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[1]Yang, Jinghao.Precision calibration method for binocular vision measurement systems based on arbitrary transl...[J],MEASUREMENT SCIENCE TECHNOLOGY,2022,27(10)
[2]马建伟.Precision coupling system modelling based on rough set and support vector machine[J],International Journal of Service and Computing Oriented Manufacturing,2022,1(1):92-102
[3]贾振元.Pre-compensation for continuous-path running trajectory error in high-speed machining of parts ...[J],Chinese Journal of Mechanical Engineering,2022,30(1):37-45
[4]卢晓红.Predicting the surface hardness of micro-milled nickel-base superalloy Inconel 718[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,93(1-4):1283-1292
[5]贾振元.Prediction and investigation of thrust force in drilling CFRP composites with double point angle ...[A],MSEC2017-2986,2022
[6]Wang, DX.Preparing the Coloring data for the rapid formation of surface colored models[A],International Conference on Mechanical Engineering and Mechanics,2022,1279-1282
[7]Ye, Fan.Profile Measurement Method of Aviation Part Based on Step Boundary Model[A],TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018),2022,10806
[8]卢晓红.Queue Theory Based Algorithm for Material Lean Scheduling in Heavy Weight Parts Workshop[A],4th International Conference on Wireless Communications, Networking and Mobile Computing,2022,7484-7487
[9]王福吉.Quick segmentation for complex curved surface with local geometric feature based on IGES and Op...[J],ADVANCES IN ENGINEERING SOFTWARE,2022,87:86-96
[10]贾振元.Radial gap measurement and manufacturing error evaluation for small hole machined by micro-EDM[J],International Journal of Manufacturing Technology and Management,2022,22(2):94-106
[11]马建伟.Reduction of the Contouring Error in High-Feed-Speed Machining by Real-Time Tracking-Error Comp...[A],MECHANICS AND MATERIALS SCIENCE,2022,470-476
[12]卢晓红.Realization of Handwheel and Tool Setting of Micro Milling Machine Based on PMAC[A],International Conference on Mechatronics and Intelligent Materials,2022,211-212:978-+
[13]贾振元.Real-Time Contour-Error Estimation Methods for Three-Dimensional Free-Form Parametric Curves in...[J],International Journal of Precision Engineering and Manufacturing,2022,19(2):173-182
[14]贾振元,郭强.Redesigned Surface Based Machining Strategy and Method in Peripheral Milling of Thin-walled Par...[J],Chinese Journal of Mechanical Engineering,2022,23(3):282-287
[15]王放.Research on piezoelectric quartz under multidimensional forces[J],Materials Physics and Mechanics,2022,22(1):94-100
[16]王飞.RESEARCH ON PIEZOELECTRIC QUARTZ UNDER MULTIDIMENSIONAL FORCES[J],MATERIALS PHYSICS AND MECHANICS,2022,22(1):94-100
[17]张军.Research on Piezoelectric Six-Dimensional Heavy Force Sensor with Four-Point Supporting Structure[A],INTELLIGENT ROBOTICS AND APPLICATIONS,2022,314(1):314-321
[18]Li, Y..Research on piezoelectric six-dimensional heavy force sensor with four-point supporting structure[J],LECTURE NOTES IN ARTIFICIAL INTELLIGENCE,2022,5314 LNAI(PART 1):314-321
[19]Li, Ying-Jun.Research on force-sensing element's spatial arrangement of piezoelectric six-component force/to...[J],MECHANICAL SYSTEMS AND SIGNAL PROCESSING,2022,23(8):2687-2698
[20]贾振元.Research on a novel force sensor based on giant magnetostrictive material and its model[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,509(5):1760-1767
[21]马建伟.Research on sample point repairing for free-form curved surface[J],International Journal of Modelling Identification and Control,2022,22(2):178-184
[22]卢晓红.Reliability Oriented Performance Testing System of Chain-type Magazine and ATC[J],Sensors & Transducers,2022,177(8):113-121
[23]贾振元.RESEARCH AND DEVELOPMENT OF PURCHASE MANAGEMENT SYSTEM FOR CHINESE MEDIUM AND SMALL MANUFACTURI...[J],INTERNATIONAL JOURNAL OF INDUSTRIAL ENGINEERING THEORY APPLICATIONS AND PRACTICE,2022,18(3):140-150
[24]贾振元.Researches on the computer digital control system of giant magnetostrictive actuator[J],MECHATRONICS,2022,19(7):1191-1196
[25]贾振元.Research on job-shop scheduling problem based on genetic algorithm[J],INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH,2022,49(12):3585-3604
[26]刘巍.Remote-controlled flexible pose measurement system and method for a moving target in wind tunne...[J],Chinese Journal of Aeronautics,2022,31(1):89-98
[27]贾振元.Research on Control Strategy for Grinding Machine of Radome[A],Advances in Grinding and Abrasive Processes: Selected Papers from the 12th Grinding and Machining Conference,2022,258-259:720-724
[28]贾振元.Research on control strategy for grinding machine of radome[J],KEY ENGINEERING MATERIALS,2022,259-2:720-724
[29]郭东明.Research on control system of geometric parameter measuring instrument for missile radome[J],Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology,2022,40(5):573-576
[30]马建伟.Research of discrete curvature estimation method based on local space parabola[A],The 6th International Conference on Mechanical and Electronics Engineering,2022,577:802-805
[31]Zhang, SF.Research on microwave and millimeter-wave IPD measurement system for radome[A],4th International Conference on Microwave and Millimeter Wave Technology,2022,711-714
[32]张军.Research on dimension coupling of piezoelectric three-component force unit based on sensor asse...[J],Advances in Mechanical Engineering,2022,11(5)
[33]张军.Research on effect of seed crystal on piezoelectric effect characteristics in quartz wafer[J],AUSTRALIAN JOURNAL OF MECHANICAL ENGINEERING,2022
[34]刘巍.Research on parallel load sharing principle of piezoelectric six-dimensional heavy force/torque...[J],MECHANICAL SYSTEMS AND SIGNAL PROCESSING,2022,25(1):331-343
[35]贾振元.Research on the Key Technology of a Testing System of Piezomagnetic Force Transducer[J],JOURNAL OF TESTING AND EVALUATION,2022,37(6):556-565
[36]Wang, Xulin.Research on simulation of nanosecond pulsed laser processing for TC4 titanium alloy: A novel mode...[J],Optics and Laser Technology,2022,147
[37]贾振元.Research on the characteristics of a piezoelectric balance for the dynamic motion device[J],International Journal of Industrial and Systems Engineering,2022,18(3):364-381
[38]贾振元.Research on the structure and signal transmission of rotary piezoelectric dynamometer[J],Sensors and Transducers,2022,152(5):1-10
[39]刘慧芳.Research on the constant output force control system for giant magnetostrictive actuator distur...[J],MECHATRONICS,2022,22(7):911-922
[40]任宗金.Research on the dynamic error and acceleration compensation for the piezoelectric sensor[J],Sensors and Transducers,2022,153(6):118-123
[41]贾振元.Research on Vibration Measurement System for Micro-milling Machine[J],International Journal of Acoustics and Vibration,2022,23(4):454-460
[42]马建伟.Sampling of IGES trimmed surface for an online inspection system[J],INTERNATIONAL JOURNAL OF MATERIALS PRODUCT TECHNOLOGY,2022,46(4):232-243
[43]张军.Rotation Calibration Method for Thrust Based on Force Error Analysis[J],EXPERIMENTAL TECHNIQUES,2022,44(1):85-98
[44]王福吉.Secondary cutting edge wear of one-shot drill bit in drilling CFRP and its impact on hole quali...[J],COMPOSITE STRUCTURES,2022,178:341-352
[45]贾振元.Self-learning fuzzy control of scan tracking measurement in copying manufacture[J],TRANSACTIONS OF THE INSTITUTE OF MEASUREMENT AND CONTROL,2022,32(3):307-318
[46]卢晓红.Simulation Study of Multi-agent-based Network Manufacturing ASP System[A],IEEE International Conference on Service Operations and Logistics and Informatics,2022,2:1849-1853
[47]Ma Xin.Simulative technology for auxiliary fuel tank separation in a wind tunnel[J],Chinese Journal of Aeronautics,2022,29(3):608-616
[48]Wang, Shasha.Simultaneous optimization of fixture and cutting parameters of thin-walled workpieces based on ...[J],SIMULATION,2022,94(1):67-76
[49]卢晓红.Simulation of micro-milling Inconel 718 considering scale effect[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,108(3):671-681
[50]Su, Youliang.Size effect of depth of cut on chip formation mechanism in machining of CFRP[J],COMPOSITE STRUCTURES,2022,164:316-327
[51]Wang, Linping.Solving Complete Job Shop Scheduling Problem Using Genetic Algorithm[A],7th World Congress on Intelligent Control and Automation,2022,8307-8310
[52]Wang, DX.Slicing of CAD models in color STL format[J],COMPUTERS IN INDUSTRY,2022,57(1):3-10
[53]卢晓红.Stability analysis for micro-milling nickel-based superalloy process[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,86(9-12):2503-2515
[54]卢晓红.Strain hardening properties and the relationship between strain and hardness of Inconel 718[J],International Journal of Manufacturing Research,2022,13(4):330-341
[55]贾振元.Strain hysteresis of giant magnetostrictive transducer under varied external stress and magneti...[A],9th International Symposium on Advances in Abrasive Technology,2022,655-660
[56]贾振元.Statistical Description of Debris Particle Size Distribution in Electrical Discharge Machining[J],Chinese Journal of Mechanical Engineering,2022,24(1):67-72
[57]贾振元.Stability of micro-milling thin-walled part process[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,112(5-6):1529-1544
[58]马建伟.Spindle Speed Selection for High-Speed Milling of Titanium Alloy Curved Surface[J],MATERIALS AND MANUFACTURING PROCESSES,2022,29(3):364-369
[59]马建伟.Stability recognition for high-speed milling of TC4 thin-walled parts with curved surface[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,91(5-8):2819-2829
[60]孙玉文.Spiral cutting operation strategy for machining of sculptured surfaces by conformal map approac...[J],JOURNAL OF MATERIALS PROCESSING TECHNOLOGY,2022,180(1-3):74-82
[61]李栋.Stress analysis and simulation on piezoelectric quartz wafer under multidimensional forces[J],Materials Physics and Mechanics,2022,21(1):17-28
[62]Liu H.-F..Study on a giant magnetostrictive actuator with constant output force[J],International Journal of Industrial and Systems Engineering,2022,13(2):197-218
[63]任宗金.Study on a method of dynamic response function for the piezoelectric measurement system[J],Sensors and Transducers,2022,153(6):111-117
[64]王晓煜.Study of Giant Magnetostrictive Actuator Optimization PID Controller Based on System Identifica...[A],International Conference on Information Technology and Scientific Management,2022,887-+
[65]王福吉.Study of Giant Magnetostrictive Thin Films with Gas Sensitive Layer for Use as Gas Concentratio...[J],IEEE SENSORS JOURNAL,2022,12(6):1703-1708
[66]王福吉.Study on Characteristics of CU Substrate Giant Magnetostrictive Thin Film based in the Directio...[A],International Conference on Optoelectronics and Microelectronics (ICOM),2022,423-427
[67]马建伟.Study of machining parameter optimization in high speed milling of Inconel 718 curved surface b...[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,75(1-4):269-277
[68]王福吉.Structural optimization method of multitooth cutter for surface damages suppression in edge tri...[J],Journal of Manufacturing Processes,2022,46:204-213
[69]贾振元.Study on the optimization for electrical discharge machining micro and small holes[J],Jixie Gongcheng Xuebao/Chinese Journal of Mechanical Engineering,2022,39(2):106-112
[70]郭东明.Study on the CNC Grinding Machine Tool for the Radome[A],Advances in Grinding and Abrasive Processes: Selected Papers from the 12th Grinding and Machining Conference,2022,258-259:677-681
[71]郭东明.Study on the CNC grinding machine tool for the radome[J],KEY ENGINEERING MATERIALS,2022,259-2:677-681
[72]刘华.Study on the design method of giant magnetostrictive force sensor[A],2011 IEEE International Conference on Mechatronics and Automation, ICMA 2011,2022,1098-1103
[73]董志刚.Study on the Subsurface Damage of Single Crystal MgO Substrates[A],11th International Symposium on Advances in Abrasive Technology,2022,389-390:7-12
[74]董志刚.Study on the subsurface damage of single crystal MgO substrates[J],KEY ENGINEERING MATERIALS,2022,389-390:7-12
[75]Lin, Sheng.Study on the dynamic character of the six-axis heavy force sensor[A],International Conference on Measurement, Instrumentation and Automation (ICMIA 2012),2022,241-244:938-+
[76]刘华.Study on hysteresis model of giant magnetostrictive sensing actuator based on neural network[J],中国机械工程,2022,22(5):570-575
[77]马建伟.Subregional Process Method with Variable Parameters Based on a Potential Field in Slow Tool Servo...[J],Journal of Manufacturing Science and Engineering, Transactions of the ASME,2022,144(4)
[78]Song, De-Ning.Synergistic real-time compensation of tracking and contouring errors for precise parametric cur...[J],PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C JOURNAL OF ME,2022,232(19):3367-3383
[79]马建伟.Surface re-design modelling technology for parts with complex curved surface based on performance...[A],Proceedings of the 11th International Conference on Frontiers of Design and Manufacturing,2022
[80]卢晓红.Surface roughness prediction model of micro-milling Inconel 718 with consideration of tool wear[J],International journal of nanomanufacturing,2022,12(1):93-108
[81]贾振元.远程控制快速成型加工技术研究[J],大连理工大学学报,2022,4:472-476
[82]房庆华.轴用压电式六维大力值测力仪分载研究[J],仪器仪表学报,2022,2:439-444
[83]刘巍.采用复合式靶标的近景大视场相机标定方法[J],红外与激光工程,2022,7:0717005-1-0717005-7
[84]王福吉.钻削CFRP的双顶角钻头磨损及抑制新方法[J],机械工程学报,2022,54(15):171-179
[85]刘巍.难加工合金微细通道电火花加工工艺规律研究[J],大连理工大学学报,2022,6:838-845
[86]王福吉.难磁化轴方向低频磁场驱动悬臂梁式超磁致伸缩薄膜的振动特性研究[A],第五届全国振动利用工程学术会议暨第四次全国超声电机技术研讨会,2022,312-315
[87]高菲.集成式相敏检波电路的研究[J],仪表技术,2022,06:42-43+47
[88]卢晓红.面向协同设计的图档管理系统设计[J],组合机床与自动化加工技术,2022,4:101-103,108
[89]孙晶.面向重大装备设计制造的协同育人培养体系构建[J],创新与创业教育,2022,9(3):112-115
[90]王战春.面向可重构制造系统的敏捷夹具设计[J],机械设计与制造,2022,2:57-59
[91]刘巍.面向大型零部件的三维形面高精度测量方法[J],红外与激光工程,2022,3:244-252
[92]郭东明.面向导弹天线罩精密加工的三维曲面重构[J],机械工程学报,2022,9:92-95
[93]孙晶.面向工程教育的毕业要求指标体系构建与实践[J],实验室科学,2022,20(6):229-234
[94]贾振元.面向应用服务提供商服务的区域网络化制造系统[J],计算机集成制造系统,2022,5:709-714
[95]郭东明.面向快速制造的特种加工技术[A],我国先进制造技术发展战略学术研讨会,2022,137-141
[96]郭东明.面向快速制造的特种加工技术[J],中国机械工程,2022,1:206-211
[97]王东兴.面向快速原形制造的彩色模型数字表述方法[J],机械设计与研究,2022,18(2):62-63
[98]于涛.面向ASP模式的远程机械设计服务系统[J],制造业自动化,2022,27(7):4-6,26
[99]贾振元.面向中小制造企业多种BOM并行的构建和应用[J],CAD CAM与制造业信息化,2022,12:24-26
[100]刘巍.高斯混合分布激光中心线提取方法[J],激光与红外,2022,11:1397-1402
[101]刘巍.风洞模型主动抑振器的设计与实验[A],2014全国第十届精密工程学术研讨会(PES10`14),2022,55-65
[102]刘巍.风洞模型主动抑振器的设计与实验[J],光学精密工程,2022,10:2895-2901
[103]刘巍.风洞模型位姿测量方法[A],中国仪器仪表学会第十六届青年学术会议,2022,61-61
[104]鲁继文.风洞模型支杆系统设计及振动主动控制[J],计测技术,2022,38(4):10-16
[105]贾振元.高性能复杂曲面零件测量-再设计-数字加工一体化加工方法[J],机械工程学报,2022,19:126-132
[106]郭东明.高性能精密制造方法及其研究进展[J],机械工程学报,2022,11:119-134
[107]任仲伟.高速飞行器回转体部件精密磨削工艺参数优化设计[J],组合机床与自动化加工技术,2022,9:79-81,84
[108]贾振元.功能材料驱动的微执行器及其关键技术[J],机械工程学报,2022,11:61-67
[109]卢晓红.龙门刨床平面定位可调定位夹具的设计[J],组合机床与自动化加工技术,2022,3:55-58
[110]王晓煜.龙门加工中心横梁部件的拓扑优化设计与分析[J],制造技术与机床,2022,11:64-68
[111]贾振元.高等院校机械工程专业青年教师工程实践能力培养的探索和实践[J],教育教学论坛,2022,8:35-36,37
[112]王殿龙.卓越工程师教育培养计划企业阶段的培养实践[J],教育教学论坛,2022,6:159-159,160
[113]卢晓红.动力刀架刀盘结构参数优化[J],组合机床与自动化加工技术,2022,4:82-85,90
[114]金雷.压电力传感器晶片与电极接触刚度影响研究[J],机械工程学报,2022,22:15-23,30
[115]贾振元.压磁传感器压力检测的交-直变换技术研究[J],压电与声光,2022,2:314-317
[116]贾振元.压磁传感器结构设计的有限元分析[J],中国机械工程,2022,20(16):1965-1969
[117]贾振元.压磁式测力传感器线性度和灵敏度实验研究[J],仪表技术与传感器,2022,9:15-17
[118]贾振元.压磁式测力传感器重复特性实验[J],仪表技术与传感器,2022,6:4-7
[119]郭沛飞.压磁效应及其在传感器中的应用[J],压电与声光,2022,23(1):26-29
[120]钱宝伟.双顶角钻头钻削CFRP复合材料的刀具磨损机制[J],复合材料学报,2022,4:749-757
[121]卢晓红.双环盘式刀库结构参数优化[J],组合机床与自动化加工技术,2022,1:92-95
[122]杨景豪.双目立体视觉测量系统的标定[J],光学精密工程,2022,2:300-308
[123]贾振元.双目视觉测量中等匹配点的光条中心提取[J],光学精密工程,2022,7:1582-1591
[124]郭东明.可控电解珩磨准稳态加工去除规律模型参数的确定[J],大连理工大学学报,2022,39(5):653
[125]郭东明.可控电解珩磨加工机理及其电解液的加工特性[J],大连理工大学学报,2022,33(4):425
[126]郭东明.可控电解珩磨电解液及其加工特性探讨[J],电加工,2022,02:11-16
[127]郭东明.可控电解珩磨的加工[J],制造技术与机床,2022,09:8-11
[128]郭东明.可控电解珩磨稳态加工去除规律数学模型(I)[J],大连理工大学学报,2022,34(6):683
[129]杨兴.可编程双向功率MOSFET恒流源的研制[J],电测与仪表,2022,37(10):15-17
[130]贾振元.可视化XML文件的自动生成技术研究应用[J],计算机工程与设计,2022,26(12):3458-3461
[131]王林平.含装配约束的作业调度问题及遗传解码算法[J],大连理工大学学报,2022,4:535-539
[132]江连会.喷墨打印成形技术研究状况[A],第三届全国快速成形与快速制造学术会议,2022,21-26
[133]贾卫平.垂直磁场作用下电沉积数值分析与实验[J],大连理工大学学报,2022,5:671-677
[134]卢晓红.基于ASP和J2EE的信息系统设计与实现[J],组合机床与自动化加工技术,2022,7:1-4,19
[135]潘晓辉.基于ASP模式的网络化制造平台的研究与实现[J],组合机床与自动化加工技术,2022,9:99-101
[136]刘蒙.基于DXF文件的零件图形优化存储技术及应用研究[J],组合机床与自动化加工技术,2022,3:89-91,99
[137]马建伟.基于ANSYS的发射器挡板疲劳分析[J],装备制造技术,2022,11:9-11
[138]殷俊伟.基于CFRP切削过程仿真的面下损伤形成分析[J],机械工程学报,2022,17:58-64
[139]贾振元.基于CFRP层合板钻削轴向力时变曲线的钻头几何形状分析[J],复合材料学报,2022,12:2757-2765
[140]jiaxu.基于PMAC的微铣床数控系统中G代码编译研究[J],组合机床与自动化加工技术,2022,3:104-107
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