卢文龙

姓名：卢文龙
电话：-2509
职称：教授
邮箱：hustwenlong@mail.hust.edu.cn


个人基本情况 卢文龙（Lu Wenlong，Professor），博士，教授，博士生导师，华中科技大学“华中****”。安徽太湖人。华中科技大学机械学院、数字制造装备与技术国家重点实验室教授。入选湖北省楚天****计划、武汉市黄鹤英才（专项）科技创新人才计划、武汉市青年科技晨光计划等。2003年哈尔滨工业大学机械设计制造及其自动化专业本科毕业，获学士学位；2012年英国哈德斯菲尔德大学EPSRC国家先进计量中心精密工程专业博士毕业，获博士学位；2016-2018年，美国伊利诺伊大学香槟分校访问****。兼任全国产品几何技术规范标准化技术委员会委员（国家标准委聘任）、中国图象图形学学会视觉检测专业委员会委员、中国仪器仪表学会机械量测试仪器分会高级会员、中国计量测试学会几何量专业委员会委员、中国机械工程学会微纳制造技术分会委员、中国微米纳米技术学会微纳执行器与微系统分会理事、全国误差与不确定度研究会理事等。
主要从事精密测量技术及仪器、精度分析、摩擦磨损、增材制造等方面的研究工作。先后主持国家自然基金项目3项、国防科工局重大项目课题、973项目子课题、湖北省****基金项目、湖北省技术创新重大专项、湖北省自然基金重点项目等，参与国家重大科学仪器设备开发专项、国防基础科研科学挑战专题等项目。获中国仪器仪表学会技术发明一等奖、黑龙江省自然科学二等奖、黑龙江省高校科学技术一等奖等。


主要研究方向 精密测量技术
光学测量仪器
增材制造
摩擦磨损
精度分析与控制



开设课程 《互换性与技术测量》
《现代质量工程》




近年的科研项目、专著与论文、专利、获奖 承担的科研项目：
1. 基于色散共焦的航空叶片表面测量与评定理论和关键技术研究，国家自然科学基金项目
2. 白光干涉垂直扫描测量仪器与可溯源原子力探针扫描显微镜设计与制作，科技部重大科学仪器设备研发专项
3. 变载荷下可调距螺旋桨关键零件运动副摩擦磨损机理及失效分析，973项目“高服役性能海洋动力定位装备制造的基础研究”子课题
4. 多轴联动精密机床空间运动精度宽谱检测、解析与表征，国防基础科研科学挑战专题
5. 复杂曲面轮廓高速测量仪研制，湖北省技术创新重大专项

教改项目：
1.测控技术及仪器专业学生实践与创新能力培养探索，湖北省教学研究项目，**
2.工程教育认证背景下的测控技术与仪器专业人才培养模式改革及创新研究，华中科技大学教学研究项目，14004.

荣誉与奖励：
华中科技大学青年教师教学竞赛一等奖 2012
华中科技大学教学质量二等奖 2012-2013
华中科技大学优秀教师班主任 2013

代表性著作：
1. Two-dimensional spectral signal model for chromatic confocal microscopy, OPTICS EXPRESS, 2021,29(5):7179-7196
2. A method for simultaneously measuring 6DOF geometric motion errors of a precision rotary stage based on absolute position-distance measurement, OPTICS AND LASERS IN ENGINEERING,2021,138:106420
3. Additive manufacturing of isotropic-grained, high-strength and high-ductility copper alloys, Additive Manufacturing, 2021,38:101751
4. Real-time Jones phase microscopy for studying transparent and birefringent specimens, OPTICS EXPRESS,2020, 28(23):34190-34200
5. Single-shot wavelength-selective quantitative phase microscopy by partial aperture imaging and polarization-phase-division multiplexing, OPTICS EXPRESS, 2020, 28 (23):34825-34834
6. Rapid characterization of nano-scale structures in large-scale ultra-precision surfaces, OPTICS AND LASERS IN ENGINEERING,2020,134: 106200
7. Traceable atomic force microscope based on monochromatic light interference, Precision Engineering, 2020,61:48-54
8. Comparative study on aromatic thermosetting co -polyester (ATSP) coating and nickel -aluminum bronze on under torsional fretting wear, Wear, 2020,454:203290
9. Investigations on torsional fretting wear properties of CuAlNi processed by ultrasonic vibration-assisted milling, TRIBOLOGY INTERNATIONAL,2020,146:106238
10. Characterization of the displacement response in chromatic confocal microscopy with a hybrid radial basis function network, OPTICS EXPRESS, 2019,27(16): 22737-22752
11. Uncertainty-guided intelligent sampling strategy for high-efficiency surface measurement via free-knot B-spline regression modelling, Precision Engineering, 2019, 56:38-52
12. Influence of optical aberrations on the peak extraction in confocal microscopy, Optics Communications, 2019,449:24-32
13. Cell-to-cell influence on growth in large populations, BIOMEDICAL OPTICS EXPRESS,2019, 10(9):4664-4675
14. Fast and accurate mean-shift vector based wavelength extraction for chromatic confocal microscopy, Measurement Science and Technology, 2019,30(11):115104
15. Accurate and efficient height extraction in chromatic confocal microscopy using corrected fitting of the differential signal, Precision Engineering, 2019,56:447-454
16. Corrected parabolic fitting for height extraction in confocal microscopy, OPTICS EXPRESS, 2019,27(3): 3682-3697
17. Impact of surface topography on torsional fretting wear of the blade bearing interface under different lubrication conditions, SURFACE TOPOGRAPHY-METROLOGY AND PROPERTIES,2019,7(1):015017
18. Correction of errors due to uneven intensity distribution and inaccurate phase shifts in prism-based simultaneous phase-shifting interferometry, Applied Optics, 2019, 58(6):1327-1335
19. Gas-atomized copper-based particles encapsulated in graphene oxide for high wear-resistant composites, COMPOSITES PART B-ENGINEERING,2019, 157:131-139
20. Nanodiamond as an effective additive in oil to dramatically reduce friction and wear for fretting steel/copper interfaces, TRIBOLOGY INTERNATIONAL,2019, 129:75-81
21. Wear-triggered self-healing behavior on the surface of nanocrystalline nickel aluminum bronze/Ti3SiC2 composites, APPLIED SURFACE SCIENCE, 2018,436:1038-1049
22. Resolution enhancement for topography measurement of high-dynamic-range surfaces via image fusion, OPTICS EXPRESS,2018,26(26):34805-34819