纤光栅传感解调仪可实现对光纤光栅全光谱扫描和数据采集,提供高精度的绝对波长测量,用于解调布拉格光栅(FBG),长周期光栅(LPG),外腔式光纤法珀干涉仪传感器(EFPI)及其他各种类型的光纤传感器。
Fluke 2638A全能型数据采集器
Fluke 2638A可对传感器温度、电阻等关键信号进行精确测量,为基于碳纳米传感器的复合材料制造工艺及使用服役过程健康监测提供实时动态数据呈现。