Introduction
Time | Location | Education/Position | 10/1989—06/1993 | Beijing Institute of Chemical Technology Department of mechanical engineering Major in polymer processing machinery 北京化工学院机械系高分子材料加工机械专业 | Bachelor degree in Engineering 工学学士学位 | 08/1993—8/1995 | Beijing University of Chemical Technology, Institute of plastic machinery and engineering 北京化工大学塑料机械及塑料工程研究所 | TA 助教 | 09/1995—12/1998 | Beijing University of Chemical Technology Major in Chemical process machinery 北京化工大学化工过程机械专业聚合物加工原理及装备研究方向 | M.S. in Engineering 工学硕士学位 | 01/1999—8/2000 | Beijing University of Chemical Technology, Institute of plastic machinery and engineering 北京化工大学塑料机械及塑料工程研究所 | Lecturer 讲师 | 09/2000—06/2003 | Beijing University of Chemical Technology Major in Chemical process machinery 北京化工大学机电工程学院化工过程机械专业 | Ph.D of Engineering 工学博士学位 | 09/2003—8/2008 | Beijing University of Chemical Technology, Institute of plastic machinery and engineering 北京化工大学塑料机械及塑料工程研究所 | Associate Professor, Deputy Director 副教授、副所长 | 09/2008-12/2014 | Beijing University of Chemical Technology College of Mechanical and Electrical Engineering北京化工大学机电工程学院 | Professor, Associate Dean 教授、副院长 | 01/2015-Present | Beijing University of Chemical Technology College of Mechanical and Electrical Engineering北京化工大学机电工程学院 | Professor 教授 |
Social Position
1. Deputy director of Engineering Research Center of polymer processing equipment, Ministry of Education 2. Vice chairman of Polymer Machinery sub-committee of National Rubber and Polymer Machinery Standardization Technical Committee 3. China Engineering Education Professional Certification expert of Ministry of Education 4. Vice chairman of the international society for advanced materials and manufacturing engineering 5. Member of the Chinese expert group on the implementation of the Montreal Protocol on substances that Deplete the ozone layer 6. Secretary General of China Polymer Machinery Industry Expert Committee 7. Member of Expert Committee of China Plastics Processing Industry Association 8. Teaching Committee of the Ministry of Higher Education 9. Member of teaching cooperation committee of machinery specialty group in Beijing Highly Education As the reviewer of several academic journals, such as《Journal of Cellular Plastic》《AIChE Journal》《Industrial & Engineering Chemistry Research》《Cellular Polymers》《RSC Advances》《Chemical Engineering Progress(in Chinese)》《Journal of Engineering Design(in Chinese)》《Plastics(in Chinese)》《Rubber&Plastic Technology and Equipment(in Chinese)》《China Plastic Machinery(in Chinese)》and technical consultant of some plastic and machinery enterprises.
Social Activities
Through organizing and participating in a series of international and domestic academic conferences, a wider academic and technical communication channel will be established. As a member of the organizing committee of PFC, we hosted the PolyFoam Conference held in Shanghai in 2018 and 2019, and delivery plenary reports respectively. It has been successfully held for six times since 2014, and was cancelled in 2020 due to the epidemic situation. As a chairperson of the committee, we successfully organized the “2018 International Symposium on Advanced Polymer Foaming Technology” held in Wuxi, Jiangsu Province, and alsodelivery a plenary reports. More than 400 participants from the United States, Japan, Germany and China attended the conference, which is the largest professional polymer foaming conference ever organized in China. As the vice chairman of the international society for advanced materials and manufacturing engineering (SAMPE) polymer foaming and porous materials professional committee, we participated in organizing the “First Polymer Foaming and Porous Materials Summit Forum” held in Fuzhou in August 2020. According to statistics, our team has organized and participated in more than 12 domestic and international academic conferences in the past three years. International academic exchanges have been extensively carried out, and a closer relationship has been established with ExxonMobil, Honeywell, SABIC, SK, Borealis, JPP of Japan, PPI of the United States, and IMREof Singapore, etc. Substantive cooperation was carried out with more than half of them. We have established joint R&D centers with many domestic enterprises to promote the transformation of technological achievements. The “Pilot Plant of Beijing University of Chemical Technology” has been established in Nanjing Chuangbo (Mechanical Equipment Co., Ltd) in Oct. 2020, which has invested more than 20 million RMB to build up different test equipment for such as high efficient devolatilization, thermoplastic composites, supercritical fluid foaming and lightweight material preparation and so on. The plant laid a solid foundation for the industrialization of our R&D technology. Through early communication and exchange, the China Construction Research and Development Center - Dongyuan Polyester lightweight novel materials R&D center was successfully established in Nov.2020 in Anhui Dongyuan. By introducing the national scientific research institution - China Academy of Building Sciences, the two sides will jointly developing the application technology and product with polyester lightweight materials for the construction industry. A joint R&D base also has been established in Anhui Runxiang in 2019 to develop the application technology and products related to foaming and composite materials for automobile lightweight structure.
Research
The research of our team mainly focus on the principle of polymer foaming process with supercritical fluids and the preparation mechanism of fiber reinforced thermoplastic composites. For the first time, the quantitative impact mechanism of Polypropylene crystal structure on cell morphology during in batch foaming process was clarified[1], and then a new strategy of shear flow induced orientation regulating the foamability of PP was proposed[2]. An accurate relationship between compress mold foaming process and cell structure was also established. A mathematical model of melt thermal boundary layer was deduced, which laid a theoretical foundation for the design and development of a novel core-hole type melt cooler used in foaming process[3,4]. The relationship between the topological structure of PET molecular chain, rheological property and foaming property was established[5]. A series of extrusion foaming equipment with supercritical fluids integrating dry-free, online chain extension was designed, and the large-scale application of the technology was realized. In the aspect of fiber reinforced thermoplastic composites, the melt impregnation model based on Darcy's law and Reynolds equation was further developed to realize the industrial application of long fiber reinforced thermoplastic (LFT) technology[6,7]. The model was successfully applied to the design key equipment and process optimization of continuous fiber reinforced polymers (CFRP).
从事科研工作以来的代表性论著及被引用情况(限10篇且近三年内发表论著不低于5篇,人文社会科学被引情况仅限CSSCI) Representative works and their citations (limit to ten pieces in total and more than 5 pieces within last three years,CSSCI only for arts and social sciences) | 论文、专著名称 Name of papers or monographs | 学术期刊或出版社名称 (2019年影响因子) Name of journal or press (impact factor 2019) | 年份、卷、页 Year, volume & page | 是否通讯作者 Whether correspondence author | 作(著)者名次 Order in authors | 他引次数 Number of citations | Bubble growth model and its influencing factors in a polymer melt under nonisothermal conditions | JOURNAL OF APPLIED POLYMER SCIENCE(2.52) | 2019Vol.136(12):47210 | Yes | 5 | 3 | The effect of unidirectional shear flow-induced orientation on foaming properties of polypropylene | JOURNAL OF POLYMER ENGINEERING(1.126) | 2020,Vol.40(3):193-202 | Yes | 4 | 1 | Heat transfer performance evaluation of a novel concept of the core-hole heat exchanger for polymer foaming process | INTERNATIONAL JOURNAL OF THERMAL SCIENCES(3.476) | 2020,Vol.151:1-13 | Yes | 7 | 2 | Numerical investigation of polymer melt heat transfer using Shell and tube heat exchanger in continuous polymer foaming process | CHEMICAL ENGINEERING RESEARCH & DESIGN(3.073) | 2019,Vol.151:231-241 | Yes | 6 | 2 | High-melt-elasticity poly(ethylene terephthalate) produced by reactive extrusion with a multi-functional epoxide for foaming | JOURNAL OF APPLIED POLYMER SCIENCE(2.52) | 2018,Vol.135(8):45805 | Yes | 5 | 20 | A Mathematical Model for Continuous Fiber Reinforced Thermoplastic Composite in Melt Impregnation | Applied Composite Materials(1.556) | 2017,24(3),675 | Yes | 5 | 5 | A Modeling Approach to Fiber Fracture in Melt Impregnation | Applied Composite Materials(1.556) | 2017,24(1),193 | Yes | 6 | 4 | Curing kinetics and mechanisms of polysulfone nanofibrous membranes toughened epoxy/amine systems using isothermal DSC and NIR | Thermochimica Acta(2.251) | 2010,Vol.497,27 | Yes | 7 | 33 | Crystallization Behavior and Foaming Properties of Polypropylene Containing Ultra-High Molecular Weight Polyethylene Under Supercritical Carbon dioxide | Journal of Applied Polymer Science(2.52) | 2011,Vol.119, 1275 | Yes | 2 | 31 | Solid-state foaming of isotactic polypropylene and its composites with spherical or fibrous poly(butylenes terephthalate) | Journal of Applied Polymer Science(2.52) | 2015,Vol.15:41801 | Yes | 7 | 12 |
Teaching
本科生课程名称 | 性质 | 学时 | 学生数 | 学年 | 学期 | 高分子材料加工机械设计 Mechanical design for polymer processing | 选修 Elective | 56(6) | 168 | 2017-2018 | 第二学期 Second semester | 文献查阅 Literature review | 选修 Elective | 16 | 115 | 2017-2018 | 第三学期 Third semester | 聚合物加工原理及新技术进展 Recent Advances in Polymer Processing Technology | 选修 Elective | 32 | 72 | 2017-2018 | 第二学期 Second semester | 高分子材料加工机械设计 Mechanical design for polymer processing | 选修 Elective | 48(6) | 84 | 2018-2019 | 第二学期 Second semester | 文献查阅 Literature review | 选修 Elective | 16 | 60 | 2018-2019 | 第三学期 Third semester | 文献查阅 Literature review | 选修 Elective | 16 | 25 | 2019-202 | 第一学期 First semester | 高分子材料加工机械设计 Mechanical design for polymer processing | 选修 Elective | 48(6) | 76 | 2019-2020 | 第二学期 Second semester | 文献检索与科技论文写作 Literature retrieval and scientific paper writing | 选修 Elective | 24 | 84 | 2019-2020 | 第三学期 First semester | 文献检索与科技论文写作 Literature retrieval and scientific paper writing | 选修 Elective | 24 | 72 | 2019-2020 | 第三学期 First semester | 文献查阅 Literature review | 选修 Elective | 16 | 35 | 2020-2021 | 第一学期 First semester |
Postgraduates
研究生课程名称 | 学时 | 学生数 | 学年 | 学期 | 高聚物成形加工理论及设备(学位课) Principle of Polymer processing and equipment | 48 | 84 | 2018-2019 | 第一学期 First semester | 高聚物成形加工理论及设备(学位课) Principle of Polymer processing and equipment | 32 | 118 | 2019-2020 | 第一学期 First semester | 高聚物成形加工理论及设备(学位课) Principle of Polymer processing and equipment | 32 | 73 | 2020-2021 | 第一学期 First semester |
Vertical Project
近三年内作为负责人承担的主要科研任务(限5项) Research projects as major undertaker in last three years (limit to five items) | 项目名称 Project name | 经费(万元) Fund (RMB10,000) | 起止年月Duration | 项目来源 Source |
| The key technology of continuous extrusion foaming process 连续挤出发泡过程及其发泡材料成型的关键技术 | 730 | 2016.7-2021.6 | Ministry of science and technology of China 国家科技部 |
| Preparation of Polyolefin open-cell foams and the study on mechanism + Pilot foam extrusion line by using SCCO2 聚烯烃开孔泡沫制备及机理研究+实验型超临界二氧化碳挤出发泡机组 | 90.5+626 | 2016.8-2021.5 | ExxonMobil Asia Pacific Research & Development Co., Ltd |
| Development of long glass fiber reinforced polypropylene for automobile 汽车用长玻纤增强聚丙烯材料的开发 | 50 | 2018.1-2020.12 | SINOPEC-China Petrochemical Corporation 中国石油化工股份有限公司 |
| Research and development of long fiber reinforced polypropylene composites (LFRP) 长纤维增强聚丙烯复合材料(LFRP)系列技术研究及开发 | 25 | 2020.4-2021.3 | Petrochemicals Research Institute of CNPC 中国石油天然气股份有限公司石油化工研究院 |
| Joint R&D center of BUCT and Anhui Runxiang 北京化工大学-安徽润象新材料科技有限公司联合研发中心 | 20 | 2019.4-2022.3 | Anhui Runxiang Technology Co., Ltd 安徽润象新材料科技有限公司 |
| 合计 | 1541.5 | | |
|
Horizontal Project
近三年内作为负责人承担的主要科研任务(限5项) Research projects as major undertaker in last three years (limit to five items) | 项目名称 Project name | 经费(万元) Fund (RMB10,000) | 起止年月Duration | 项目来源 Source |
| The key technology of continuous extrusion foaming process 连续挤出发泡过程及其发泡材料成型的关键技术 | 730 | 2016.7-2021.6 | Ministry of science and technology of China 国家科技部 |
| Preparation of Polyolefin open-cell foams and the study on mechanism + Pilot foam extrusion line by using SCCO2 聚烯烃开孔泡沫制备及机理研究+实验型超临界二氧化碳挤出发泡机组 | 90.5+626 | 2016.8-2021.5 | ExxonMobil Asia Pacific Research & Development Co., Ltd |
| Development of long glass fiber reinforced polypropylene for automobile 汽车用长玻纤增强聚丙烯材料的开发 | 50 | 2018.1-2020.12 | SINOPEC-China Petrochemical Corporation 中国石油化工股份有限公司 |
| Research and development of long fiber reinforced polypropylene composites (LFRP) 长纤维增强聚丙烯复合材料(LFRP)系列技术研究及开发 | 25 | 2020.4-2021.3 | Petrochemicals Research Institute of CNPC 中国石油天然气股份有限公司石油化工研究院 |
| Joint R&D center of BUCT and Anhui Runxiang 北京化工大学-安徽润象新材料科技有限公司联合研发中心 | 20 | 2019.4-2022.3 | Anhui Runxiang Technology Co., Ltd 安徽润象新材料科技有限公司 |
| | 1541.5 | | |
|
Patent
近三年授权发明专利及转让情况(列举不超过5项) Patents and transfer in last three years | 专利名称 Patent name | 授权专利号 Patent number | 授权年份 Year of grant | 授权国家或地区 Country or region of granting | 本人排名 Order in holders | 技术转让金额(万元) Transfer amount (RMB 10,000) | A continuous fiber reinforced thermoplastic resin melting impregnation device and preparation method thereof 一种连续纤维增强热塑性树脂熔融浸渍装置及制备方法 | 201710288630.7 | 2019.4.16 | P.R.China 中国 | 4 | 20 | A melt impregnation device for reducing fiber fracture rate 一种降低纤维断裂率的熔融浸渍装置 | 201710308321.1 | 2019.4.26 | P.R.China 中国 | 1 | 10 | A melt impregnation device and preparation method of fiber reinforced composites with on-line tension adjustment 一种可在线调整张力的纤维增强复合材料熔融浸渍装置及制备方法 | 201710316611.0 | 2019.10.22 | P.R.China 中国 | 4 | 10 | A kind of microcellular foaming material of aromatic polyester modified by blending and its preparation method 一种共混改性芳香族聚酯微孔发泡材料及其制备方法 | 201710445333.9 | 2019.1.11 | P.R.China 中国 | 3 | 30 | An extrusion foaming method for thermoplastic polyester 一种热塑性聚酯挤出发泡成型方法 | 201811534002.3 | 2020.7.17 | P.R.China 中国 | 4 | 50 |
Honor Reward
近三年获奖目录(限填国际学术性奖励、国家级科研或教学奖励以及省部级科研成果一等奖以上或者相当奖励) Awards in last three years (limit to international academic awards, national research or teaching awards, and first grade in ministerial or provincial research awards) | 获奖项目名称 Name of awarded project | 奖励类别(等级) Award category (class) | 授予单位 Granting institution | 获奖时间 Time of granting | 本人排名 Order in winners | Research on curriculum system and teaching method of engineering materials and mechanical manufacturing foundation based on new engineering 基于新工科的工程材料与机械制造基础课程体系和教学方法研究 | | Teaching Directing Committee of the Ministry of Education 教育部教学指导委员会 | 2020.11 | 17 | Research and Practice on the reform of KAPI system of mechanical manufacturing foundation course for new engineering 面向新工科的机械制造基础课程KAPI体系改革研究与实践 | | National New Engineering Education Innovation Center 全国新工科教育创新中心 | 2020.7 | 41 |
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