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陈占锋 博士

职称:讲师(高校) 邮箱:czf@hdu.edu.cn 研究方向:结构强度与失效 导师类型:硕士生导师
最新更新
  • 个人简介
  • 教育经历
  • 工作经历
  • 社会职务
  • 研究领域
  • 教学与课程
  • 科研项目
  • 论文与著作
  • 专利成果
  • 软件成果
  • 荣誉及奖励
  • 个人简介
  • 教育经历
  • 工作经历
  • 社会职务
  • 研究领域
  • 教学与课程
  • 科研项目
  • 论文与著作
  • 专利成果
  • 软件成果
  • 荣誉及奖励


二、基本信息

姓名:陈占锋

所属学院:机械工程学院

导师类别:硕士生导师

科研方向:机械结构强度

硕士招生学院:机械工程学院

电子邮箱:czf@hdu.edu.cn

联系电话:17367078584

三、个人简历

陈占锋,男,1984年生,山东淄博人,博士,硕士生导师,特聘副教授。2006年毕业于天津工程师范学院,获学士学位。20092015于上海大学分别取得硕士和博士学位。2016-2018年在浙江大学从事博士后工作。2018年至今在杭州电子科技大学工作。

主要从事机械强度、结构完整性、人工智能等研究。主持国家自然科学基金1项,中国博士后科学基金面上项目1项,参与国家及省部级项目10余项。在Journal of Petroleum Science and EngineeringOcean Engineering等期刊发表论文70余篇,其中一作或通讯作者发表SCI论文42篇(中科院1区19篇,2区8篇,3区8篇,4区7篇),申请/授权发明专利近10项。

 

四、学术成果

() 代表性论文(5)

[1] Chen Z, Li X, Wang W, et al. Residual Strength Prediction of Corroded Pipeline Using Multilayer Perceptron and Modified Feedforward Neural Network[J]. Reliability Engineering & System Safety, 2022: 108980.

[2] Chen Z F, Chu W P, Wang H J, et al. Structural integrity assessment of hydrogen-mixed natural gas pipelines based on a new multi-parameter failure criterion[J]. Ocean Engineering, 2022, 247: 110731.

[3] Chen Z F, Wang W, Yang H, et al. On the effect of long corrosion defect and axial tension on the burst pressure of subsea pipelines[J]. Applied Ocean Research, 2021, 111: 102637.

[4] Chen Z F, Li X Y, Wang W, et al. Theoretical analysis of casing collapse in locally expansive mudstone[J]. Journal of Petroleum Science and Engineering, 2021, 203: 108643.

[5] Chen Z, Chen Y, Wang W, et al. Failure pressure analysis of hydrogen storage pipeline under low temperature and high pressure[J]. International Journal of Hydrogen Energy, 2020, 45(43): 23142-23150.

() 代表性科研项目

[1] 国家自然科学基金青年项目,腐蚀海底管道爆破压力的多参数预测与评估研究,主持

[2] 中国博士后科学基金面上项目,高压高密度储氢管线剩余强度的理论分析与安全评估,主持

[3] 企业横向课题,极端环境下无缝钢管结构完整性研究,主持

() 科研奖励

浙江省特种设备科学技术二等奖

() 知识产权

[1] 陈占锋,梁益帆,李彦,王慧杰,褚为朋,李绪尧,黄亚鹏,王文,王传勇,卢科青,杨贺. 一种基于液压驱动的机械式复合管道制备方法[P]. 浙江省:CN114055770A,2022-02-18.

[2] 陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种天然气管道防护装置及其使用方法[P]. 浙江省:CN113418081A,2021-09-21.

[3] 陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种天然气管道快速修复装置及修复方法[P]. 浙江省:CN113418077A,2021-09-21.

[4] 陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种具有防松功能的紧固件及其使用方法[P]. 浙江省:CN113107952A,2021-07-13.

五、主要荣誉

[1] 2022年杭电钱塘学者B

[2] 2020年杭州电子科技大学优秀班主任

六、学术兼职

[1] 中国力学学会波纹管及管道力学专业委员会委员

[2] 《东北石油大学学报》《焊管》青年编委

[3] materials》期刊的客座主编(Guest Editor

[4] 国家自然科学基金评审专家

[5] 力学全国优秀博士学位论文评审专家


教学管理:

2019级机械与海洋工程类本科班主任

 

承担课程:

本科:

2021-2022 第1学期《工程制图》电子21040620班(37人)

                              《文献检索与论文写作》卓越19185111班(28人)

                              《创新实践4》卓越19185111班(14人)

2020-2021 第2学期《工程制图》通信20083418班(40人)

2020-2021 第1学期《工程制图》电子20040317班(38人),电子20040319班(36人)

2019-2020 第2学期《工程制图》工业设计19220211班(52人),通信19080318班(40人)

2019-2020 第1学期《工程制图》电子19040312班(37人)

硕士:

2021-2022 第1学期 《数值分析》机械080200 班(39人)


纵向科研

  1. 中国博士后科学基金面上资助,2021M693504,高压高密度储氢管线剩余强度的理论分析与安全评估,主持,2021.3.10-2023.3.9

  2. 浙江省省属高校基本科研业务费项目(社会服务与推广类),高压氢气储运管线的安全评估方法研究,主持,2021.1.1-2022.12.31

  3. 国家自然科学基金青年项目,51805127,腐蚀海底管道爆破压力的多参数预测与评估研究,主持,2019.01-2021.12

  4. 杭州电子科技大学科研启动基金项目,爆炸载荷下压力容器的极限承载能力分析,主持,2019.04.01-2021.03.31


横向科研
论文


2025年

[77]Liang, Y. F., Chen, Z. F.(通讯作者), Yuan, L., Shuai, Y., & Wang, W. (2025). Wrinkle behavior of adhesive lined pipe under cyclic bending. International Journal of Solids and Structures, 113531.

[76]Zou, X., Ye, H., Chen, Z. F.(通讯作者), Shen, X., Yan, S., Wang, W., ... & Shen, S. (2025). A novel variable weighted yield criterion and its applications in burst pressure prediction of corroded pipelines. Journal of Pipeline Science and Engineering, 100302.

[75]Li, Y., Chen, Z.(通讯作者), Wang, W., Han, K., Shuai, Y., & Wang, G. (2025). A novel assessment method for residual strength of CO2 pipelines with multiple defects based on RF-MLP. Reliability Engineering & System Safety, 261, 111088.

[74]Chen, Z. F., Liang, Y. F., Yuan, L., Shuai, Y., & Wang, W. (2025). Study on the wrinkling of liner with elliptical defects in lined pipes under axial compression. Marine Structures, 103, 103822.

[73]Song, M., Wang, W., Lu, K., Zhao, D., Wang, C., Chen, Z., & Shi, G. (2025). Multi-measure model calibration method for the Articulated Arm Coordinate Measuring Machine based on posture sets. Measurement, 246, 116622.

2024年

[72]Chen, Z., Huang, Y., Wang, W., & Wang, Y. (2024). Consistency analysis of burst pressure in corroded pipelines. Journal of Pressure Vessel Technology, 1-9.

[71]Bao Zhang, Yan Li, Zhan-Feng Chen(通讯作者), Wen Wang, Guang Shi, He Yang,Numerical study on heat dissipation of double layer enhanced liquid cooling plate for lithium battery module,International Journal of Thermal Sciences,2024,206,109329.

[70]Yang, S., Wang, W., Wang, R., Bao, L., Wang, D., Lu, K.,  Z Chen & Wang, C. (2024). An improved dynamic prandtl-ishlinskii hysteresis model and a PID-type adaptive sliding mode controller for piezoelectric micro-motion platform. Smart Materials and Structures.

[69]Chen, Z., Xing, H., Li, S., Zhu, W., & Wang, W. (2024). Theoretical and numerical analysis of end force of multilayer bellows expansion joint. Tunnelling and Underground Space Technology, 152, 105944.

[68]Wang, C., Yang, D., Lu, K., Wang, W., Chen, Z., Chen, Y., & Ju, B. F. (2023). Laser-generated surface waves for quantitative detection of inclined surface cracks based on finite element analysis. Nondestructive Testing and Evaluation, 39(3), 687–700. 

2023

[67]Liang Y F, Chen Z F(通讯作者), Wang W, et al. The effect of friction coefficient on wrinkles of lined pipe under bending[J]. International Journal of Solids and Structures, 2023: 112615.

[66]王慧杰,陈占锋(通讯作者).含腐蚀缺陷弯管爆破压力分析[J].力学与实践,2023,45(04):860-865.

[65]W Wang, S Yue, H Yang, K Xu, T Sun, K Lu, Z Chen, C Wang, X Cui, B Ju. (2023). Fast detection of geometric errors for three-axis machine tools with combined double-ball bars based on spatial circle detection. Measurement Science and Technology35(3), 035003.

[64]Chen Z F, Chu W P, Shi L, et al. Study on burst pressure of subsea pipelines with asymmetrical corrosion defects[J]. Engineering Failure Analysis, 2024, 155: 107722.

[63]Wu, L., Wang, H., Li, X., Sang, Z., & Chen, Z(通讯作者). (2024). Ultimate Bearing Capacity Analysis of Pipelines under Water Hammer. Journal of Pipeline Systems Engineering and Practice15(1), 04023063.

[62]Wang, C., Yang, D., Lu, K., Wang, W., Chen, Z., Zhu, W., & Ju, B. F. (2023). Numerical study of length and angle gauging for subsurface-inclined cracks based on reflected surface waves with laser ultrasonic technique. Nondestructive Testing and Evaluation, 1-15.

[61]Wang, C., Yang, D., Lu, K., Wang, W., Chen, Z., Chen, Y., & Ju, B. F. (2023). Laser-generated surface waves for quantitative detection of inclined surface cracks based on finite element analysis. Nondestructive Testing and Evaluation, 1-14.

[60]Han K, Chen Z F(通讯作者), Wang W, et al. A short review of ratcheting effect in pressurized piping[J]. International Journal of Pressure Vessels and Piping, 2023: 105009.

[59]Chen Z, Han K, Ren F, et al. Influence of transverse vibration induced by fluid-structure interaction on pipeline strength[J]. Nuclear Engineering and Design, 2023, 411: 112445.

[58]Chen, Z. F., Li, X., Sang, Z., Wang, W., & Wang, Y. (2023). A novel dynamic parameter method (DPM) based on ANN for safety assessment of corroded pipelines. Ocean Engineering280, 114922.

[57]Chen, Z., Li, X., Wang, W., Li, Y., Shi, L., & Li, Y. (2023). Residual strength prediction of corroded pipelines using multilayer perceptron and modified feedforward neural network. Reliability Engineering & System Safety231, 108980.

[56]Li, Y., Wang, W., Chen, Z. F.(通讯作者), & Li, Y. X. (2023). Integrity assessment of supercritical CO2 transport pipelines. Geoenergy Science and Engineering221, 211355.

2022

[55]Wang, W., Liang, Q., Sun, J., Yang, H., Lu, K., Wang, C., Chen, Z., Song, M. (2022). A variable-measurement-space-based method for improving the measurement accuracy of AACMMs. Measurement Science and Technology34(2), 025015.

[54]Wang, W., Sun, J., Sun, T., Lu, K., Yang, H., Chen, Z., ... & Cui, X. (2022). On-site calibration method of the AACMM based on a high-precision CNC machine tool. Measurement Science and Technology33(11), 115010.

[53]Li Y, Wang W, Chen Z*. An Innovative Failure Criterion for Metal Cylindrical Shells under Explosive Loads. Materials. 2022; 15(13):4376.

[52]Wen Wang, Tao Sun, Zhanfeng Chen*, Haimei Wu, Keqing Lu, Chuanyong Wang, Kaifei Xu, Zhiqian Sang, He Yang and Guang Shi. Telescopic ball bar with an indexing joint for measuring machine tool error. Meas. Sci. Technol. 2022.

[51]Li Y, Wang W, Chen Z*, Chu W, Wang H, Yang H, Wang C, Li Y. Burst Pressure Prediction of Subsea Supercritical CO2 Pipelines. Materials. 2022; 15(10):3465.

[50]Chuanyong Wang, Yi Kong, Wen Wang, Zhanfeng Chen, Jian Chen, Wule Zhu, Bing-Feng Ju,Finite element analysis of laser-generated Rayleigh wave for sizing subsurface crack in frequency domain,Optik, 2022,260,169145.

[49]Chen Z.F., Chu W.P., Wang H.J.,Li Y., Wang W., Meng W.M., Li Y.X. Structural integrity assessment of hydrogen-mixed natural gas pipelines based on a new multi-parameter failure criterion. Ocean Engineering. 2022,247,110731.

[48]Wang, R., Wang, W., Chen, Z., Sang, Z., Wang, C., Lu, K., ... & Ju, B. (2022). Modeling and Compensation for Dynamic Hysteresis of Piezoelectric Actuators Based on Lissajous Curve. Sensors and Actuators A: Physical, 113353.

2021

[47]Sun, T.; Wang, W.*Chen, Z.*; Zhu, Y.; Xu, K.; Wu, H.; Sang, Z.; Lu, K.; Yang, H. Positioning Errors Measurement of CNC Machine Tools Based on J-DBB Method. Appl. Sci. 2021, 11, 11770. doi: 10.3390/app112411770

[46] Chen, Z. F., Wang, H. J., Sang, Z., Wang, W., Yang, H., Meng, W. M., & Li, Y. X. (2021). Theoretical and Numerical Analysis of Blasting Pressure of Cylindrical Shells under Internal Explosive Loading. Journal of Marine Science and Engineering, 9(11), 1297.

[45]Wang W, Wang J, Wang R, Chen Z*, Han F, Lu K, Wang C, Xu Z, Ju B. Modeling and Compensation of Dynamic Hysteresis with Force-Voltage Coupling for Piezoelectric Actuators. Micromachines. 2021; 12(11):1366.

[44] Wang, W., Huang, F., Chen, Z.*, Lu, K., Wang, C., Yang, H.,Shi, G., Sun, J. (2021). Research on the calibration method of a new multifunctional calibrator based on AACMM. Measurement Science and Technology, 33(1), 015005.

[43] Wang, C., Wang, W., Wei, Z., Yang, H., Wang, L., Chen, Z., Lu, K., Liang, Q. (2021). Multi-point calibration method for articulated arm coordinate measuring machine based on an observability index. Measurement Science and Technology, 32(12), 125013.

[42]Wang, C., Wang, W., Xu, J., Lu, K., Sang, Z., & Chen, Z. (2021). Research on improving the measurement accuracy of the AACMM based on indexing joint. Measurement Science and Technology.

[41]Lu, K. Q., Lin, J. Q., Chen, Z. F.*, Wang, W., & Yang, H. (2021). Safety assessment of incomplete penetration defects at the root of girth welds in pipelines. Ocean Engineering, 230, 109003.

[40]Chen, Z. F., Wang, W., Yang, H., Yan, S. T., & Jin, Z. J. (2021). On the effect of long corrosion defect and axial tension on the burst pressure of subsea pipelines. Applied Ocean Research, 111, 102637.

[39]Chen, Z. F., Li, X. Y., Wang, W., Lu, K. Q., & Zhu, W. P. (2021). Theoretical analysis of casing collapse in locally expansive mudstone. Journal of Petroleum Science and Engineering, 108643.

[38]Yang, H., Xu, Y., Chen, Z., Wang, W., Aung, N. Z., & Li, S. (2021). Cavitation suppression in the nozzle-flapper valves of the aircraft hydraulic system using triangular nozzle exits. Aerospace Science and Technology, 106598.

[37]Wang W, Han F, Chen Z*, Wang R, Wang C, Lu K, Wang J, Ju B. Modeling and Compensation for Asymmetrical and Dynamic Hysteresis of Piezoelectric Actuators Using a Dynamic Delay Prandtl–Ishlinskii Model. Micromachines. 2021; 12(1):92.

2020

[36]Wang W, Wang R, Chen Z*, et al. A New Hysteresis Modeling and Optimization for Piezoelectric Actuators Based on Asymmetric Prandtl-Ishlinskii Model[J]. Sensors and Actuators A: Physical, 2020: 112431.

[35]Wang, W.; Qiu, W.; Yang, H.; Lu, K.; Chen, Z.; Ju, B. Error Analysis of a Spherical Capacitive Sensor for the Micro-Clearance Detection in Spherical Joints. Micromachines 2020, 11, 837

[34]Chen Z, Chen Y, Wang W, et al. Failure pressure analysis of hydrogen storage pipeline under low temperature and high pressure[J]. International Journal of Hydrogen Energy, 2020, 45(43): 23142-23150.

[33]Jin Z, Qiu C, Chen Z*, et al. Integrity assessment of the pipelines containing an isolated corrosion pit[J]. Engineering Failure Analysis, 2020: 104539.

[32]Wang W, Wang J, Chen Z*, et al. Research on Asymmetric Hysteresis Modeling and Compensation of Piezoelectric Actuators with PMPI Model[J]. Micromachines, 2020, 11(4): 357.

[31]Wang W, Chen Z*, Zhu Y, et al. Full-scale measurement of CNC machine tools[J]. The International Journal of Advanced Manufacturing Technology, 2020: 1-11.

2019 

[30]Chen Z, Li X, Wang W, et al. Dynamic burst pressure analysis of cylindrical shells based on average shear stress yield criterion[J]. Thin-Walled Structures, 2020, 148: 106498.

[29]Chen Z, Li H, Gu Y, et al. A novel flexible seal technology and its application in heat transfer of rotary air preheater[J]. Applied Thermal Engineering, 2019, 163: 114414.

[28]Wang, W., Qiu, W., Yang, H., Wu, H., Shi, G., Chen, Z., ... & Ju, B. (2019). An Improved Capacitive Sensor for Detecting the Micro-Clearance of Spherical Joints. Sensors19(12), 2694.

[27] 徐震,陈占锋*,王淦勋. 偏磨套管破裂的压力窗口法研究[J].焊管(约稿).2019.42(4):7-12.

[26]Wang, W., Yang, H., Zhang, M., Chen, Z., Shi, G., Lu, K., ... & Ju, B. (2019). A Novel Approach for Detecting Rotational Angles of a Precision Spherical Joint Based on a Capacitive Sensor. Micromachines10(5), 280.

[25]Chen Z, Yan S, Jin Z. Dynamic burst pressure of cylindrical explosion containment vessels[J]. Journal of Pressure Vessel Technology, 2019, 141(4): 041203.

[24]Ye, H., Yan, S. T., Shen, X. L., Chen, Z. F., & Jin, Z. J. (2019). On the response of postbuckling of rings with strain hardening under external pressure. International Journal of Solids and Structures167, 127-141.

[23]Yang, H., Wang, W., Lu, K., & Chen, Z. (2019). Cavitation reduction of a flapper-nozzle pilot valve using continuous microjets. International Journal of Heat and Mass Transfer133, 1099-1109.    

2018

[22]Wang, W., Yang, H., Zhang, M., Chen, Z., Shi, G., Lu, K., ... & Ju, B. A Novel Method for the Micro-Clearance Measurement of a Precision Spherical Joint Based on a Spherical Differential Capacitive Sensor. Sensors,2018, 18(10), 3366. 

[21]Yan, S. T., Shen, X., Chen, Z., & Jin, Z.. Symmetric snap-through and equal potential energy load of non-uniform shallow arch under a concentrated load considering imperfection effect. International Journal of Mechanical Sciences, 2018,146, 152-179.

[20]Chen, Z., Zhu, W. , & Di, Q. .Elasticity solution for the casing under linear crustal stress. Engineering Failure Analysis,2018 ,84, 185-195. 

[19]Yan, S. T., Shen, X., Chen, Z., & Jin, Z..On collapse of non-uniform shallow arch under uniform radial pressure. Engineering Structures, 2018, 160, 419-438.

[18]Yan, S. T., Shen, X., Chen, Z., & Jin, Z.. Collapse behavior of non-uniform shallow arch under a concentrated load for fixed and pinned boundary conditions. International Journal of Mechanical Sciences,2018,137, 46-67.    

2017

[17]Chen, Z., Yan, S., Ye, H., Shen, X., & Jin, Z. .Effect of the Y/T on the burst pressure for corroded pipelines with high strength. Journal of Petroleum Science and Engineering, 2017,157, 760-766.

[16]Chen, Z., Ye, H., Yan, S., Shen, X., & Jin, Z. . The Failure Window Method and Its Application in Pipeline Burst. Journal of Pressure Vessel Technology,2017, 139(5), 051702.

[15]Chen, Z., Yan, S., Ye, H., Deng, Z., Shen, X., & Jin, Z. . Double circular arc model based on average shear stress yield criterion and its application in the corroded pipe burst. Journal of Petroleum Science and Engineering, 2017,149, 515-521.

[14]Chen, Z., Shen, X., Ye, H., Yan, S., & Jin, Z. Surface Stress Analysis of Internally Corroded Pipes Under External Pressure. In ASME 2017 Pressure Vessels and Piping Conference (pp. V005T05A014-V005T05A014).American Society of Mechanical Engineers.2017 July, Hawaii, USA.

[13]Yan, S. T., Shen, X., Chen, Z., & Jin, Z..On buckling of non-uniform shallow arch under a central concentrated load. International Journal of Mechanical Sciences, 2017,133, 330-343.    

2016  

[12]Chen, Z., Zhu, W. , Di, Q. , & Li, S. Numerical and theoretical analysis of burst pressures for casings with eccentric wear. Journal of Petroleum Science and Engineering, 2016,145, 585-591.

[11] Jin, Z., Shen, X., Yan, S., Ye, H., Gao, Z., & Chen, Z.*. A three-dimensional analytical solution for sandwich pipe systems under linearly varying external pressures. Ocean Engineering, 2016, 124, 298-305.

[10]Yan, S. T., Shen, X. L., Ye, H., Chen, Z., He, X., & Jin, Z. J.  (2016, September).On the collapse failure of dented pipes under bending moment and external pressure. In OCEANS 2016 MTS/IEEE Monterey (pp. 1-5). IEEE.     

2015年及以前 

[9]Chen, Z., Zhu, W., Di, Q., & Wang, W.. Burst pressure analysis of pipes with geometric eccentricity and small thickness-to-diameter ratio[J]. Journal of Petroleum Science and Engineering, 2015, 127: 452-458.

[8]Chen, Z., Zhu, W., Di, Q., & Wang, W.. Prediction of Burst Pressure of Pipes with Geometric Eccentricity[J]. Journal of Pressure Vessel Technology, 2015, 137(6): 061201.

[7]Hu, Y., Di, Q., Zhu, W., Chen, Z., & Wang, W.. Dynamic characteristics analysis of drillstring in the ultra-deep well with spatial curved beam finite element[J]. Journal of Petroleum Science and Engineering. 2012; 82:166-173.

[6]陈占锋,朱卫平,狄勤丰.磨损套管抗内压强度的通用计算模型[J].应用力学学报. 2015, 32 (6):967-972.

[5]陈占锋,朱卫平,狄勤丰,唐继平,梁红军.非均匀地应力下套管偏心对抗挤强度的影响[J].上海大学学报.2012, 18(1):83-86

[4]陈占锋,朱卫平,狄勤丰,李世强.偏磨套管破裂强度三维弹塑性有限元分析[J].石油钻采工艺.2013, 35(6):1-4.

[3]曹阳,狄勤丰,朱卫平,陈占锋,余刚,秦玉萍.高效导向螺杆钻具的研究与应用[J].钻采工艺. 2011, 34(3):67-70.

[2]黄家祺,狄勤丰,陈占锋,刘会良,秦宏. 基于实际井眼轨迹的盐膏层套管柱强度设计与校核方法[J]. 钻采工艺,2009,32(2):61~64.

[1]陈占锋,朱卫平,狄勤丰,郑家江.岩盐地层中水泥环弹性模量和壁厚对套管强度的影响[J].石油钻探技术.2009,37(5):58-61


著作


  • [1]王健,王文,卢科青,时光,杨贺,陈占锋,王瑞金,居冰峰. 基于磁流变弹体的刚度自适应快速刀具伺服装置[P]. 浙江省:CN209190386U,2019-08-02.

  • [2]魏珠珠,王文,杨贺,卢科青,陈占锋,时光,唐超锋,仇文军. 气浮主轴承载补偿装置[P]. 浙江省:CN209370285U,2019-09-10.

  • [3]胡违军,王文,卢科青,时光,郭宗福,陈占锋,居冰峰. 实现测头位姿自调整的非球面面形摆臂式检测装置与方法[P]. 浙江省:CN110345859A,2019-10-18.

  • [4]陈建龙,王文,杨贺,陈占锋,卢科青,时光. 用于气浮球轴承承载特性测试的自动连续动态加载方法[P]. 浙江省:CN110346137A,2019-10-18.

  • [5]胡泽建,王文,桑志谦,时光,陈占锋,杨贺,卢科青,郭宗福. 铺粉器机构与可在线检测质量的金属增材制造装置及方法[P]. 浙江省:CN110355366A,2019-10-22.

  • [6]王文,徐建轩,许自镍,陈占锋,时光,杨贺,卢科青,仇文军,吴海梅. 一种球铰链空间转角检测方法[P]. 浙江省:CN110487217A,2019-11-22.

  • [7]王文,徐建轩,杨贺,郭宗福,时光,陈占锋,卢科青,桑志谦,许自镍,仇文军,吴海梅. 一种基于空间分度定位的新型球铰链的测角方法[P]. 浙江省:CN110487218A,2019-11-22.

  • [8]王文,许自镍,徐建轩,桑志谦,卢科青,时光,陈占锋,翁一新,王健. 一种光电编码器的光电信号质量误差分离方法[P]. 浙江省:CN110530407A,2019-12-03.

  • [9]孙涛,王文,吴海梅,陈占锋,卢科青,杨贺,桑志谦,郭宗福. 基于球杆仪进行多轴机床主轴三维误差测量的装置[P]. 浙江省:CN213090624U,2021-04-30.

  • [10]王文,许自镍,徐建轩,桑志谦,卢科青,时光,陈占锋,翁一新,王健. 一种光电编码器的光电信号质量误差分离方法[P]. 浙江省:CN110530407B,2021-06-15.

  • [11]王文,孙涛,魏珠珠,韩付明,王乐,梁倩倩,杨贺,陈占锋,时光,卢科青. 基于反射原理的气浮主轴回转误差检测及补偿装置与方法[P]. 浙江省:CN110948288B,2021-06-15.

  • [12]陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种具有防松功能的紧固件及其使用方法[P]. 浙江省:CN113107952A,2021-07-13.

  • [13]王文,许凯飞,孙涛,陈占锋,王传勇,卢科青. 球杆仪与电容位移传感器组合测量机床三维误差的方法[P]. 浙江省:CN113199303A,2021-08-03.

  • [14]卢科青,秦鑫晨,王文,王传勇,陈占锋,居冰峰. 一种集成共焦法与三角法的位移测量方法[P]. 浙江省:CN113251932A,2021-08-13.

  • [15]王文,孙涛,吴海梅,陈占锋,卢科青. 基于杠杆原理的机床多维几何误差测量方法[P]. 浙江省:CN111922783B,2021-08-31.

  • [16]王文,王瑞金,王健,陈占锋,桑志谦,郭宗福,居冰峰. 基于API模型的微驱动器迟滞建模及前馈控制方法[P]. 浙江省:CN110687785A,2020-01-14.

  • [17]胡违军,王文,卢科青,时光,郭宗福,陈占锋,居冰峰. 一种非球面面形摆臂式检测装置[P]. 浙江省:CN210089607U,2020-02-18.

  • [18]徐建轩,王文,许自镍,陈占锋,时光,杨贺,卢科青,仇文军,吴海梅. 一种球铰链空间转角检测装置[P]. 浙江省:CN210089637U,2020-02-18.

  • [19]王文,孙涛,魏珠珠,韩付明,王乐,梁倩倩,杨贺,陈占锋,时光,卢科青. 基于反射原理的气浮主轴回转误差检测及补偿装置与方法[P]. 浙江省:CN110948288A,2020-04-03.

  • [20]王文,吴海梅,许自镍,徐建轩,翁一新,王瑞金,陈占锋,卢科青,时光,桑志谦,郭宗福. 一种分度二连杆式球杆仪及其对机床精度的检测方法[P]. 浙江省:CN111055167A,2020-04-24.

  • [21]徐建轩,王文,杨贺,郭宗福,时光,陈占锋,卢科青,桑志谦,许自镍,仇文军,吴海梅. 一种基于空间分度定位的新型球铰链[P]. 浙江省:CN210461374U,2020-05-05.

  • [22]胡泽建,王文,桑志谦,时光,陈占锋,杨贺,卢科青,郭宗福. 铺粉器机构与可在线检测质量的金属增材制造装置[P]. 浙江省:CN210548098U,2020-05-19.

  • [23]孙涛,王文,魏珠珠,韩付明,王乐,梁倩倩,杨贺,陈占锋,时光,卢科青. 基于正弦锥面反射法的气浮主轴回转误差检测及补偿装置[P]. 浙江省:CN211103018U,2020-07-28.

  • [24]王文,韩付明,王瑞金,陈占锋,卢科青,杨贺,时光,居冰峰. 一种基于PID逆的压电驱动器前馈控制补偿方法[P]. 浙江省:CN111897205A,2020-11-06.

  • [25]王文,韩付明,王瑞金,陈占锋,卢科青,杨贺,时光,居冰峰. 基于JPI模型的PEA迟滞建模及前馈控制方法[P]. 浙江省:CN111856931A,2020-10-30.

  • [26]王文,王健,卢科青,时光,杨贺,陈占锋,王瑞金,居冰峰. 基于磁流变弹体的刚度自适应快速刀具伺服装置及方法[P]. 浙江省:CN109382700A,2019-02-26.

  • [27]王文,魏珠珠,杨贺,卢科青,陈占锋,时光,唐超锋,裘荣波. 气浮主轴承载补偿装置及方法[P]. 浙江省:CN109488689A,2019-03-19.

  • [28]卢科青,秦鑫晨,王文,王传勇,陈占锋. 一种基于三坐标测量机多传感器快速拆卸装置及使用方法[P]. 浙江省:CN113932743A,2022-01-14.

  • [29]陈占锋,梁益帆,李彦,王慧杰,褚为朋,李绪尧,黄亚鹏,王文,王传勇,卢科青,杨贺. 一种基于液压驱动的机械式复合管道制备方法[P]. 浙江省:CN114055770A,2022-02-18.

  • [30]王文,吕天硕,孙涛,许凯飞,卢科青,陈占锋,王传勇. 一种基于机器视觉的主轴径向跳动测量方法[P]. 浙江省:CN114166117A,2022-03-11.

  • [31]王文,孙涛,陈占锋,卢科青,杨贺. 采用三球杆仪对球铰链球头球心空间偏移误差的检测方法[P]. 浙江省:CN112212822B,2022-03-22.

  • [32]王文,许凯飞,孙涛,陈占锋,王传勇,卢科青. 球杆仪与电容位移传感器组合测量机床三维误差的方法[P]. 浙江省:CN113199303B,2022-03-22.

  • [33]王传勇,谭凯文,王文,卢科青,陈占锋,朱吴乐,居冰峰. 一种基于激光超声的亚表面裂纹长度和深度测量方法[P]. 浙江省:CN114280156A,2022-04-05.

  • [34]王传勇,王文,卢科青,陈占锋,陈剑,居冰峰. 一种基于激光激励表面波的亚表面裂纹长度定量检测方法[P]. 浙江省:CN114280157A,2022-04-05.

  • [35]陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种基于UWB技术的空调风向智能调整方法及系统[P]. 浙江省:CN114294794A,2022-04-08.

  • [36]王传勇,王文,卢科青,陈占锋,陈远流,居冰峰. 一种基于激光激励纵波测量亚表面缺陷深度的方法[P]. 浙江省:CN114295731A,2022-04-08.

  • [37]王文,王瑞金,王健,陈占锋,桑志谦,郭宗福,居冰峰. 基于API模型的微驱动器迟滞建模及前馈控制方法[P]. 浙江省:CN110687785B,2022-05-03.

  • [38]卢科青,秦鑫晨,王文,王传勇,陈占锋,居冰峰. 一种集成共焦法与三角法的位移测量方法[P]. 浙江省:CN113251932B,2022-05-03.

  • [39]卢科青,秦鑫晨,王文,王传勇,陈占锋,居冰峰. 一种集成共焦法与三角法的探路式测头装置及其测量方法[P]. 浙江省:CN113405462B,2022-05-03.

  • [40]梁益帆,陈占锋,王文,王传勇,卢科青,杨贺,王慧杰,褚为朋,李彦,李绪尧,黄亚鹏. 一种液压驱动的机械式复合管道制备装置[P]. 浙江省:CN216540550U,2022-05-17.

  • [41]王文,王乐,卢科青,王传勇,陈占锋,梁倩倩,黄峰,孙佳欢. 面向关节式坐标测量机的实时接触力测量方法及装置[P]. 浙江省:CN113405456B,2022-05-31.

  • [42]王文,孙涛,吴海梅,陈占锋,卢科青,杨贺,桑志谦,郭宗福. 使用双球杆仪测量机床主轴空间三维误差的方法[P]. 浙江省:CN112192317A,2021-01-08.

  • [43]王文,徐建轩,许自镍,陈占锋,时光,杨贺,卢科青,仇文军,吴海梅. 一种球铰链空间转角检测方法[P]. 浙江省:CN110487217B,2020-12-22.

  • [44]王文,徐建轩,杨贺,郭宗福,时光,陈占锋,卢科青,桑志谦,许自镍,仇文军,吴海梅. 一种基于空间分度定位的新型球铰链的测角方法[P]. 浙江省:CN110487218B,2021-01-12.

  • [45]王文,孙涛,陈占锋,卢科青,杨贺. 采用三球杆仪对球铰链球头球心空间偏移误差的检测方法[P]. 浙江省:CN112212822A,2021-01-12.

  • [46]王文,吴海梅,孙涛,陈占锋,卢科青,杨贺,时光. 利用球铰链构建的球杆仪来检测机床空间误差的方法[P]. 浙江省:CN111922782A,2020-11-13.

  • [47]王文,孙涛,吴海梅,陈占锋,卢科青. 基于杠杆原理的机床多维几何误差测量方法[P]. 浙江省:CN111922783A,2020-11-13.

  • [48]陈建龙,王文,杨贺,陈占锋,卢科青,时光. 用于气浮球轴承承载特性测试的自动连续动态加载方法[P]. 浙江省:CN110346137B,2021-03-23.

  • [49]王文,吴海梅,许自镍,徐建轩,翁一新,王瑞金,陈占锋,卢科青,时光,桑志谦,郭宗福. 一种分度二连杆式球杆仪及其对机床精度的检测方法[P]. 浙江省:CN111055167B,2021-03-23.

  • [50]孙涛,王文,吴海梅,陈占锋,卢科青. 一种用于机床多维误差同时检测的改进型球杆仪[P]. 浙江省:CN212762484U,2021-03-23.

  • [51]孙涛,王文,陈占锋,卢科青,杨贺. 一种使用球杆仪测量球铰关节球头空间位移误差的装置[P]. 浙江省:CN212779012U,2021-03-23.

  • [52]王文,吴海梅,孙涛,陈占锋,卢科青,杨贺,时光. 利用球铰链构建的球杆仪来检测机床空间误差的方法[P]. 浙江省:CN111922782B,2021-09-14.

  • [53]陈占锋,褚为朋,李彦,王慧杰,王文,王传勇,郭宗福,卢科青. 多终端信息共享方法、装置、计算机设备和存储介质[P]. 浙江省:CN113395262A,2021-09-14.

  • [54]王文,王乐,卢科青,王传勇,陈占锋,梁倩倩,黄峰,孙佳欢. 面向关节式坐标测量机的实时接触力测量方法及装置[P]. 浙江省:CN113405456A,2021-09-17.

  • [55]卢科青,秦鑫晨,王文,王传勇,陈占锋,居冰峰. 一种集成共焦法与三角法的探路式测头装置及其测量方法[P]. 浙江省:CN113405462A,2021-09-17.

  • [56]陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种天然气管道快速修复装置及修复方法[P]. 浙江省:CN113418077A,2021-09-21.

  • [57]陈占锋,王慧杰,褚为朋,李彦,王文,王传勇,卢科青. 一种天然气管道防护装置及其使用方法[P]. 浙江省:CN113418081A,2021-09-21.

  • [58]王传勇,林江,王文,卢科青,陈占锋,居冰峰. 基于表面波和BP神经网络的亚表面裂纹尺寸测量方法[P]. 浙江省:CN113484336A,2021-10-08.

  • [59]王传勇,孔奕,王文,卢科青,陈占锋,居冰峰. 基于激光超声表面波频域参数的亚表面裂纹定量测量方法[P]. 浙江省:CN113533504A,2021-10-22.

  • [60]秦鑫晨,卢科青,王文,王传勇,陈占锋,居冰峰. 集成共焦法与三角法的位移测量装置[P]. 浙江省:CN214470643U,2021-10-22.

  • [61]王文,孙涛,吴海梅,陈占锋,卢科青,杨贺,桑志谦,郭宗福. 使用双球杆仪测量机床主轴空间三维误差的方法[P]. 浙江省:CN112192317B,2021-11-09.

  • [62]王文,吕天硕,杨贺,陈占锋,王传勇,卢科青,桑志谦,时光,孙涛,王瑞金,许凯飞. 一种无标准棒的精密主轴径向跳动测量方法及装置[P]. 浙江省:CN113670196A,2021-11-19.

  • [63]王慧杰,陈占锋,褚为朋,李彦,王文,王传勇,卢科青. 一种防松螺纹紧固件[P]. 浙江省:CN214837724U,2021-11-23.

  • [64]王文,许凯飞,孙涛,陈占锋,卢科青,王传勇,杨贺,桑志谦. 一种基于双球杆仪的机床几何误差分离方法[P]. 浙江省:CN113770806A,2021-12-10.

  • [65]许凯飞,王文,孙涛,陈占锋,王传勇,卢科青. 球杆仪与电容位移传感器组合的机床三维误差测量装置[P]. 浙江省:CN215147387U,2021-12-14.


2022年

 2022年入选首批杭电钱塘学者,特聘副教授

2021年

2021年度杭州电子科技大学教职工考核优秀

2020年

2020年度杭州电子科技大学教职工考核优秀

2020年杭州电子大学班主任班课大赛二等奖

2020年杭州电子科技大学优秀班主任
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