Awards

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Awards Name Year Awards Type Awards Level Offer
作物需水信息采集与智能灌溉控制技术 2017 省部级科技成果奖 一等奖 农业部
滴灌灌水器迷宫流道结构与水力性能实验研究 2013 其他 一等奖 中国农业机械学会
滴灌灌水器数值化快速开发平台研究与应用 2011 省部级科技成果奖 二等奖 西安交通大学,新疆天业节水公司
滴灌灌水器数值化快速开发平台研究与应用 2010 局厅级科技成果奖 二等奖 西安交通大学、新疆天业节水公司
滴灌灌水器迷宫流道主航道抗堵设计方法研究 2009 其他 一等奖 中国农业工程学会
滴灌灌水器迷宫流道结构与水力性能实验研究 2007 其他 一等奖 西安交通大学
滴灌滴头基于迷宫流道流动特性的抗堵设计及一体化开发方法 2005 国家技术发明奖 二等奖 教育部
农业节水滴灌关键器件的快速开发技术与若干滴灌产品 2004 省部级科技成果奖 一等奖 西安交通大学
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Showing 1 to 8 of 8 entries.

Research Team

比赛获奖

1.多食材可视化食品3D打印机,任传奇、张志同、王鑫、张山,第十七届“腾飞杯”课外学术科技作品竞赛优秀奖。

2.多食材可视化食品3D打印机, 任传奇、王鑫、张山、陈皇宇,获2017年西安交通大学创业实践大赛银奖。

3.智能食品3D打印设备,张志同、任传奇、王鑫等,“建行杯”西安交通大学第三届中国“互联网”大学生创新创业大赛优秀奖。

4.魏浩然张磊, 贾维兵. 基于深度学习的智能水肥灌溉设备. 第十五届中国研究生电子设计竞赛西北赛区一等奖. 2020. 8。

年优秀毕业论文

马琛硕士论文(基于深度学习的TIG电弧 复合熔滴沉积形貌缺陷识 别与工艺控制研究)获2021年西安交通大学优秀硕士学位论文。

Host

2021年:

  1. Lai X, Wei Z. Slicing Algorithm and Partition Scanning Strategy for 3D Printing Based on GPU Parallel Computing. Materials (Basel). 2021 Jul 31;14(15):4297.(SCI) (SCI: TV9VR, WOS: 000682062000001)
  2.  Lai X, Wang C, etc. Analysis of Heat Transfer Characteristics of a Heat Exchanger Based on a Lattice Filling. Coatings 2021, 11, 1089. (SCI) (SCI: UV2MZ, WOS: 000699320800001)
  3. Ma Chen, Du Jun, Wei Zhengying, et al. Research on Automated Defect Classification Based on Visual Sensing and Convolutional Neural Network-Support Vector Machine for GTA-Assisted Droplet Deposition Manufacturing Process[J]. Metals,CH., 2021, 11(4):639 (SCI: RR7MP, WOS: 000643278000001)
  4. Geng R W, Du J, Wei Z Y, 2021. Modelling and experimental observation of the deposition geometry and microstructure evolution of aluminum alloy fabricated by wire-arc additive manufacturing[J]. Journal of Manufacturing Processes, 64:369-378. (中科院一区)(SCI: RP9RP, WOS: 000642059500001)
  5. 杜军, 蒋敏博, 张永恒, 徐思远, 魏正英. TIG电弧复合熔滴沉积增材制造钢/铅双金属结构工艺研究[J].材料导报,2021,录用.Ei:20220511546271
  6. Chen Xueli, Wei zhengying, Ma chao, Wei caixiang. Flow characteristics and diaphragm deformation of pressure-compensating drip irrigation emitters[J]. Irrigation and Drainage, 2021,70(5):996-1009WOS: 000728156600003
  7. Chen Xueli, Wei zhengying, Wei caixiang, Ma, Jinpeng, Chen zhuo. Influence of constraint method of elastic diaphragm on numerical simulation of pressure-compensating emitter[J]. Transactions of the ASABE, 2021, 64(2): 425-434(SCI: RQ4PC, WOS: 000642400600007)
  8. Zhang L, Wei ZY, Liu PC, et al. Performance comparison of solid lead ion electrodes with different carbon-based nanomaterials as electron-ion exchangers[J]. Sensors, 2021, 21(5):1663 (SCI: QW3PR, WOS: 000628566300001).
  9. Zhang L, Wei ZY, Zhang Q. Structural optimization of the low-pressure Venturi injector with double suction ports based on computational fluid dynamics and orthogonal test[J]. Desalination and water treatment, 2021, 214:347-354 (SCI: SD0QF, WOS: 000651066700033 ).
  10. Zhang L, Wei ZY, Jia WB, et al. Multi-user Random Water Distribution in Greenhouse Based on Hybrid Intelligent Algorithm[C]//2021 International Conference on Computer Engineering and Artificial Intelligence. Piscataway: IEEE, 2021:361-365 (EI: 20214311061845).

2020年:

  1. Li, J., Wei, Z., Zhou, B., Wu, Y., Chen, S. G., Sun, Z. Preparation, microstructure, and microhardness of selective laser-melted W–3Ta sample. Journal of Materials Research, 2020, 35(15), 2016-2024. DOI: 10.1557/jmr.2020.71
  2. Li J, Wei Z, Yang L, et al. Finite element analysis of thermal behavior and experimental investigation of Ti6Al4V in selective laser melting[J]. Optik, 2020, 207: 163760.
  3. Li, J., Wu, Y., Zhou, B., Wei, Z. Laser Powder Bed Fusion of Pure Tungsten: Effects of Process Parameters on Morphology, Densification, Microstructure. Materials. 2020, 14(1):165.
  4. Ruwei Geng, Jun Du, Zhengying Wei, Ninshu Ma. Multiscale modelling of microstructure, micro-segregation, and local mechanical properties of Al-Cu alloys in wire and arc additive manufacturing [J]. Additive Manufacturing. 2020; 36:101735.  (Q1)DOI10.1016/j.addma.2020.101735
  5. Zhang Ziying, Du Jun, Wei Zhengying, Wang Zhen, Zhang Haoqiang, Li Minghui, Tang Yiping. Numerical simulation of dynamic seeding of mesenchymal stem cells in pore structure [J]. Computers & Mathematics with Applications. 2020; 79(1):88-99.  (Q1) DOI: 10.1016/j.camwa.2018.01.027
  6. Zhang Ziying, Du Jun, Wei Zhengying, Wang Zhen, Li Minghui, Ni Jingda. A 3D computational model of perfusion seeding for investigating cell transport and adhesion within a porous scaffold [J]. Biomechanics and Modeling in Mechanobiology. 2020; 19(5):1461-75.  (Q2) DOI: 10.1007/s10237-019-01281-8
  7. Du Jun, Geng Ruwei, Wei Zhengying, Ninshu Ma. Comparative study of solidification behaviors of weld pool through modelling of heat transfer and fluid flow during single- and multiple-layer deposits of 2319-aluminum alloy based on variable polarity gas tungsten arc welding [C]. 溶接学会論文集. 2020; 38(2):112-115.
  8. Geng Ruwei, Du Jun, Wei Zhengying, Ma Ninshu. Investigation of Residual Stress in Multi Arc-based Cooperative Metal [C]. 溶接学会論文集. 2020; 38(2):108-111.
  9. Zhang L, Wei Z, Liu P. An all-solid state NO3- ion-selective electrode with gold nanoparticles solid contact layer and molecularly imprinted polymer membrane[J]. PLoS ONE, 2020, 15 (10): e0240173. (SCI:000581814700072) DOI: 10.1371/journal.pone.0240173

2019年:

  1. Wang X, Du J, Wei Z, et al. Research on interlayer remelting process of multi-layer forming by metal fused-coating additive manufacturing[J]. Journal of Mechanical Science and Technology, 2019, 33(2): 759-764. (SCI: 000459799100027; IF1.22; JCR: Q3; 中科院4)
  2. Zhao G, Du J, Wei Z, et al. Numerical analysis of arc driving forces and temperature distribution in pulsed TIG welding [J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2019, 41(1): 60. (SCI, IF1.74, WOS:000454915100011, IDS : HG3ZX, ISSN: 1678-5878; JCR: Q3; 中科院4)
  3. Du, J., G. Zhao, Z. Wei, Effects of Welding Speed and Pulse Frequency on Surface Depression in Variable Polarity Gas Tungsten Arc Welding of Aluminum Alloy. Metals, 2019. 9(2): p. 114.( ISSN: 2075-4701; WOS:000460764700005;IF: 2.26; JCR: Q1; 中科院3)
  4. Du, J., et al., Numerical simulation and experimental research on fused-coating additive manufacturing of Sn63Pb37 thin-walled structures. Applied Physics A, 2019. 125(12): p. 875. (ISSN: 0947-8396; IDS: JT9VY; SCI: 000501330500001; IF: 1.78; JCR: Q3; 中科院4)
  5. Jun, D. W. Zhengying, Numerical investigation of thermocapillary-induced deposited shape in fused-coating additive manufacturing process of aluminum alloy. Journal of Physics Communications, 2018. 2(11): p. 115013. (ISSN: 2399-6528; IDS: HI5MT; SCI: 000456498500017)
  6. Z. Zhang, J. Du, Z. Wei, et al. Numerical investigation of adhesion dynamics of a deformable cell pair on an adhesive substrate in shear flow. Physical Review E, 2019, 100(3), 033111. (SCI, IDS: IY8OF; ISSN: 2470-0045; WOS:000486653200006; ,IF2.35; JCR: Q1; 中科院2)
  7. Z. Zhang, J. Du, Z. Wei, et al. A 3D computational model of perfusion seeding for investigating cell transport and adhesion within a porous scaffold. Biomechanics and modeling in Mechanobiology. (ISSN: 617-7959; 接受; IF: 2.83; JCR: Q2; 中科院3)
  8. Z. Zhang, J. Du, Z. Wei, et al. Numerical simulation of dynamic seeding of mesenchymal stem cells in pore structure. Computers & Mathematics with Applications, 2020, 79(1): 88-99. (ISSN: 0898-1221; 期卷,SCI; IF2.81; JCR: Q1; 中科院2)
  9. Li J, Wei Z, Zhou B, et al. Densification, Microstructure and Properties of 90W-7Ni-3Fe Fabricated by Selective Laser Melting[J]. Metals, 2019, 9(8): 884. (eISSN: 2075-4701; IDS: IV8IV; IDS: IV8IV; SCI: 000484510000074; IF: 2.26; JCR: Q1; 中科院3)
  10. .Li J, Wei Z, Yang L, et al. Finite element analysis of thermal behavior and experimental investigation of Ti6Al4V in selective laser melting[J]. Optik, 2019: 163760. (暂无)
  11. .向羽,张树哲,李俊峰等.Ti6Al4V的激光选区熔化单道成形数值模拟与实验验证[J].浙江大学学报(工学版),2019(11):1-9. (EI: 20195107851652)
  12. 来旭辉,魏正英.面向数控加工系统的3D打印切片算法与分区扫描策略[J].农业工程学报,2019,35(12):58-64. (EI: 20193907477145)
  13. .Jia W., Wei Z., Zhang Y., et al. Effects of Different Irrigation and Fertilization Treatments on Tomato Growth and Water Distribution and Fertilizer Distribution Uniformity in Greenhouse[C]//2019 ASABE Annual International Meeting. American Society of Agricultural and Biological Engineers, 2019: 1. (EI: 20194107510828)
  14. .Zhang L., Wei Z., Feng P., et al. Design of water and fertilizer precision ratio system based on neural network PID[C]//2019 ASABE Annual International Meeting. American Society of Agricultural and Biological Engineers, 2019: 1. (EI:20194107510909)
  15. .Zhang Y, Wei Z, Zhang L, et al. Applicability evaluation of different algorithms for daily reference evapotranspiration model in KBE system[J]. International Journal of Computational Science and Engineering, 2019, 18(4): 361-374. (SCI: HU1BS000465007400005 EI: 20191706826939)

2018

  1. Guangxi ZhaoZhengying Wei, Jun Du. Mechanical properties of Sn63Pb37 components by fused coating technology. Additive Manufacturing, 2018:(22), 388-393
  2. Ma Shengli, Zhengying Wei, Xueli Chen. A systematic approach for numerical research of realistic shaped particle-fluid interactions. POWDER TECHNOLOGY, 2018,:339, 0032-5910
  3. Jun, D. W. Zhengying, Numerical investigation of thermocapillary-induced deposited shape in fused-coating additive manufacturing process of aluminum alloy. Journal of Physics Communications, 2018. 2(11): p. 115013. (ISSN: 2399-6528; IDS: HI5MT; SCI: 000456498500017)

2017

  1. Pei Wei, Zhengying Wei, Zhen Chen, et al. The AlSi10Mg samples produced by selective laser melting: single track, densification, microstructure and mechanical behavior [J]. Applied Surface Science, 2017, 408: 38-50. (SCI: ES4PA; WOS: 000399516000005, ISSN: 0169-4332;IF=3.387)
  2. Pei Wei, Zhengying Wei, Zhen Chen, et al. Numerical simulation and parametric analysis of selective laser melting process of AlSi10Mg powder [J]. Applied Physics A , 2017, 123 (8) :540. (SCI: FB6YA, WOS: 000406287100018, ISSN: 0947-8396, IF=1.455)
  3. Pei Wei, Zhengying Wei, Zhen Chen, et al.  Thermal behavior in single track during selective laser melting of AlSi10Mg powder [J]. Applied Physics A, 2017, 123 (9) :604. (SCI: FF9QJ, WOS: 000409351400027, ISSN: 0947-8396, IF=1.455)
  4. Pei Wei, Zhengying Wei, Guangxi Zhao, et al.  Flow characteristic of in-flight particles in supersonic plasma spraying process[J]. Heat & Mass Transfer, 2016, 52(9):1739-1753. (SCI:  DT6HS, WOS:000381585900002, ISSN: 0947-7411, IF=1.233)
  5. Du Jun, Wang Xin, Bai Hao, Zhao Guangxi, Zhang Yubin. Numerical analysis of fused-coating metal additive manufacturing [J]. International Journal of Thermal Sciences, 2017, 114: 342-351.( SCI: EK6UK, EI:000394061100026; WOS:000394061100026; ISSN: 1290-0729)
  6. Xuewei Fang, Zhengying Wei, Jun Du, Bingheng Lu, Xin Wang, Pengfei He, etc. Forming metal components through a novel fused-coating based additive manufacturing [J]. Rapid Prototyping Journal. Volume:23   issue: 5   page: 893-903    2017 (SCI:FF3OU,EI: 000408818300005; WOS:000408818300005; ISSN: 1355-2546)
  7. Geng Q, Bruland A, Macias FJ. Analysis on the Relationship Between Layout and Consumption of Face Cutters on Hard Rock Tunnel Boring Machines (TBMs) [J]. Rock Mechanics and Rock Engineering, 2017, doi, 10.1007/s00603-017-1320-1. (SCI, IF=2.905)
  8. Geng Q, Wei ZY, Ren JH. New rock material definition strategy for FEM simulation of the rock cutting process by TBM disc cutters[J]. Tunnelling and Underground Space Technology, 2017, 65:179~186. (SCI: EU7IP, WOS:000401208800015; ISSN: 0886-7798; EI)
  9. Yubin Zhang, Zhengying Wei, Lei Zhang ,QinyinLin. Improved Online Sequential Extreme Learning Machine for Simulation of Daily Reference Evapotranspiration[J]. TECNOLOGIA Y CIENCIAS DEL AGUA, 2017,8(2):127-140.SCIEX2ZP; WOS000403101600012; ISSN: 0187-8336
  10. Du Jun, Wang Xin, Bai Hao, Zhao Guangxi, Zhang Yubin. Numerical analysis of fused-coating metal additive manufacturing [J]. International Journal of Thermal Sciences, 2017, 114: 342-351.( SCI: EK6UK, EI:000394061100026; WOS:000394061100026; ISSN: 1290-0729)
  11. Xuewei Fang, Zhengying Wei, Jun Du, Bingheng Lu, Xin Wang, Pengfei He, etc. Forming metal components through a novel fused-coating based additive manufacturing [J]. Rapid Prototyping Journal. Volume:23   issue: 5   page: 893-903    2017 (SCI:FF3OU,EI: 000408818300005; WOS:000408818300005; ISSN: 1355-2546)
  12. Geng Q, Bruland A, Macias FJ. Analysis on the Relationship Between Layout and Consumption of Face Cutters on Hard Rock Tunnel Boring Machines (TBMs) [J]. Rock Mechanics and Rock Engineering, 2017, doi, 10.1007/s00603-017-1320-1. (SCI, IF=2.905)
  13. Geng Q, Wei ZY, Ren JH. New rock material definition strategy for FEM simulation of the rock cutting process by TBM disc cutters[J]. Tunnelling and Underground Space Technology, 2017, 65:179~186. (SCI: EU7IP, WOS:000401208800015; ISSN: 0886-7798; EI)
  14. Yubin Zhang, Zhengying Wei, Lei Zhang ,QinyinLin. Improved Online Sequential Extreme Learning Machine for Simulation of Daily Reference Evapotranspiration[J]. TECNOLOGIA Y CIENCIAS DEL AGUA, 2017,8(2):127-140.SCIEX2ZP; WOS000403101600012; ISSN: 0187-8336

2016年及之前

  1. Jun DU, Zhengying WEI, Xin WANG, Xuewei FANG, Guangxi Zhao. A novel high-efficiency methodology for metal additive manufacturing. Applied Physics A, 2016 .11IF:1.444,
  2. SCI: EB1PR,WOS:000387126600010
  3. DU Jun, WEI Zhengying, WANG Xin, WANG Jijie, CHEN Zhen. An improved fused deposition modeling process for forming large-size thin-walled parts. Journal of Materials Processing Technology,2016.8 (IF: 2.359,SCI: DN0XH,WOS:000376789900033)
  4. SuLi Li; ZhengYing Wei; Jun Du; Guangxi Zhao; Xin Wang; BingHeng Lu. Building of nested components by a double-nozzle droplet deposition process. APPLIED PHYSICS A,2016.6.20, (IF:1.444, SCI: DQ2AH,WOS:000379002100048)
  5. SuLi Li; ZhengYing Wei; Jun Du; Guangxi Zhao; Xin Wang; BingHeng Lu.Numerical and experimental investigation of molten metal droplet deposition applied to rapid prototyping, APPLIED PHYSICS A, 2016.8.02(SCI: DS3FC,IF:1.444,WOS:000380667500070)
  6. Jun DU, Zhengying WEI. Numerical analysis of pileup process in metal microdroplet deposition manufacture [J]. International Journal of Thermal Sciences, 96(2015), 35-44.SCI, EI
  7. Jun DU, Zhengying WEI, Huali CHU, et al. Investigation on the filling profile evolution of resist in microimprint lithography [J]. Journal of Vacuum Science & Technology B, 2015, 33(1) 011601SCI, EI
  8. WEI Zhengying, DU Jun, GENG Qi, LI Shize, Tang Yiping. Coarse-grain simulations of the polymer filling process in nanolithography[J]. Journal of Computational and Theoretical Nanoscience. 2015, 12(1), 77-81.SCI, EI
  9. Pei WEI, ZhengYing WEI, SuLi LI, Chao Tan, Jun DU. Splat formation during plasma spraying for 8 mol% yttria-stabilized zirconia droplets impacting on stainless steel substrate. Applied Surface Science. 2014, 321 (1) 538-547. SCI, EI
  10. Pei Wei, Zhengying Wei, Guangxi Zhao, Y. Bai, Optimal Design of Nozzle for Supersonic
    Atmosphere Plasma Spraying. High Temperature Materials and Processes, 2015, 0036.(SCI)
  11. Pei Wei, Zhengying Wei, Guangxi Zhao, Y. Bai, Chao Tan. Effect of processing parameters on
    plasma jet and in-flight particles characters in supersonic plasma spraying. High Temperature Materials and Processes, 2015, 0077. (SCI)
  12. Pei Wei, Zhengying Wei, Guangxi Zhao, Y. Bai. Flow characteristic of inflight particles in
    supersonic plasmas praying process. Heat and mass transfer. DOI 10.1007/s00231-015-1693-1. (SCI)
  13. Geng Qi, Wei Zhengying, Meng Hao. Numerical and experimental method to determine the boring diameters of a two-stage TBM cutterhead to prevent rock burst[J]. Journal of Mechanical Science and Technology, 28(11),2014. (SCI)
  14. Geng Qi, Wei Zhengying, He Fei, Meng Hao. Comparison of the mechanical performance between two-stage and flat-face cutter head for the rock tunnel boring machine (TBM) [J]. Journal of Mechanical Science and Technology, 29(5),2015. (SCI)
  15. Geng Qi, Wei Zhengying, Meng Hao. An experimental research on the rock cutting process of the gage cutters for rock tunnel boring machine[J]. Tunnelling and Underground Space Technology52(2016). (SCI)
  16. DU Jun, WEI Zhengying, LI Shize and TANG Yiping. Resist deformation and flow fields in microimprint lithography[J]. Journal of Micromechanics and Microengineering, 2013, 23 (5): 055026. SCI, EI
  17. Suli Li, Zhengying Wei, Jun Du, Pei Wei, ZuoXian Hou, BingHeng Lu. The fusion process of successive droplets impinging onto a substrate surface. Journal of Appl. Phys. A. (2015) 120:35-42.SCI, EI
  18. Suli Li, Zhengying Wei, Jun Du, Pei Wei, ZuoXian Hou, BingHeng Lu. A numerical analysis on the metal droplets impacting and spreading out on the substrate. Journal of Rare Metal Materials and Engineering. (2015) 3:44-18.SCI, EI
  19. Jun DU, Zhengying WEI, Shize LI, et al. Investigation of resist filling behavior in microimprint lithography by CFD simulation and defocusing digital particle image velocimetry[J]. Journal of Vacuum Science & Technology B. 2013, 31 (2) 021601-1.SCI,  EI
  20. Du Jun, Wei Zhengying, Li Shize, Tang Yiping. Visualization of resist flow fields in microlithography by using defocusing digital particle image velocimetry[J]. Journal of Micro/Nanolithography, MEMS, and MOEMS. 2012,12(3),  doi: 10.1117/1.JMM.12.3.033004SCI, , EI
  21. DU Jun, WEI Zhengying, LI Shize, TANG Yiping. Experimental research on resist filling behavior in microimprint lithography by using defocusing digital particle image velocimetry[J]. Microsystem Technologies. 2013, 19 (8) 1229-1238SCI, EI
  22. Du Jun, WEI Zhengying, TANG Yiping. Reverse Nonequilibrium Molecular Dynamics Calculation of the Resist Shear Viscosity in UV-Nanoimprint Lithography[J]. Journal of Computational and Theoretical Nanoscience, 2013, 10 (1) 208-212. SCI, EI
  23. Du J, Wei Z, He W, et al. Effects of Mold Geometries and Initial Resist Thickness on Filling Behavior in UV-Nanoimprint Lithography[J]. Journal of Computational and Theoretical Nanoscience, 2012, 9 (8): 1029-1035. SCI, EI
  24. Du J, Wei Z, Tang Y. Numerical Simulation and Experimental Study on Resist Filling Behavior in UV-nanoimprint Lithography [J]. Procedia CIRP, 2012, 3 (0): 203-208. EI
  25. Qiyin Lin, Zhengying Wei, Ning Wang, Wei Chen. Analysis on the Lubrication Performances of Journal Bearing System Using Computational Fluid Dynamics and Fluid–Structure Interaction Considering Thermal Influence and Cavitation[J]. Tribology International, 2013, 64:8~15 (SCI, EI).
  26. Wei ZhengyingCao MengLiu XiaTang YipingLu Bingheng  Flow Behaviour Analysis and Experimental Investigation for Emitter Micro-channels.[J]. Chinese Journal of Mechanical Engineering. (2012) ,25 (4): 729-737. SCI, EI
  27. Wang Lipeng, Wei Zhengying, Zhou Xing, et al. Rapid Stereotype of Cylindrical Drip Irrigation Emitter Based on Computational Fluid Dynamics and Rapid Prototyping Manufacturing[C]. Applied Mechanics and Materials, Vols.190-191(2012): 390-394. EI
  28. Huo Zhanpeng, Wei Zhengying, Tang Yiping. A Remote Control System Based on Short Messaging Service for Intelligent Agricultural Irrigation[C]. Applied Mechanics and Materials Vols. 190-191(2012):1104-1108. EI
  29. Hu Fusheng, Wei Zhengying , Liu Bolin, et al. Three Dimensional Numerical Analysis of Plasma Spraying Using Supersonic Plasma Gun[C]. Applied Mechanics and Materials Vols. 190-191(2012): 222-226. EI
  30. Zhengying Wei, Yiping Tang, Wanhua Zhao, Dichen Li,Bingheng Lu. Rapid development technique for drip irrigation emitters[J]. Rapid Prototyping Journal(UK.) 2003, 92):104110. SCI, EI
  31. Zhengying W, Yiping T, Bingheng L. Rapid Manufacturing Method for Water saving Emitters Based on Rapid Prototyping and Manufacturing[J]. Int J Adv Manuf Technol, (UK) 2003, 21:644648. SCI, EI
  32. Zhengying Wei, Yiping Tang, Wanhua Zhao, Bingheng Lu. Rapid Structural Design of Drip Irrigation Emitters Based on RP Technology[J]. Rapid Prototyping Journal(UK.)2007,135:268275. SCI, EI
  33. Jun DU, Zhengying WEI, Huali CHU, et al. Investigation on the filling profile evolution of resist in microimprint lithography[J]. Journal of Vacuum Science & Technology . 2015, 33(1) 011601.SCI, EI
  34. Jun, WEI Zhengying, CHEN Zhen, LI Suli, TANG Yiping. Numerical Investigation of Pileup Process in Metal Microdroplet Deposition Manufacture[J]. Micromachines. 2014, 5(4), 1429-1444.SCI, EI
  35. DU Jun, WEI Zhengying. Coarsegrained molecular dynamics analysis of deformation mechanisms of PMMA in nanoimprint process[J]. Journal of Computational and Theoretical Nanoscience. 2015, 12(9), 77-81.SCI, EI
  36. 杜军, 魏正英,何威, 耿麒. 微压印中抗蚀剂三维流场可视化实验研究[J]. 浙江大学学报(工学版), (2013), 47(10): 1871-1876. EI
  37. 李世泽, 魏正英, 杜军, 唐一平. 微压印中抗蚀剂填充行为研究[J]. 西安交通大学, (2013), 47(9): 126-133. EI
  38. 胡福胜, 魏正英, 刘伯林, 杜军, 谭超, 韩志海. 高效能超音速喷枪内等离子喷涂三维数值分析[J]. 材料科学与工艺, (2013), 21(2): 222-226. EI
  39. 杜军, 魏正英, 熊孝东, 何威, 唐一平. 纳米压印中模具结构及膜厚对抗蚀剂填充特性的影响(J). 浙江大学学报(工学版) , 2012, 46 (7): 1175-1181. EI
  40. 熊孝东, 魏正英, 杜军, 丁玉成. 纳米压印中聚合物界面行为的分子动力学研究[J]. 高分子材料科学与工程. 2011, 6(27): 186-190.EI
  41. 吴松坡, 魏正英, 刘霞, 唐一平, 卢秉恒. 面向制造的灌水器产品的快速定型及模具CAE[J],农业机械学报. 2011, 42(5): 56-62. EI
  42. Liu X, Wei Z.Y, Wang L.P, et al. Study and Analysis on Emitter Clogging Mechanism based on Particle-Wall Adhesion[C]. Proceedings of International Conference on Agricultural and Biosystems Engineering, Hong Kong: 20-21 February, 2011. (ISTP:BUK55 WOS:000289665600037).
  43. 杜军, 魏正英, 何威, 耿麒. 微压印中抗蚀剂三维流场可视化实验研究[J]. 浙江大学学报(工学版), (2013), 47(10): 1871-1876. EI
  44. 温聚英, 魏正英, 熊孝东, 杜军, 卢秉恒. 微压印过程中抗蚀剂流动分析[J]. 中国机械工程, 2010, 21(4):463-469.
  45. 魏正英, 熊孝东, 杜军, 丁玉成. 常温微压印中抗蚀剂流动研究及工艺优化[J]. 光学精密工程2010.18(8): 1823-1832. EI
  46. 林起崟, 魏正英, 唐一平, 卢秉恒. 高速滑动轴承流固耦合传热及流场分析[J].润滑与密封, 2010, 10 (35): 28-32.
  47. 李素丽,魏正英,卢秉恒. 基于ANSYS 的车身柔性件点焊装配应力分析[J].焊接学报.2014,11:55-58. EI
  48. 李素丽,魏正英,卢秉恒. 高温钛合金微滴沉积成形有限元分析[J]. 郑州大学学报.2014,7:124-128.
  49. 谭超,魏正英,魏培等.内送粉超声速等离子喷涂流场特性分析.推进技术,2015,36:30-36(EI
  50. 谭超,魏正英,魏培等.超音速等离子喷涂颗粒加热熔化与细化过程分析.推进技术,2015.(EI源刊)
  51. 杜军, 魏正英, 王鑫, 王吉洁. 大型薄壁件熔融成形数值计算与工艺实验研究[J]. 机械设计与制造. (EI 

Host Brief Introduction

5年专利申请情况

  1. Wei Z, Lai X. Dynamic slicing method for additive manufacturing forming with variable forming direction. POI210540PUS(国际专利,受理)
  2. 魏正英,来旭辉,等. 一种基于成型误差的增材制造模型重建方法,202111447576.9(受理)
  3. 魏正英,来旭辉,等. 一种基于热影响区加热顺序再规划的变形控制方法,202111450238.0(受理)
  4. 魏正英,来旭辉,等. 一种基于三维模型截面特征变化的梯度空隙结构建模方法,202111447569.9(受理)
  5. 魏正英,来旭辉,等. 一种增材制造工艺中工件最佳成形方向确定方法,202111450169.3(受理)
  6. 魏正英,薛凌峰,李俊峰,等. 激光粉末床熔融增材制造过程中的熔池监测方法及装置. 2021109310037(受理)
  7. 魏正英,李俊峰,等. 一种高比重钨镍铁合金及其激光增材制备方法. 202110659907.9 (受理)
  8. 李俊峰,魏正英,等. 一种难熔钨钽合金复杂结构件及其增材制造成形方法. 202111668562.X (受理)
  9. 李俊峰,魏正英,等. 一种基于激光增材制造的高钨含量钨镍合金材料及其制备方法,申请号202111668073.4(受理)
  10. 魏正英, 贺鹏飞, 杜军, 马琛, 蒋敏博. 一种用于熔融涂覆成形工艺的熔体流量控制装置及方法. 中国发明专利,专利申请号:202110292839.7.
  11. 魏正英, 贺鹏飞, 杜军, 王勇超. 颗粒增强铝基复合材料熔滴复合电弧增材制造装置及方法.中国发明专利,暂无申请号.
  12. 杜军, 魏正英, 徐思远. 一种异种金属复合结构成形系统及方法, 授权公告日2021.07.13, 中国, ZL201910996205.2
  13. 杜军, 魏正英, 马琛, 韦亚辉. 一种45#/锡铅合金先进异种金属复合结构成形方法, 授权公告日2021.08.13, 中国, ZL201911025943.9
  14. 魏正英,魏才翔,陈雪丽,魏浩然.基于鲨鱼背鳍结构的仿生灌水器抗堵流道:中国,授权专利,CN112178353A[P]. 2021-01-05.
  15. 魏正英,贾维兵,张育斌,张磊. 一种精量灌溉管路压力调节保护装置[P]ZL201910511963.0,授权日:2021302, 授权公告号:CN110235748B
  16. 魏正英,张磊,贾维兵,张千,冯培存,张育斌. 一种低压灌溉双吸肥口文丘里施肥器[P]ZL201910622012.0,授权日:20211119日,授权公告号:CN110419310B

2016及之前

  1. 一种金属激光选区熔化成形双活塞可控预热粉缸,魏正英,周建平,陈祯,杜军,何宇洋,李俊峰.专利号:2015103816425 申请日期:2015.7.02.
  2. 一种同轴双光束激光预热成形缓冷应力缓释装置及方法,魏正英,周建平,陈祯,杜军,王鑫,邹亚桐.专利号:2015103785446,申请日期:2015.07.01.
  3. 一种双活塞金属激光选区熔化成形设备,魏正英,周建平,陈祯,杜军,邹亚桐,何宇洋.专利号:2015103825759,申请日期:2015.7.02.
  4. 一种可更换粉缸双光束激光选区熔化成形设备,魏正英,卢秉恒,陈祯,杜军,李俊峰,何宇洋.专利号:2015103824811,申请日期:2015.7.02.
  5. 3D打印激光束前置加热与监测装置,中国发明专利, 申请号:201410116229.1,魏正英,卢秉恒,王吉洁,杜军。申请日期:2014326
  6. 一种可控喷注式食品3D打印设备及方法, 中国发明专利, 申请号:201410140733.5,魏正英、杜军、付丽倩、卢秉恒、魏培、赵光喜。申请日期:2014.04.09
  7. 一种可控喷粉式食品3D打印设备及打印方法, 中国发明专利, 申请号:201410140361.6,魏正英、杜军、付丽倩、卢秉恒、魏培、赵光喜。申请日期:2014.04.09
  8. 一种激光3D食品打印装置及打印方法, 中国发明专利, 申请号:201410140587.6,魏正英、杜军、赵光喜、赵保林、付丽倩、魏培.申请日期:2014.04.09
  9. 一种大型金属构件高效低成本微涂覆增减材复合成形装置与方法, 中国发明专利, 申请号:201610134060.1,杜军,魏正英,卢秉恒,方学伟.申请日期:2016309
  10. 一种金属材料微涂覆成形装置及方法, 中国发明专利, 申请号:201610134115.9,杜军,魏正英,卢秉恒,方学伟.申请日期:2016309
  11. 一种金属材料梯度构件微涂覆成形装置及方法,中国发明专利, 申请号:201610133204.1,杜军,魏正英,卢秉恒,方学伟.申请日期:2016309
  12. 利用金属熔融沉积成形薄壁结构件的装置与方法, 中国发明专利, 申请号:201310751473.0,魏正英,卢秉恒,李素丽,杜军,王吉洁.申请日期:20131231
  13. 利用激光边缘切割提高金属熔覆沉积增材制造精度的方法, 中国发明专利, 申请号:201310303998.8,卢秉恒,魏正英, 李素丽,王吉洁.申请日期:201379
  14. 一种利用带有梯形凹槽的非金属片的金属熔滴沉积方法,魏正英,杜军,李素丽,卢秉恒.中国发明专利,公开号:CN201410276593.4,申请日期:20140619.
  15. 一种利用石墨卡环提高金属熔融沉积精度和效率的装置和方法,杜军,魏正英,李素丽,卢秉恒.中国发明专利,专利号:201410312791.1,申请日期:20140702.
  16. 利用缝隙、凹槽约束零件层厚、层宽的金属熔覆成形装置与方法. 杜军,魏正英,李素丽,卢秉恒.,中国发明专利,公开号:CN104264147A,申请日期:20140808.
  17. 一种金属液滴电子约束成形装置. 魏正英,杜军; 陈祯; 李素丽; 赵光喜; 魏培.中国发明专利,公开号:CN103990801A,申请日期:20140520.
  18. 一种金属微喷熔滴电磁约束沉积成形系统. 杜军,魏正英,陈祯,卢秉恒,李素丽. 中国发明专利,公开号:CN104028761A,申请日期:20140618.
  19. 一种控制金属增材成形表面质量的装置. 杜军,魏正英,陈祯,赵光喜,李素丽, 魏培.中国发明专利,公开号:CN104043832A,申请日期:20140618.
  20. 离焦数字三维微流场荧光测试仪,ZL200910219223.620110201,魏正英,杜军,熊孝东,卢秉恒. 授权日期: 2011.6.1.
  21. 种微尺度迷宫型单元流道的制造及水力性能测试方法,发明ZL:200410073262.70,赵万华,卢秉恒,张俊,魏正英授权日期: 2009.4.2,
  22. 基于流固耦合数值计算的压力补偿灌水器设计方法,专利号:ZL201210142618.2,魏正英、卢秉恒,王永信,杜军,周兴,罗卫红,申请日期: 2012.05.07,授权日期:2014.06.05
  23. 滑动轴承微约束空间润滑流场试验台. 中国发明专利,专利号:201210380888.7。发明人:魏正英,卢秉恒,林起崟,王宁,王有信. 申请日期: 2012.10.10
  24. 一种内送粉超音速等离子喷枪,中国发明专利,专利号201410081546.4,发明人:魏正英,谭超,魏培。申请日期:2014.03.06
  25. 一种内送粉等离子喷涂喷枪及其设计方法,中国发明专利,专利号201310743225.1,发明人:魏正英,胡福胜,谭超。申请日期:2013.12.27
  26. 一种极坐标多打印头熔丝成形装置. 中国发明专利,专利号:201410213933.9. 发明人:杜军,魏正英,陈祯,王吉洁,李素丽. 申请日期:2014.5.20.
  27. 一种金属液滴电子约束成形装置. 中国发明专利,专利号:201410213707.0.发明人:魏正英,杜军,陈祯,李素丽,赵光喜,魏培. 申请日期:2014.5.20.
  28. 一种气体雾化金属熔滴成型装置及其成型方法,中国发明专利, 申请号:201410195765.5,魏正英、杜军、卢秉恒、赵光喜、李素丽.申请日期:2014.05.09.

软著:

  1. 马琛, 杜军, 魏正英. 基于视觉传感与计算机视觉的电弧复合熔滴沉积增材制造沉积层形貌监测系统(V1.0)软著, 登记号: 2021SR0348765.
  2. 魏正英,贾维兵,张千,张磊,多用户随机配水决策与控制系统,登记号:2021SR0757437
  3. 电力器材3D打印系统控制软件(V1.02016SR070404
  4. 单喷头食品3D打印软件 V1.02016SR070399
  5. 三喷头食品3D打印软件 (V1.02016SR054021
  6. 基于STM32的智能灌溉控制系统, 2015SR201771
  7. 灌溉系统的远程控制软件V1.0,(软著登记号2008SR15292),2008330
  8. 离焦三维PTV软件V1.0,软著登记号:2011SR058962
  9. 基于C8051F120的水肥精量控制系统,2016SR069822
  10. 基于知识的智能灌溉决策支持系统 2016SR049958
  11. 基于Android手机的智能灌溉远程控制系统,2015SR100711