IntroductionI graduated from Beijing University of Chemical Technology in 2003, majored in Mechanical design and theory, and majored in polymer continuous mixing equipment. I graduated from Beijing University of Chemical Technology at the end of 2007, and obtained my doctorate in 2008. In March 2008, he taught at the university. He was appointed associate Professor of Beijing University of Chemical Technology in January 2012. From August 2013 to August 2014, he was a visiting scholar at Georgia Institute of Technology. Since 2014, Associate Professor, Beijing University of Chemical Technology. Presided over and participated in more than 30 scientific research projects, participated in the national 863 research project, Sinopec key research project. 1 R&D project of NDRC. We have developed a variety of specifications of twin-screw extruder, twin-rotor continuous mixer, reciprocating single screw extruder, tandem grinding disc extruder, melt gear pump extruder, etc. In recent years, it has also been involved in the field of artificial intelligence, and has developed a series of artificial intelligence teaching AIDS such as Rubik's cube robot, pentoku chess robot, and vision car. He has applied for nearly 10 national patents and published nearly 40 academic papers. Main research directions: (1) Processing technology and formulation of polymer materials; (2) Remote monitoring and big data analysis of rubber and plastic factories; (3) polymer processing simulation technology; (4) Artificial intelligence technology. EducationWork ExperienceSocial PositionSocial ActivitiesResearch1) 200,000 tons/year large-scale twin-screw continuous extrusion granulation unit localization project (Sinopec key project) (2) 250,000 tons/year large-scale double rotor continuous extrusion granulation unit localization project (863 project subproject) (3) 140,000 tons/year large-scale twin-screw continuous extrusion granulation unit project (4) 100,000 tons/year large-scale twin-screw continuous extrusion granulation unit project (5) The development of Φ22, Φ35 and Φ65 twin screw extruders and the numerical simulation of the mixing performance of the extrusion system (6) Research on key technology and extrusion theory of new rubber pin extruder - screw configuration design and optimization of barrel heating and cooling structure (7) Development of Φ45, Φ140 reciprocating single screw pin extruder and numerical simulation of mixing performance of extrusion system (8) Development of 30/70, 75/135 and 90/150 series grinding disc extruders and numerical simulation of mixing performance of extrusion system (9) Development of high temperature melt gear for 28X28 small plastics and research on pressure regulation mechanism (10) 90X140 rubber for high temperature melt gear development (11) Development of Φ45X30 dual-drive nonlinear speed ratio small dual-rotor mixer (12) Development and development of 30X100 small grinding disc mixer (13) Development and development of Φ90, Φ120, Φ150 cold feeding rubber pin extruders (14) Study on the preparation process of epoxy resin/fiber fabric composite material and resin simulation of the molding process TeachingI graduated from Beijing University of Chemical Technology in 2003, majored in Mechanical design and theory, and majored in polymer continuous mixing equipment. At the end of 2007, I received my doctorate degree in 2008. I was hired to teach in March 2008. He was appointed associate Professor of Beijing University of Chemical Technology in January 2012. I was a visiting scholar at Georgia Institute of Technology from August 2013 to August 2014. I have been working as an associate professor in Beijing University of Chemical Technology since 2014. PostgraduatesFundingVertical ProjectHorizontal ProjectPublications[1] 毕超,曹利,李翱,江波. 平行双螺杆挤出机的螺杆几何学[J]. 塑料, 2011,04:81-83+24. [2] 毕超,江波. 往复式单螺杆销钉挤出机停留时间分布研究[J]. 工程塑料应用,2007,12:72-76. [3] 毕超,江波. 往复式单螺杆销钉挤出机新型混合元件的开发及其混合性能研究[J]. 塑料,2008,02:92-95. [4] 毕超,林桂强,江波. 平行双螺杆挤出机传动系统结构对比分析及设计中若干问题的探讨[J]. 工程塑料应用,2011,05:91-95. [5] 毕超,闫新华,付志峰,江波. 连续混炼装备混合性能的对比研究[J]. 工程塑料应用,2010,06:74-79. [6] 毕超,江波. 往复式单螺杆销钉挤出机典型螺纹元件混合性能研究[J]. 中国塑料,2008,01:90-95 [7] 毕超,江波. 基于有限元方法的轮胎硫化过程数值模拟[J]. 橡塑技术与装备,2012,11:45-47. [8] 毕超,庄园园,刘倩楠,李翱,江波. 橡胶齿轮泵挤出系统的工作特性和设计难点分析[J]. 橡塑技术与装备,2013,11:47-50. [9] 毕超,曹利,李翱,江波. 平行双螺杆挤出机捏合盘元件设计方法深入探讨[J].塑料,2011,03:1-3+79. [10] 毕超,江波,李翱. 三维螺旋体模型的构建与离散处理[J]. 北京化工大学学报(自然科学版),2006,03:64-67. [11] 曹利,李翱,毕超,江波. 同向旋转双螺杆挤出机相似放大参数优化深入探讨[J]. 塑料,2012,01:83-86. [12]王健平,江波,李翱,毕超. 相似放大理论在大型啮合同向旋转双螺杆挤出机设计中的应用[J]. 塑料,2007,03:66-68+84. [13]闫新华,毕超,李翱,石艳,付志峰,江波. 基于PET/MMT纳米共混体系的连续共混装备混炼性能的对比研究[J]. 塑料,2011,01:14-17. [14] 武停启,江波,毕超,蔡春梅. 复合共挤出熔体中界面位置三维模拟[J]. 塑料,2006,03:82-86. [15]王文飞,罗兵,毕超,袁捷朝,谢兆兴. 螺杆组合对PP/PET共混体系混合效果影响的研究[J]. 中国塑料,2011,02:108-111. [16] 武停启,江波,毕超,蔡春梅. 聚合物熔体全三维非等温数值模拟[J]. 塑料,2006,01:73-78+53. [17]邱国庆,李翱,毕超,江波. 同向双螺杆挤出机混合型螺杆头均温效果三维非等温数值模拟[J]. 塑料,2010,05:71-75. [18]田沁元,程瑞林,刘晓锋,毕超. 双螺杆挤出机的最新发展动态[J]. 橡塑技术与装备,2012,08:20-22. [19]袁捷朝,罗兵,毕超,王文飞,伊大龙. 响应曲面法优化同向旋转双螺杆挤出机最大固体输送量的研究[J]. 中国塑料,2011,01:102-105. [20]刘倩楠,毕超. 往复式单螺杆销钉挤出机往复运动传动机理与混炼性能关系的研究[J]. 工程塑料应用,2013,08:66-71. [21].李翱,毕超,江波. 大型同向旋转双螺杆挤压造粒机的相似放大理论[J]. 塑料,2011,03:86-89. [22]江波,李翱,毕超. 新一代串联式磨盘挤出机[J]. 橡塑技术与装备,2011,01:41-44.[23]庄园园,李翱,毕超,梁家源. 串联式磨盘螺杆挤出机混合过程的研究[J]. 渤海大学学报(自然科学版),2013,04:407-411+424. [24]林桂强,毕超,江波,张冰. 基于BP神经网络的套筒式串联推力轴承组均载性能及承载能力细化研究[J]. 工程塑料应用,2012,07:50-53. [25] 李翱,毕超,江波. 国内外新型混炼装备的研究动向[J]. 塑料,2007,03:89-96. [26] 闫新华,毕超,江波,吴利君. PET纳米复合材料的研究进展[J]. 化工进展,2010,09:1687-1692+1699. [27] 林武,江波,毕超. 挤出机计量段螺杆的优化设计[J]. 橡塑技术与装备,2008,05:34-38. [28]李青寰,毕超.间歇式混合器混合性能研究及混合性能评价指标体系构建[J].橡塑技术与装备,2016,42(22):7-11. [29]张秀娟,毕超.基于平板模型的热固性树脂浸润成型过程的数值模拟[J].橡塑技术与装备,2016,42(20):52-55. [30]袁青香,李翱,毕超.旋转盘式混合器混合过程数值模拟[J].中国塑料,2016,30(07):102-106. [31]张俊,郭少龙,潘家芳,毕超.新一代橡胶销钉挤出机理论研究最新进展[J].橡塑技术与装备,2016,42(13):28-31. [32]樊柯彬,毕超.变位系数对聚合物熔体齿轮泵挤出稳定性的影响[J].工程塑料应用,2016,44(06):72-75. [33]赵庆彪,毕超,虎维岳,王海桥,南生辉,刘再斌,啜晓宇.裂隙含水层水平孔注浆“三时段”浆液扩散机理研究及应用[J].煤炭学报,2016,41(05):1212-1218. [34]郭少龙,杨静,毕超.转子相对旋转方向对双转子混合器混合性能的影响[J].工程塑料应用,2016,44(01):81-84. [35]于国庆,毕超.3D打印参数对聚乳酸试样拉伸性能的影响[J].中国塑料,2017,31(11):125-129. [36]李青寰,毕超.制备工艺对共混物中水溶性分散相状态及水溶过程的影响[J].工程塑料应用,2017,45(07):56-60. [37]张俊,毕超.橡胶挤出机销钉机筒温控过程数值模拟[J].橡胶工业,2018,65(04):456-460. Authorized patent: (1) A meshing disc element for a twin screw extruder and a twin screw extruder CN201010547489.6 (2) A barrel for a screw extruder and a temperature control method CN200910086867.2 (3) A series grinder extruder with different diameter and different gap screw groove volume change CN201410004634.4 (4) A grinder mixer CN201510681062.8 (5) A twin-screw extruder mixing and extrusion one-step 3D printing consumable preparation device CN201720539706.4 AwardspatentHonor RewardAdmissions Information |