[1]郭东明,孙玉文,贾振元. 高性能精密制造方法及其研究进展[J]. 机械工程学报,2014,50(11):119-134.
GUO Dongming, SUN Yuwen, JIA Zhenyuan.Methods and Research Progress of High Performance Manufacturing[J]. Journal of Mechanical Engineering,2014,50(11):119-134.
[2]DONG Huiyue, KE Yinglin. Study on Machining Deformation of Aircraft Monolithic Component by FEM and Experiment[J]. Chinese Journal of Aeronautics,2006,19(3):247-254.
[3]LI Yingguang , LIU Changqing, HAO Xiaozhong, et al. Responsive Fixture Design Using Dynamic Product Inspection and Monitoring Technologies for the Precision Machining of Large-scale Aerospace Parts[J]. CIRP Annals, 2015, 64(1):173-176.
[4]LI Yingguang , LIU Xu, GAO James X, et al . A Dynamic Feature Information Model for Integrated Manufacturing Planning and Optimization[J]. CIRP Annals, 2012, 61(1):167-170.
[5]YANG Yiqing , LIU Qiang, ZHANG Bin. Design of a Passive Damper with Tunable Stiffness and Its Application in Thin-walled Part Milling[J]. International Journal of Advanced Manufacturing Technology, 2017, 89:2713-2720.
[6]GUO Dongming,REN Fei,SUN Yuwen.An Approach to Modeling Cutting Forces in Five-axis Ball-end Milling of Curved Geometries Based on Tool Motion Analysis[J]. Transactions of the ASME,Journal of Manufacturing Science and Engineering, 2010,132(4):041004-1-041004-8.
[7]SUN Yuwen, GUO Qiang.Analytical Modeling and Simulation of the Envelope Surface in Five-axis Flank Milling with Cutter Runout[J].Transactions of the ASME,Journal of Manufacturing Science and Engineering,2012,134(2):021010-1-021010-11.
[8]SUN Yuwen, SUN Shuoxue, XU Jinting, et al. A Unified Method of Generating Tool Path Based on Multiple Vector Fields for CNC Machining of Compound NURBS Surfaces[J]. Computer-aided Design, 2017, 91:14-26.
[9]康仁科,马付建,董志刚,等.难加工材料超声辅助切削加工技术[J].航空制造技术, 2012(16):44-49.
KANG Renke, MA Fujian, DONG Zhigang, et al. Ultrasonic Assisted Machining of Difficult-to-Cut Material[J]. Aeronautical Manufacturing Technology,2012(16):44-49.
[10]张迅,董志刚,王毅丹,等.Nomex蜂窝芯直刃尖刀超声切割表面微观形貌特征[J].机械工程学报,2017,53(19):90-99.
ZHANG Xun, DONG Zhigang, WANG Yidan, et al.Charization of Surface Microscopic of Nomex Honeycomb after Ultrasonic Assisted Cutting[J]. Journal of Mechanical Engineering, 2017, 53(19):90-99.
[11]ZHANG Z Y, WANG B, KANG R K, et al. Changes in Surface Layer of Silicon Wafers from Diamond Scratching[J]. CIRP Annals—Manufacturing Technology, 2015, 64:349-352.
[12]ZHANG Z Y, GUO D M, WANG B, et al . A Novel Approach of High Speed Scratching on Silicon Wafers at Nanoscale Depths of Cut[J]. Scientific Reports, 2015, 5:16395.
[13]ZHANG Z Y, HUANG S L, WANG S C, et al . A Novel Approach of High-performance Grinding Using Developed Diamond Wheels[J]. International Journal of Advanced Manufacturing Technology, 2017, 91:3315-3326.
[14]ZHANG Z Y, CUI J F, WANG B, et al . A Novel Approach of Mechanical Chemical Grinding[J]. Journal of Alloys and Compounds,2017(726):514-524.
[15]DONG Z G, GAO S, ZHOU P, et al. Grinding Performance Evaluation of the Developed Chemo-mechanical Grinding (CMG) Tools for Sapphire Substrate[J]. Advanced Materials Research, 2012, 565:105-110.
[16]SHAN K, ZHOU P, ZUO Y S, et al. Analysis of the Polishing Ability of Electrogenerated Chemical Polishing[J].Precision Engineering,2016,47:122-130.
[17]CHEDRIK V ,ISHMURATOV F, ZICHENKOV M, et al. Optimization Approach to Design of Aeroelastic Dynamically-scaled Models of Aircraft[C]// 10th AIAA/ISSMO Multidisciplinary Analysis and Optimization Conference. Albany, New York,2004.
[18]CARLSSON M. Aeroelastic Model Design Using an Integrated Optimization Approach[J]. Journal of Aircraft,2004,41:1523-1529.
[19]YANG Rui, SUN Shiyong, QIAN Wei, et al. A Precise Manufacturing Method of the Composite Structure-similar Flutter Model[J]. Advances in Mechanical Engineering,2014,11:1-8.
[20]杨睿, 张强, 孙士勇,等. 机翼结构相似颤振模型制造的模态频率误差修正方法[J]. 机械工程学报, 2013, 49(8):57-64.
YANG Rui, ZHANG Qiang, SUN Shiyong, et al. Error-correction Method of the Modal Frequency for the Manufacturing of Wing Flutter Model with Structure-similarity[J]. Journal of Mechanical Engineering,2013,49(8):57-64.
[21]闫子彬, 杨睿, 孙士勇,等. 高性能风洞颤振模型的性能精确制造研究[J]. 机械工程学报,2016,52(9):72-78.
YAN Zibin, YANG Rui, SUN Shiyong, et al. Precise Manufacturing of Functional Parameters of Advancing Wind-tunnelflutter Model[J]. Journal of Mechanical Engineering,2016,52(9):72-78.
[22]LABHART T. Polarization-opponent Interneurons in the Insect Visual System[J]. Nature, 1988, 331(6155):435-437.
[23]褚金奎, 赵开春.仿昆虫复眼偏振敏感测角光电模型研究[J]. 微纳电子技术, 2005,42(12):541-545.
CHU Jinkui, ZHAO Kaichun.Study of Angle Measurement Optoelectronic Model on Emulating Polarization-sensitive Compound Eye of Insect[J]. Micronanoeletronic Technology,2005,42(12):541-545.
[24]CHU J K, ZHAO K C, ZHANG Q, et al. Construction and Performance Test of a Novel Polarization Sensor for Navigation[J]. Sensors and Actuators A, 2008, 148(1):75-82.
[25]CHU Jinkui, MENG Fantao, HAN Zhitao, et al . Large Area Mold Fabrication for Nanoimprint Lithography Using Electron Beam Lithography[J]. Science China: Technological Sciences, 2010, 53(1):248-252.
[26]CHU Jinkui, WANG Zhiwen, ZHANG Yingjie,et al. Integrated Blue Sensitive Polarization Dependent Photodetector[J]. Journal of Micro/Nanolithography, MEMS, and MOEMS,2013,12(3):033005.
[27]CHU Jinkui, ZHANG Yingjie, WANG Zhiwen, et al. Polarizing Color Filter Based on Subwavlength Metallic Grating with Grooves Carved in[J]. Optics Communications,2014,315:32-36.
[28]CHU Jinkui, WANG Zhiwen, GUAN Le, Integrated Polarization Dependent Photodetector and Its Application for Polarization Navigation[J]. IEEE Photonics Technology Letters,2014,26(5):469-472.
[29]WANG Y L, CHU J K, ZHANG R, et al. A Novel Autonomous Real-time Position Method Based on Polarized Light and Geomagnetic Field[J]. Science Report,2015,5:9725.
[30]雷明凯,郭东明. 高性能表面层制造:基于可控表面完整性的精密制造[J]. 机械工程学报,2016,52(17):187-196.
LEI Mingkai, GUO Dongming.High-performance Surface Layer Manufacturing: a Precision Processing Method Based on Controllable Surface Integrity[J]. Journal of Mechanical Engineering,2016,52(17):187-196.
[31]LEI M K, ZHU X P, GUO D M. Reducing Geometrical, Physical and Chemical Constraints in Surface Integrity of High Performance Stainless Steel Components by Surface Modification[J]. Journal of Manufacturing Science and Engineering—Transactions of the ASME,2016,138:044501-1-6.
[32]ZHU X P, DU P C, MENG Y, et al. Solution to Inverse Problem of Manufacturing by Surface Modification with Controllable Surface Integrity Correlated to Performance: a Case Study of Thermally Sprayed Coatings for Wear Performance[J]. Journal of Tribology—Transactions of the ASME,2017(138):061604.
[33]ZHU X P, ZHANG F G, LEI M K, et al . Material Loading in Inverse Surface Integrity Problem Solution of Cemented Carbide Component Manufacturing by Surface Modification[J]. Procedia CIRP, 2016 (45):235-238.
[34]ZHU X P, ZHANG F G , SONG T K , et al . Nonlinear Wear Response of WC-Ni Cemented Carbides Irradiated by High-intensity Pulsed Ion Beam[J]. Journal of Tribology—Transactions of the ASME,2014(136):011603.
[35]LEI M K, ZHU X P, LI Y P, et al . Significance of Surface Integrity on High Performance Manufacturing by Surface Modification[J]. The International Journal of Advanced Manufacturing Technology,2016(82):1831-1842. |