个人简介
姓名:庞晓平
出生年月:1975.1
学历学位:工学博士
个人简历
受教育经历
2005/09-2009/06,重庆大学,机械工程学院,博士
2007/11-2008/11,英国谢菲尔大学,机械工程系,博士生
2002/09-2005/06,重庆大学,机械工程学院,硕士
1994/09-1998/06,重庆大学,机械工程系, 学士
研究工作经历
2011/10-现在, 重庆大学,机械工程学院,副教授
2009/06-2011/10,重庆大学,机械工程学院,讲师
2010/01-2010/04,新加坡国立大学,机械工程学院,访问学者
毕业研究生去向
企事业研究机构、院所、高校
主讲课程:工程机械设计,振动理论及应用,机械工程专业英语等,负责国家自然基金项目两项,作为主研人参与国家项目及企业横向课题多项,主要研究复杂机电产品零部件形状优化设计理论及方法(动压轴承形状优化设计、风力机翼型叶片形状及结构优化设计等),工程机械装备相关的机构及结构优化设计与相关技术研究(液压挖掘机工作装置、随车起重装置、塔机吊装机构和混泥土泵车输送臂等)。
研究领域
主要研究方向
1.工程机械设计理论
2.复杂机电设备零部件形状优化设计理论及方法
3.风力机叶片翼型关键技术研究
近期论文
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公开发表论文(代表作)
[1] Zou Z, Chen J, Pang X. Task space-based dynamic trajectory planning for digging process of a hydraulic excavator with the integration of soil–bucket interaction[J]. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics, 2018: 1464419318812589.(SCI&EI)
[2] Zou Z, Chen J, Pang X. Optimum dimensional synthesis for the working mechanism of a hydraulic excavator to improve the digging performance[J]. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics, 2018, 232(3): 357-370.(SCI&EI)
[3] Chen J, Zou Z, Pang X. Digging performance characterization for hydraulic excavator considering uncertainty during digging operation[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2018, 232(5): 857-871.(SCI&EI)
[4] pang xiaoping, wang haoyu, chen jin. Intelligence algorithm for optimization design o fthe low wind speed[J]. ClusterComputing, 2018.3.20, 0(0): 0-0 .(SCI&EI)
[5] Wang Y, Pang X, Chen J, et al. Structural Optimization of Backhoe Hydraulic Excavator Working Attachment Based on Tested Dangerous Conditions[C].International Conference on Test, Measurement and Computational Methods 2015.(会议论文)
[6] Pang X P, Gu X T, Jin C, et al. Structural Analysis and Optimized Design of Working Device for Backhoe Hydraulic Excavator[C]//Proceedings of the 14th IFToMM World Congress. 2015: 588-594.(会议论文)
[7] 庞晓平,聂东,陈进, 等.液压挖掘机工作装置的应力特性及危险工况选取[J].华南理工大学学报(自然科学版),2017,45(12):106-113.(EI)
[8] 任志贵,陈进,王树春, 等.液压挖掘机挖掘阻力特性研究[J].东北大学学报(自然科学版),2015,36(4):551-556.(EI)
[9] 陈进,任志贵,吕梁, 等.基于阻力特性的液压挖掘机复合挖掘力建模[J].东北大学学报(自然科学版),2015,36(7):1015-1019.(EI)
[10] 陈进,庆飞,庞晓平. 基于组合挖掘的反铲液压挖掘机工作装置优化设计[J]. 浙江大学学报(工学版),2014,48(09):1654-1660.(EI)
[11] 陈进,童乐,庞晓平, 等.基于LS-DYNA的液压挖掘机挖掘阻力仿真[J].现代制造工程,2018,(8):75-80. (CSCD&核心期刊)
[12] 庞晓平,聂东,陈进,邹智红,王浩煜. 基于机构和结构的液压挖掘机工作装置协同优化[J]. 机械研究与应用,2017,30(03):49-53.
[13] 梁明锋, 庞晓平, 陈进, 邹智红. 基于极限挖掘力的组合挖掘性能分析[J]. 机械研究与应用, 2018, 31(155): 32-35.
[14] 陈进, 庞晓平, 任志贵. 挖掘机主动挖掘力组合评价方法[P]. 重庆:CN20131001953.9, 2013-10-1.(专利)
[15] 邹智红, 陈进, 庞晓平. 反铲液压挖掘机挖掘性能综合表征方法[P]. 重庆:CN106769131A,2017-05-31.(专利)
[16] 庞晓平, 聂东, 陈进. 一种研究挖掘机工作装置应力特性的三维图谱法[P]. 重庆:CN107239624A,2017-10-10.(专利)
[17] 庞晓平,陈进,魏思远,牛坤,利用三维泛锥楔形参数化设计动压径向轴承的方法,2011.3,中国,CN20110389855.4(专利)
[18] Xiaoping Pang, Ning Qin, Rob S. Dwyer-Joyce, Jin Chen, Jiaxu Wang,A general profile parameterization of hydrodynamic journal bearings for efficient shape optimization[J],Tribology transaction, 2010, 53(1): 117-126. SCI ISI:000273631000006
[19] 庞晓平,陈进,王家序. 采用通用膜厚方程的动压径向轴承形状优化[J]. 西安交通大学学报.2009, 43(1): 57-61. EI20090811917412
[20] Xiaoping Pang, Jin Chen. Shape optimization for hydrodynamic bearings based on general film thickness equation. J. Adv. Manuf. Syst, 2008, 7(2): 275-278. EI20084711717999
[21] 庞晓平,陈进. 基于泛函的动压轴承集成型线理论研究[J]. 润滑与密封,2008,33(2):71-74.
[22] 庞晓平,陈进. 基于泛函的动压轴承形状设计方法研究[J]. 润滑与密封,2008,33(6):12-16.
[23] 庞晓平,于今,刘丰林,基于ICT反求工程的图像处理关键技术分析[J],机械设计与制造,2005(1): 80~83.
[24] 庞晓平,于今,刘丰林,基于ICT图像的矢量化研究[J],机械设计与制造,2005(2): 46~48.
[25] Xiaoping Pang, Jin chen. Parametric and controllable shape model of the water lubricated rubber journal bearing[J]. Advanced Materials Research, 2010,358-361 EI 20120814795846,WOS:000309483300253
[26] Xiaopig Pang, Jin chen. Experimental investigation of hydrodynamic journal bearing optimized shapes based on the general film thickness equation.[C], Fourth international conference on experimental mechanics Singapore, Singapore, 2009:75221-75229,EI20112414049039,wos000285572800051
[27] PANG Xiaoping, WEI Siyuan, NIU Kunc. A parametric study of the general profile for hydrodynamic journal bearing[J], Advanced Materials Research,Switzerland,2013,605-607:38-43,EI: 20130115865099
[28] 庞晓平、牛坤、魏思远. 用CFD方法研究具有通用膜厚方程径向轴承的动压特性, 中国机械工程[J], 21期, pp 2521-2524, 2012/11/10.
[29] Pang X., Chen J., Hussain S.H., Numeric and experimental study of generalized geometrical design of a hydrodynamic journal bearing based on the general film thickness equation[J],Journal of Mechanical Scienceand Technology, 26(10), pp 3149-3158, 2012., SCI WOS:000311673700018. EI20124915755927
[30] Pang X.、 Chen J., Multi-objective shape optimization of hydrodynamic journal bearings using non-dorminated sorting genetic algorithm II[J], Xinan Jiaotong Daxue Xuebao/journal of Southwest Jiaotong University, 47(4), pp 639-645, 2012., EI20124915755927
[31] PANG Xiaoping, CHEN Jin,Study on 3D Shape Optimization for Hydrodynamic Journal Bearing Using Goal Attainment Multi-Objective Function,Appl. Mech. Mater., 2013(319),PP505-509, EI20132816485157 (2013 2nd International Conference on Chemical, Mechanical and Materials Engineering, CMME 2013)
[32] Xiaoping Pang ,Jin Chen,Sinan H. Hussain. Study on Optimization of the Circumferential and Axial Wavy Geometrical Configuration of Hydrodynamic Journal Bearing[J], Journal of Mechanical Science and Technology, 27 (12) ,2013,pp 3693-3701 SCI:WOS:000329103000016
[33] 魏思远; 庞晓平; 牛坤,具有通用膜厚方程径向轴承的动力学研究[J],机械设计,30(7),2014, PP:59-64 CSDC
[34] 庞晓平,陈进,梁河,风力机叶片极限载荷评价与分析[J],重庆大学学报自然科学版,39(1),2015,PP: CSDC