[1]Xue Ma, Yao Huang, Yanru Huang, Zhanwei Liu*, Zhenzhen Li*, and Jerzy M. Floryan, Experiments on Marangoni spreading – evidence of a new type of interfacial instability, Journal of Fluid Mechanics, 2023,958: A33-1
[2]Yao Huang, Xianfu Huang*, Menglin Zhong, Zhanwei Liu*, A bilayer color digital image correlation method for the measurement of the topography of a liquid interface, Optics and Lasers in Engineering 160 (2023) 107242
[3]Zhao J, Li Y, Zhang H, Liu Z*, et al. Characterization of Thermo-mechanical parameters of Nickel-Based single crystal superalloys under high-temperature by modified I-DIC method[J]. Optics & Laser Technology, 2023, 163: 109371.
[4]Miao Zhou; Chuanqi Cheng; Cunku Dong*; Liyang Xiao; Yao Zhao; Zhanwei Liu*; Xueru Zhao*; Kotaro Sasaki; Hao Cheng; Xiwen Du; Jing Yang*; Dislocation Network‐Boosted PtNi Nanocatalysts Welded on Nickel Foam for Efficient and Durable Hydrogen Evolution at Ultrahigh Current Densities, Advanced Energy Materials , 2022, 13(1): 2202595
[5] Wei Feng, Zhuangzhuang Mao, Yang Yang, Heng Ma, Kai Zhao, Chaoqi Qi, Ce Hao, Zhanwei Liu* , Huimin Xie, Sheng Liu, Online defect detection method and system based on similarity of the temperature field in the melt pool, Additive Manufacturing 54 (2022) 102760
[6] Zhao Y, Yang Y, Wen HH, Liu C, Huang XF, Liu ZW*, Evaluation of interfacial misfit strain field of heterostructures using STEM nano secondary moiré method, Physical Chemistry Chemical Physics, 2022, 24(17): 9848-9854.(封面文章)
[7] Heng Ma, Zhuangzhuang Mao, Wei Feng, Yang Yang, Ce Hao, Jiangfan Zhou,Sheng Liu, Huimin Xie,Zhanwei Liu* Online in-situ monitoring of melt pool characteristic based on a single high-speed camera in laser powder bed fusion,Applied Thermal Engineering 211 (2022) 118515
[8] Zhu, Jianguo,Mao, Zhuangzhuang,Wu, Dongliang,Zhou, Jiangfan,Jiao, Dacheng,Shi, Wenxiong,Zhu, Wenying,Liu, Zhanwei*, Progress and Trends in Non-destructive Testing for Thermal Barrier Coatings Based on Infrared Thermography: A Review, Journal of Nondestructive Evaluation,(2022) 41:49
[9]Su Cai, Dongliang Wu, Jiangfan Zhou, Chitao Zhang, Zhanwei Liu*, Sheng Liu* Improvement and application of miniature Hopkinson bar device based on series-parallel coil array electromagnetic launch, Measurement 186 (2021) 110203
[10] Zhao Y, Wu DL, Zhou JF, Wen HH, Liu ZW, Wang QH, & Liu C, STEM multiplication nano-moiré method with large field of view and high sensitivity, Nanotechnology,2021,32(47), 475705.
[11] Guangzhi Zeng, Ruili Zu, Dongliang Wu, Wenxiong Shi, Jiangfang Zhou, Jiaye Zhao, Zhanwei Liu*, Huimin Xie, Sheng Liu, A hybrid method for the online evaluation of stress fields in metal additive manufacturing, Experimental Mechanics 61, pages1261–1270 (2021)
[12] Zu RL, Wu DL, Zhou JF, Liu ZW, Xie HM and Liu S, Advances in online detection technology for laser additive manufacturing: A review, 3D Printing and Additive Manufacturing, 2021.10
[13]Hao C, Liu ZW*, Xie HM, Zhao K, Liu S*,Real-time measurement method of melt pool temperature in the directed energy deposition process,Applied Thermal Engineering,2020: 115475.
[14]Zhu YB, Wen HH, Zhang HY, Liu ZW*, Liu C, Liu SM. Real-time in situ observation of extended defect evolution near a crack tip in GaSb crystal under thermal loading. Applied Surface Science, 2020, 515: 145934.
[15]Zhang HY*, Dai XL, Wen HH, Liu JH, Liu ZW, and Xie HM, Geometric phase analysis method using a subpixel displacement match algorithm, Applied Optics,2020, 59(8),2393-2399
[16]Zhong ML, Huang XF*, Dong HM, Liu ZW*, shape measurement of complex transparent liquid surfaces using monoscopic deformed fringe transmissometry, Measurement Science and Technology,30 (2019) 115201;
[17] Huang XF, Dong HM, Liu ZW*, Zhao YP*. Probing micro-Newton forces on solid/liquid/gas interfaces using transmission phase shift. Langmuir, 2019, 35(16): 5442-5447. (封面文章)
[18] Zhang HY, Liu ZW*, Yang XB and Xie HM*, Interface failure behavior of YSZ thermal barrier coatings during thermal shock, Journal of Alloys and Compounds, 2019, 779: 686-697;
[19] Dong HM, Liu ZW*, Liu SL and Wu WJ,Mode Shape Experimental Characterization Technique of Liquid Sloshing in Complex Shape Tank, AIAA Journal, 2019,57(4)1773-1780;
[20] Zhao JY, Hou Y, Liu ZW*,et.al, Optical distortion evaluation based on the Integrated Colour CCD Moiré Method, Optics Express, 2019,27 (24/25) , 34626-638;
[21] Zhu YB, Wen HH, Zhang HY, Liu, ZW*, Application of digital phase shifting moiré method in interface and dislocation location recognition and real strain characterization from HRTEM images, Optics Express 2019,27(25) 36990-37002.
[22] Jiao DC, Liu ZW*, Shi WX, Xie HM, Temperature fringe method with phase-shift for the 3D shape measurement, Optics and Lasers in Engineering 112 (2019) 93–102
[23] Wen HH, Zhang HY, Liu ZW*, Liu C*, Liu SM, Yang XA, Liu FQ, and Xie HM*,Quantitative evaluation of the interface lattice quality of a strain superlattice by strain analysis,Nanoscale, 2018,10(37): 17567-17575 (封面文章)
[24] Wen HH, Zhang HY, Liu ZW*, Liu C*, Liu SM, Yang XA, Liu FQ, and Xie HM*, Stress mapping of a strain superlattice using scanning moiré fringe imaging, Applied Physics Letters, 2018,113, 031905
[25] Jiao DC, Liu ZW*, Shi WX, Xie HM, Exact Localization of Debonding Defects in Thermal Barrier Coatings,AIAA JOURNAL,2018,56(9):3691-3700;
[26] Zhu WY, Liu ZW*, Jiao DC, Xie HM*, Eddy Current Thermography with Adaptive Carrier Algorithm for Non-destructive Testing of Debonding Defects in Thermal Barrier Coatings,Journal of Nondestructive Evaluation (2018) 37:31
[27] Yin YY, Qi R, Zhang HY, Xi SB, Zhu YB, Liu ZW*, Microstructure design to improve the efficiency of thermal barrier coatings, Theoretical & Applied Mechanics Letters 8 (2018) 1-6
[28]Jiao DC, Shi WX, Liu ZW*, Xie HM *, Laser Multi-mode Scanning Thermography Method for Fast Inspection of Micro-cracks in TBCs Surface, Journal of Nondestructive Evaluation (2018) 37:30
[29] Hou Y, Zhang HY, Zhao JY, He J, Qi H, Liu ZW*, Guo BQ*, Camera lens distortion evaluation and correction technique based on a colour CCD moiré method,Optics and Lasers in Engineering 110 (2018) 211–219;
[30] Zhao JY, Wen HH, Liu ZW*, Rong JL and Xie HM,Single-Camera Displacement Field Correlation Method for Centrosymmetric 3D Dynamic Deformation Measurement,Measurement Science and Technology,29 (2018) 055401
[31]Dong J, Liu ZW*, Gao JX. 3D deformation measurement of soft material under indentation using improved diffraction-assisted image correlation, Experimental Mechanics, (2018) 58:87–98;
[32] Jiao DC, Liu ZW*, Shi WX, Xie HM, Linear laser fast scanning thermography NDT for artificial disbond defects in thermal barrier coatings, Optics Express, 2017,25:31790-31801;
[33]Zhang HY, Wen HH, Liu ZW*, Zhan Q, Xie HM*. TEM nano-Moiré evaluation for invisible lattice structure near grain interface, Nanoscale,2017, 9: 15923–15933;
[34]Wen HH, Liu ZW*, Li CW, He X, Rong JL, Huang XF, Xie HM*., Centrosymmetric 3D Deformation Measurement using Grid Method with a Single-Camera, Experimental Mechanics, 2017,57:537–546
[35] Dong J, Liu ZW*, Gao JX. Multi-Parameter Inversion and Thermo-Mechanical Deformation Decoupling using I-DIC, Experimental Mechanics, 2017, 57(1): 31-39 ,
[36]Tang HY, Dong HM, Liu ZW*. Study on dynamic deformation synchronized measurement technology of double-layer liquid surfaces, Optics and Lasers in Engineering 98 (2017) 205–21;
[37]Q. Zhang, Z. Liu*, H. Xie*, K. Ma, and L. Wu, Fabrication of thermal-resistant gratings for high-temperature measurements using geometric phase analysis, REVIEW OF SCIENTIFIC INSTRUMENTS 87, 123104 (2016);
[38]Zhang HY,Liu ZW*, Wen HH,Xie HM*,C Liu, Subset geometric phase analysis method for deformation evaluation of HRTEM images, Ultramicroscopy, 171:34-42; 2016
[39]Liu SL, Liu ZW*, et al. Double transmission-mediums based geometric phase analysis for determining the two surface profiles of transparent object. Optics and Lasers in engineering,80:17-23, 2016
[40]Liu ZW*,Zhang HY,Xie HM,Shear Band Evolution in Polymer Bonded Explosives Subjected to Punch Loading, Strain, 52: 459–466; 2016.
近年来主要授权国家发明专利/软件著作权/团体标准
[1]刘战伟、郝策、谢惠民、刘胜,基于单相机的温度场测量系统及方法,发明专利授权号: ZL 201810769907.2
[2]刘战伟、张弛涛、汪小明、侯岳,一种磁阻式拉压双层微型霍普金森杆系统,发明专利授权号:ZL201810059822.5
[3]刘战伟、朱文颖,基于应力波波场检测波速材料状态及损伤程度的方法, 发明专利授权号: ZL 201610727055.1
[4]刘战伟、张琦、谢惠民,高反差高强度耐高温格栅制作技术,发明专利授权号:ZL201610298692.1
[5]刘战伟、董杰、刘爽等, 基于微小负阶跃力的微力传感器动态标定系统及方法,发明专利授权号ZL2015107943650;
[6]刘战伟、董杰、高建新、谢惠民,一种基于仿射变换最佳匹配图像的热力参数识别方法, 发明专利授权号ZL201510778335.0;
[7]刘战伟、石文雄、朱文颖、谢惠民,适用于TBC脱粘缺陷快速检测线激光扫描热波成像方法,发明专利授权号ZL201510794804.8;
[8]刘战伟, 杨洋, 石文雄, 贮箱液体推进剂液面形貌与剂量动态测量方法和系统, 发明专利授权号: ZL201410212018.8. 12
[9]刘战伟、温辉辉、李传崴、谢惠民,基于单幅正交栅线的宏微观三维变形测量方法,发明专利授权号:ZL201410362863.3
[10]刘战伟, 杨洋, 田强, 赵尔强, 实时监测柔性绳索载荷和温度的梭形传感器, 发明专利授权号: ZL201310516280.7.
[11]刘战伟, 杨洋, 田强, 赵尔强, 基于FBG的柔性绳索载荷和温度同时测量传感器, 发明专利授权号: ZL201310516293.4.
[12]刘战伟,吴辰龙,张宏业,用于曲面变形测量的彩色CCD显微云纹法,发明专利授权号:ZL201310395011.X
[13]刘战伟,于琦,具有预加载的微型动态拉压实验系统,发明专利授权号:ZL201310128419.0
[14]刘战伟、郭敬,一种基于数字散斑相关技术的透明液面微形貌测量方法和系统,发明专利授权号ZL201310355784.5
[15]刘战伟、陈喜民、吕新涛,磁阻式拉压一体化微型霍普金森杆装置,发明专利授权号:ZL201210367229.X
[16]邓智、刘战伟、黄先富,一种小型自对心单向加载双轴拉压试验装置,发明专利授权号:ZL201210442034.7
[17]刘战伟、杨晓波、谢惠民,用于界面高温变形测量的微尺度散斑制作方法,发明专利授权号:ZL201210146916.9
[18]刘战伟、王一沛等,微型试件冲击加载与动态力学性能测量系统及方法,发明专利授权号: ZL201010608781.4
[19]刘战伟、张宏业,晶格/点阵图像的重建及变形计算软件V1.0,证书号:软著登字第3040094号,登记号2018SR710999
[20]刘战伟、杨洋、石文雄、黄先富, 贮箱液体推进剂液面形貌与剂量计算程序软件V1.0, 证书号:软著登字第0766039号, 登记号: 2014SR096795.
[21]刘战伟、郭敬,液面形貌积分迭代程序软件,证书号:软著登字第0630925号,登记号:2013SR125163;
[22] 刘战伟、娄新豪,李传崴, Quick GPA 程序[QGPA]V1.0,证书号:软著登字第0441346号,登记号:2012SR073310;
[23]刘战伟、黄耀、黄先富、吴东亮,基于双层图形透射成像的液面变形和形貌测量方法和系统, 发明专利授权号:ZL202110691868.0
[24]刘战伟、李伊炀、赵家业、周江帆、吴东亮、刘胜,基于图像自动分区的非均质材料多参数反演方法及装置, 发明专利授权号:ZL202110598649.8, 2022.05.03
[25]刘战伟,马恒,谢惠民,刘胜,高速高分辨高精度超高温熔池温度场在线监测装置与方法, 发明专利授权号:ZL202011003816.1, 2022.02.08
[26]刘战伟,蔡苏,一种自适应类型与尺寸可变试件的打磨夹具, 发明专利授权号:ZL202011142588.6, 2021.10.15
[27]刘战伟, 封伟, 赵家业,刘胜, 基于像素化双波段窄带滤光片阵列的温度测量系统及方法, ZL202010123464.7, 2021.07.09
[28]刘战伟; 郝策; 谢惠民; 刘胜; 一种基于单相机比色测温系统的优化测温方法, 2019-12-18, 中国,ZL201911310921.7
[29]刘战伟; 封伟; 毛壮壮; 马恒; 谢惠民; 石文雄; 耿传庆; 刘胜; 李辉; 胡平; 刘洋; 彭志鑫; 李中伟; 赵凯; 胡晓东; 邹晶; 赵金涛; 文世峰; 宋长辉; 何巍; 申胜男 ; 增材制造 金属构件缺陷在线检测 热能激励温度响应法(团体标准), T/GAMA 23—2022, 广东省增材制造协会团体标准, 2022
[30]刘战伟; 毛壮壮; 封伟; 马恒; 郝策; 谢惠民; 石文雄; 耿传庆; 刘胜; 李辉; 胡平; 刘洋; 彭志鑫; 李中伟; 赵凯; 胡晓东; 邹晶; 赵金涛; 文世峰; 宋长辉; 何巍; 申胜男; 增材制造 熔池特征测量 单相机比色法 (团体标准), T/GAMA 24—2022, 广东省增材制造协会团体标准, 2022
