团队负责人:朱世根
成员:范金辉、白云峰、董威威
安全员:白云峰
学科方向:先进成形制造,工程材料及高性能化
1、团队主攻的研究内容
1.绿色成型制造技术
2.工程材料及其高性能化
3.纳米硬质材料及其强韧化
4.纺织关键零件研发
5.表面强化技术
6.柔性可穿戴外骨骼机器人
7.绿色成形制造与智能机器人
8.功能织物及其产品
2、近五年标志性科研成果
2.1科技奖励
1.高端槽针的研发生产及应用 中国纺织工业联合会科技进步一等奖(2020)
2.新型低能耗环保砂型铸造技术 中国纺织工业联合会技术发明一等奖(2021)
2.2论文
1)Jiayu Qin, Yingnan Zhou, Xike Sun, Weiwei Dong, Yunfeng Bai, Yilan Luo, Shigen Zhu, Investigating on the tribological behavior of binderless WC matrix composite, Ceramics International, Volume 50, Issue 24, Part A, 15 December 2024, 52539-52550
2)Jiayu Qin, Xike Sun, Yingnan Zhou, Weiwei Dong, Yunfeng Bai, Yilan Luo, Shigen Zhu, Corrosion and corrosion-friction effects induced by cutting fluid on binderless WC matrix composite and cemented carbide, Ceramics International, Volume 50, Issue 21, Part B, 1 November 2024, 43334-43339
3)Jiaqi Hui, Jiayu Qin, Yingnan Zhou, Xike Sun, Weiwei Dong, Shigen Zhu, Effect of Al content in CoCrFeNiAlx HEA on mechanical properties and high temperature oxidation resistance of WC-10%CoCrFeNiAlx hard alloy, International Journal of Refractory Metals and Hard Materials, Volume 122, August 2024, 106712
4)Jiayu Qin, Jiaqi Hui, Yingnan Zhou, Weiwei Dong, Yilan Luo, Shigen Zhu, Processing of ZrO2 strengthened and toughened WC matrix composites based on ML, Journal of the European Ceramic Society, Volume 44, Issue 10, August 2024, 5528-5540
5)Weiwei Dong, Minshuai Dong, Danbo Qian, Zixiao Wang, Yuchen Yang, Shigen Zhu, Consolidation and wear resistance of Fe based bulk metallic glass composites by spark plasma sintering, Journal of Non-Crystalline Solids, Volume 623, 1 January 2024, 122687
6)Shigen Zhu, Jiaqi Hui, Xike Sun, Han Bin, Dong Weiwei, Effect of phase transformation of CoCrFeNiAl high-entropy alloy on mechanical properties of WC-CoCrFeNiAl composites, Ceramics International, Volume 49, Issue 20, 15 October 2023, 32388-32398
7)Shigen Zhu, Jiaqi Hui, Jiayu Qin, Dong Weiwei, High temperature oxidation behavior of spark plasma sintered WC-CoCrFeNiAl hard alloys, International Journal of Refractory Metals and Hard Materials, Volume 113, June 2023, 106157
8)Jiaqi Hui, Bin Han, Dong Weiwei, Shigen Zhu, High-temperature oxidation behaviour of vacuum hot-pressed WC-15 wt% Al2O3 composites, Ceramics International, Volume 48, Issue 9, 1 May 2022, 12184-12192
9)Han Bin,Zhu Shigen,Dong Weiwei,Bai Yunfeng,Ding Hao,Luo Yilan,Di Ping. Improved electrochemical corrosion resistance of hot-press sintered WC–Al2O3 composites with added TiC in alkaline solutions. Ceramics International,2021,47(22).
10)SunZe,Zhu Shigen,Dong Weiwei,Bai Yunfeng,Ding Hao,Luo Yilan,Di Ping. Characteristic comparison of stacked WC-based coatings prepared by high-velocity oxygen-fuel spray and electric contact strengthening. Surface & Coatings Technology, 2021,421.
11)Sun Ze,Zhu Shigen,Dong Weiwei,Ding Hao,Bai Yunfeng,Luo Yilan,Di Ping. Geometric Influence of Hard Phase on Corrosion Performance between WC-Reinforced Coatings Prepared by High-Velocity Oxygen-Fuel Spray and Electric Contact Strengthening. Coatings,2021,11(6).
12)Han Bin,Zhu Shigen,Dong Weiwei,Bai Yunfeng,Ding Hao,Luo Yilan,Di Ping. Electrochemical corrosion behavior of hot-pressing sintered WC-Al2O3 composite in alkaline and acidic solutions. Journal of Materials Science,2020,56(6).
13)Xiaoxiao Zhang,Shigen Zhu,Tianyu Shi,Hao Ding,Yunfeng Bai,Ping Di,Yilan Luo. Preparation, mechanical and tribological properties of WC-Al2O3 composite doped with graphene platelets. Ceramics International,2020,46(8).
14)Bowen Fan,Shigen Zhu,Weiwei Dong,Hao Ding,Yunfeng Bai,Yilan Luo,Ping Di. The study of corrosion behavior of WC-MgO composite in H2SO4 and NaOH solution. Ceramics International, 2021, 47 (1): 1364-1372.
15)Qingde Su,Shigen Zhu,Hao Ding,Yunfeng Bai,Ping Di. Comparison of the wear behaviors of advanced and conventional cemented tungsten carbides. International Journal of Refractory Metals and Hard Materials,2019,79.
16)Xiaoxiao Zhang, Shigen Zhu, Hao Ding, Yunfeng Bai, Ping Di. Fabrication and properties of hot-pressing sintered WC-Al2O3 composites reinforced by graphene platelets. International Journal of Refractory Metals and Hard Materials,2019,82.
17)Qingde Su, Shigen Zhu, Yunfeng Bai, Hao Ding, Ping Di. Preparation and elevated temperature wear behavior of Ni doped WC-Al2O3 composite. International Journal of Refractory Metals and Hard Materials,2019,81.
2.3专利
1.朱世根,杨宏贤,白云峰,朱巧莲. 一种精密零件视觉检测方法和装置[P]. ZL202010386398.2, 2020-09-18授权
2.朱世根,洪子康,骆祎岚,丁浩,白云峰,狄平,朱巧莲. 一种适用于槽针的镀层复合制备工艺[P]. ZL202010498669.3, 2020-09-25授权
3.朱世根,骆祎岚,冯刘兴. 经编机槽针批量镀硬铬用组合挂具[P]. ZL201811518141.7 ,2019-04-12授权
4.朱世根,白云峰,李涛,朱巧莲. 一种基于机器视觉的织针自动检测装置[P]. ZL201710898969.9, 2020-05-29授权
5.朱世根,黄园,白云峰,朱巧莲,苏庆德. 一种用于夹持槽针的电镀夹具[P]. ZL201710984538.4, 2019-07-23授权
6.朱世根,白云峰,狄平,丁浩,骆祎岚. 槽针针槽壁厚测量装置[P]. 上海市:ZL201711477232.6, 2020-10-20授权
7.丁浩,骆祎岚,白云峰,狄平,朱世根. 一种织针变形的检测方法[P]. ZL201711477624.2. 2018-06-19授权
8.朱世根,张锐. 防粘砂的铸造用无煤粉湿型砂及其制备方法[P]. ZL201010022459.3,2016-01-20授权
3、正在承担的重要科研项目
1.中央军委科技委XXX发热织物研制项目,300万元
2.中央军委科技委柔性XXX织物研制项目,260万元
3.上海市国防工办柔性传感XXX研制项目,90万元
4.企业绿色砂型材料技术产业化项目,450万元
5.企业箱体类零件表面复合材料涂层试制项目,40万元
6.宝钢热轧轧辊组织、应力评估及热疲劳性能测试项目,28.5万元
4、团队成员担任的主要社会学术兼职、荣誉表彰、人才称号、评审专家或评委、期刊编委等信息
团队成员 | 社会学术兼职 | 荣誉表彰 | 人才称号 | 期刊编委 |
朱 世 根 | 联合国工发组织全球科技创新联盟专家委员会执行主席,世界铸造组织造型材料委员会委员,上海市突出贡献专家协会副会长,教育部纺织工程教学指导委员会纺织装备分委主任委员,上海市学位委员会机械学科评议组成员,全国铸造学会副理事长,全国铸造标准化委员会委员,中国铸造协会专家委副主任,中国材料新技术发展研究会副会长,上海市铸造学会副理事长,第五届教育部科技委委员,美国科学促进会会员 | 2019年中共中央、国务院、中央军委授予“庆祝中华人民共和国成立70周年”纪念章 | 新世纪百千万人才工程国家级人选,国家级有突出贡献的中青年专家,国务院政府特殊津贴,上海市优秀学科带头人,上海市曙光学者,江苏省双创人才 | 《China Foundry》、《铸造》副主编,《东华大学学报》、《铸造工程》、《表面技术》编委 |
范 金 辉 | 中国机械制造工艺协会标准化工作委员会委员,中国大学生机械工程创新创意大赛铸造工艺设计赛执行委员会委员 | 2021年度“云南省脱贫攻坚先进个人” | 《铸造工程》杂志编审 |
5.团队的主要社会贡献
我国经编行业在世界呈现一枝独秀的格局。然而,在项目组高端槽针研发成功之前,高速经编生产用槽针,完全由德国格罗茨公司独家垄断,企业随时面临织针断供、停机停产的风险,生产完全受制于人。因此,我国经编产业在繁荣的表象之下,一直存在重大安全隐患。针对这一行业重大需求和国外公司的技术封锁,项目组突破了精细槽针制造难度的极限,成功开发出可替代进口的槽针,打破国外垄断,解决了针织生产的“卡脖子”问题,使我国经编生产摆脱了核心零件断供的威胁。企业排除了自主发展的隐患,节约了成本,减轻了负担。对实现国产替代和保障经编生产安全,意义重大。
传统的砂型铸造技术一直存在高污染、高能耗、铸件质量不高的世界性难题,研发出“新型无碳粘土湿型砂铸造技术”。突破了铸造行业煤粉粘土湿型砂铸造技术长期存在严重污染的世界性难题,具有非常重要的应用价值,可为铸造行业转型升级绿色发展提供有力的技术支持。包括3位院士和6位行业协会主要领导专家组成的专家组,认定该成果为原创性技术成果并达到国际领先水平。新技术消除了传统砂型铸造的黑色视觉污染,浇铸过程中不产生有毒废气,车间粉尘漂浮物大大减轻,空气质量明显改善;废砂排放量少且无毒性,甚至可以还耕种地;铸件质量和成品率提高。