邱丰

发布日期:2017-10-18 作者: 编辑: 点击:

 基本情况

 

姓名:邱丰

性别:男

职称:教授;博士研究生导师

所在系别:材料加工工程

最高学历:研究生

最高学位:博士学位

电话:13604402407

Emailqiufeng@jlu.edu.cn

备注:个人英文学术主页:https://www.researchgate.net/profile/Feng-Qiu-9

详细情况
所在学科专业: 材料加工工程
研究方向:

邱丰,教授,唐敖庆学者(领军A岗),教育部重大人才工程青年学者,吉林大学"高性能合金及复合材料创新团队"负责人。主要从事纳米介质、高性能结构材料微观组织和性能的协同调控;纳米调控金属激光焊及增材制造;合金组织控制及强韧化等制备科学与加工技术领域的教学和科研工作。承担国家自然基金、国家重点研发计划等省部级课题20余项。在Composites Part B: Engineering等材料与冶金领域期刊以第一作者和通讯作者发表SCI检索论文130余篇,SCI他引3000余次,H影响因子40,2023年入选美国斯坦福大学发布的“全球前2%顶尖科学家榜单。授权及公开发明专利50余项,已授权发明专利33项,国际授权发明专利2项,技术转化3项。获吉林省科学技术奖一等奖,江苏省双创人才,长春市创新创业大赛一等奖。国内外学术会议作分会邀请和主题报告17次。担任中国材料研究学会先进凝固科学与技术分会/超声材料科学与技术分会理事,吉林省分析测试技术学会复合材料与合金测试分会副理事长。

研发了多类型预分散内生微纳米颗粒中间合金强化剂,提出了纳米形核介质、合金组织构型及强韧性协同调控的学术思想,阐明了“纳米颗粒调控枝晶生长的动力学规律”及“纳米颗粒钉扎晶界阻碍回复、抑制再结晶组织长大、保持细晶亚结构的高温强化机制”的基本原理;发明了“可控晶格常数内生颗粒尺寸和形貌调控及纳米颗粒引入合金熔体与均匀分散技术”。突破了纳米颗粒在金属熔体内“难加入、易团聚、不易分散”瓶颈难题。攻克了微量纳米颗粒高效强化金属材料技术。纳米强化相关技术成果已经在冶金、材料及汽车行业批量应用。为材料高性能化、长寿命和轻量化提供创新解决方案。

讲授课程:

1.现代液态金属成型方法,本科生(秋季学期);

2.材料成型原理与工艺,本科生(春季学期);

3.金属材料强韧化原理与技术,研究生(春季学期);

4.生产实习,本科生(秋季学期);

5.综合实验,本科生(春季学期)。

教育经历:

1.1999/9-2003/6, 吉林大学, 金属材料工程专业, 学士;

2.2003/9-2009/6, 吉林大学, 材料加工工程专业(硕博连读),博士。

工作经历:

1.2016/12-至今,吉林大学,材料科学与工程学院,教授,博士生导师

2.2015/11-2016/12,奥克兰大学(美国),工程与计算机学院 机械系,访问学者(国家公派)

3.2015/12-2016/11,吉林大学,材料科学与工程学院,副教授,博士生导师

4.2011/10-2015/11,吉林大学,材料科学与工程学院,副教授

5.2009/7-2011/9,吉林大学,材料科学与工程学院,讲师

科研项目:

1.国家自然科学基金面上项目(A类), 批准号:51971101,纳米形核介质、组织构型和强韧化协同调控机制,经费:60万,2020.1-2023.12,在研,负责人。

2.国家自然科学基金面上项目(A类), 批准号:51771081,纳米晶种细化铝合金α-Al枝晶的动力学规律与机制,经费:60万,2018.1-2021.12,在研,负责人。

3. 吉林省科技发展计划,项目号:YDZJ202303CGZH007,高效强化金属材料技术转化及产业化开发,经费:50万,2023.1-2024.12,在研,负责人。

4. 吉林省发展及改革委产业技术研究与开发项目, 项目号:2021C038-3, 纳米强化高性能热作模具钢新技术及产业化应用, 2021.1-2022.12,在研,负责人。

5.中国航天科技集团产学研合作基金,项目编号:SAST2020-116,双相纳米陶瓷(TiC+TiB2)高效强韧化铝合金机理研究及材料开发, 2021.1-2022.12,在研,负责人。

6.科技部重点研发(973计划)子项(A类),批准号:2012CB619602-1-5, 先进金属复合材料可控复合制备理论(复合组织和缺陷形成与演化规律),经费60万元,运行期间2012.01-2016.12,已结题,负责人。

7.吉林省科技发展计划(重点技术攻关)项目(A类),项目号:20190302004GX,汽车和高速列车用高性能铝合金组织和性能一体化调控剂开发,经费:100万,2019.1-2021.12,在研,负责人。

8.国家自然科学基金青年基金(A类),批准号:51101071,非晶合金变质对铸造合金组织演变的影响规律及其作用机制,2012.01-2014.12,25万元,已结题,负责人。

9.吉林大学杰出青年培育计划, 吉林大学,经费 40万元,2019-2021,在研,负责人。

10.江苏省镇江市人民政府“金山人才”计划(A类), 经费:100万,2018.1-2020.12,已结题,负责人。

11.江苏省“双创人才”(企业创新类),经费:50万,2018 -2021,已结题,负责人。

12.国家重点研发计划子课题,批准号:2017YFB0703101,复合体系相容性集成计算与设计准则,经费128万元,运行期间2017.06-2021.05,已结题,第一参加人。

13.吉林省教育厅 2020年“十三五”科学技术项目, 项目编号:JJKH20200971KJ, 微量纳米颗粒一体化调控铝合金组织和性能关键技术基础研究, 2020.1-2021.12. 负责人。

14.江苏省镇江市丹徒区人民政府“长山计划”人才项目, 经费:30万,2018.1-2020.12,已结题,负责人。

15.横向项目: QT700-10级高韧性球墨铸铁材料的应用开发,合同编号:HT2017Z1529, 一汽铸锻有限公司, 经费 49.8万元,运行时间2018.1-2018.12, 已结题,负责人。

16.吉林大学优秀青年教师培养计划(精英培养阶段),吉林大学,经费 40万元,2018.1-2019.12,已结题,负责人。

17.2018年青岛市源头创新计划应用基础研究项目,“航空航天用铝合金的纳米颗粒强化技术基础研究”, 经费 10万元,2018.1-2019.12,已结题,负责人。

18.吉林省科技发展计划项目,项目号:20170101178JC,铝合金熔体内非晶态细化剂原位晶化形成纳米尺寸晶种的机制及其工程应用基础,经费 10万元,运行时间2017.1-2019.12, 已结题,负责人。

19.吉林省教育厅“十三五”科学技术研究,批准号:2015-479, 内生纳米TiC颗粒增强铝基复合材料组织演变规律及强化机制,2016.1.1-2017.12.31,已结题,负责人。

20.吉林大学优秀青年教师培养计划,吉林大学,经费 18万元,2014.7-2017.7, 已结题,负责人。

21.国家留学基金委公派留学基金,批准号:201506175140, “未来科学家”(高级研究者和访问学者)项目,2015.12-2016.11,全额资助,先进材料领域。

22.吉林省自然科学基金,批准号:20130102022JC,一种新型变质剂-非晶合金在铝合金中的变质,2013.01-2015.12,8万元,已结题,负责人。

23.中科院稀土资源利用国家重点实验室开放课题基金,批准号:RERU2014009,非晶合金中稀土元素在铝合金变质中的作用及机制, 2014.01-2015.12,5万元,已结题,负责人。

24.教育部高等学校博士学科点专项科研基金(新教师类),批准号:20100061120063,纳米陶瓷增强金属间化合物基复合材料的强韧化机理,2011.01-2013.12,已结题,负责人。

25.横向项目:一汽集团铸造公司,合同编号:HT2014Z070704,铸态高强韧性铸铁材料(QT800-5)开发,2014.05-2015.03,35万元,已结题,负责人。
学术论文:

发表论文情况(按时间倒排序, *通讯作者):至今以第一作者或通讯作者发表SCI检索论文130篇,SCI他引3000余次。

2023年

1. T.-S. Liu, F. Qiu*, H.-Y. Yang, S. Liu, Q.-C. Jiang, L.-C. Zhang, Exploring the potential of FSW-ed Al–Zn–Mg–Cu-based composite reinforced by trace in-situ nanoparticles in manufacturing workpiece with customizable size and high mechanical performances, Composites Part B: Engineering (2023) 110425.

2. Bai-Xin Dong, Qing-Yuan Li, Shi-Li Shu, Xiang-Zheng Duan, Qian Zou, Xue Han, Hong-Yu Yang, Feng Qiu*, Qi-Chuan Jiang. Tribology International 177 (2023) 107943.

3.Shirong Zhu, Kaibin Xie, Qiaoli Lin, Rui Cao, Feng Qiu*. Experimental determination of surface energy for high-energy surface: A review. Advances in Colloid and Interface Science,2023, 315, 102905.

4.Yi-Fan Yan, Shu-Qing Kou, Hong-Yu Yang, Shi-Li Shu, Feng Qiu*, Qi-Chuan Jiang, Lai-Chang Zhang. International Journal of Extreme Manufacturing, 2023, 5, 032006.

5.Chuan-De Li, Wen-Xin Wang, Feng Qiu*, He Zhang, Shi-Li Shu, Tai-Yu Li, Qi-Chuan Jiang. Ceramics International 2023, 49, 16661–16672.

6.Xu-Dong Ma, Hong-Yu Yang, Bai-Xin Dong, Shi-Li Shu, Zheng Wang, Yong Shao, Qi-Chuan Jiang, Feng Qiu*. Novel method to achieve synergetic strength–ductility improvement of Al–Cu alloy by in situ TiC–TiB 2 particles via direct reaction synthesis. Materials Science & Engineering A 2023, 869 144810.

7.Tian-Shu Liu, Feng Qiu*, Hong-Yu Yang, Shi-Li Shu, Jian-Feng Xie, Qi-Chuan Jiang, Lai-Chang Zhang. Insights into the influences of nanoparticles on microstructure evolution mechanism and mechanical properties of friction-stir-welded Al 6061 alloys. Materials Science & Engineering A 2023, 871,144929.

8.Yu Zhang, Xin Li, Yanxin Wang, Lei Kang, Ting Wang, Feng Qiu*. Effect of laser fusion repair on the microstructure and properties of stainless steel laser welds. Journal of Materials Research and Technology, 2023, 22, 2781-2791.

9.Lin Zhu, Feng Qiu*, Lian-Yi Shan, Hong-Yu Yang, Shi-Li Shu, Yong Shao,Qi-Chuan Jiang. Instantaneous efficient microstructure manipulation of eutectic Al – Si alloy by trace in-situ nanoparticles and their mechanism in superior tensile properties. Materials Characterization, 2023, 199, 112755.

10.Yu Zhang, Bingxu Wang, Feng Qiu*, Hongyu Yang, Gary C. Barber. Superior wear resistance of dual-phased TiC+TiB2 ceramic nanoparticles reinforced carbon steels. Journal of Materials Research and Technology, 2023, 24, 653-662.

11.Fang Chang, Shi-Li Shu, Chuan-De Li, Feng Qiu*, and Qi-Chuan Jiang. Effect of Nano-TiC Ceramic Particles on Microstructuresand Properties of High-Cr Steel under Different Heat-Treatment Conditions. Adv. Eng. Mater. 2023, 2300631.

12.Shuang-Shuang Li, Xin Yue, Qing-Yuan, He-Li Peng,Bai-Xin Dong, Tian-Shu Liu, HongeYu Yang, Jun Fan, Shi-Li Shu, Feng Qiu*, Qi-Chuan Jiang. Development and applications of aluminum alloys for aerospace industry. Journal of Materials Research and Technology, 2023, 27, 944-983.

 

2022年

1. Bai-Xin Dong, Qiang Li, Hong-Yu Yang, Tian-Shu Liu, Feng Qiu*, Shi-Li Shu, Qi-Chuan Jiang, Lai-Chang Zhang. Synergistic optimization in solidification microstructure and mechanical performance of novel (TiCxNy −TiB2)p/Al nanocomposites: Design, tuning and mechanism. Composites: Part A, 2022,155:  106843.

2. Qiaoli Lin, Kaibin Xie, Ran Sui, Dekui Mu, Rui Cao, Jinghuan Chang, Feng Qiu*. Kinetic analysis of wetting and spreading at high temperatures: A review. Advances in Colloid and Interface Science 305 (2022) 102698.

3. T.-S. Liu, F. Qiu*, H.-Y. Yang, C.-L. Tan, B.-X. Dong, J.-F. Xie, S.-L. Shu, Q.-C. Jiang, L.-C. Zhang*, Versatility of trace nano-TiC–TiB2 in collaborative control of solidification-rolling-welding microstructural evolution in Al–Mg–Si alloy for enhanced properties, Materials Science and Engineering: A 851 (2022) 143661.

4. Xue Han, Zhenpu Zhang, Baishu Wang, Steven J. Thrush, Gary C. Barber, Feng Qiu*. Microstructures, compressive residual stress, friction behavior, and wear mechanism of quenched and tempered shot peened medium carbon steel. Wear, 2022, 488–489, 204131.

5. Bingxu Wang, Feng Qiu*, Gary C. Barber, Qian Zou, Jing Wang, Shaoyi Guo, Yongfeng Yuan, Qichuan Jiang. Role of nano-sized materials as lubricant additives in friction and wear reduction: A review. Wear 490–491 (2022) 204206.

6. H. Zhang, F. Qiu*, H.-Y. Yang*, W.-X. Wang, S.-L. Shu, Q.-C. Jiang, Microstructure manipulation mechanism and mechanical properties improvement of H13 steel via trace nano-(TiC+TiB2) particles, Materials Characterization 188 (2022) 111924.

7. Jun Fan, Yongqi Wu, Xin Qiu, Zheng Tian, Jian Meng, Peng Wan, Chen Li, Baixin Dong, Feng Qiu*. Remarkably enhancing mechanical and degradation performance of cast MgZn1.2 alloys via small amount addition of zirconium combined with hot extrusion for orthopedic applications. Journal of Materials Research and Technology, 2022, 19, 1111-1119.

8. Bingxu Wang, Yu Zhang, Feng Qiu*, Baixin Dong , Hongjun Li, Zirui Hu, Yongfeng Yuan, Shaoyi Guo, Min Zhu, Simin Yin, Yongping Jin, Gary C. Barber. Synergistic optimization in microstructure and mechanical properties of low carbon steel via trace amount of nano-sized TiC-TiB2. Materials Characterization 190 (2022) 112060.

9. Xinmiao Zhong, Wen-Xin Wang, Yue Han, Xin Li, Shu-Qing Kou, Feng Qiu*, Enhancing the strength-ductility synergy of Fe-based composites by changing interface bonding between matrix and TiCx with various stoichiometric ratios. Ceramics International 48 (2022) 31773–31782.

10. Bingxu Wang, Feng Qiu*, Lei Chen, Qunchao Zhou, Baixin Dong, Hongyu Yang, Jing Yang, Zude Feng, Na Tyrer, Gary C. Barber, Ming Hu. Microstructure and shearing strength of stainless steel/low carbon steel joints produced by resistance spot welding. Journal of Materials Research and Technology, 2022, 20, 2668-2679.

11. X.-Y. Yao, F. Qiu*, H.-Y. Yang*, S.-L. Shu, T.-T. Li, Q.-C. Jiang, Role of in-situ nanocrystalline in solidification behaviors manipulation, microstructure refinement, and mechanical properties enhancement of Al-Cu4/Al-Mg1 alloys, Materials Characterization 194 (2022) 112408.

 

2021年

1. HongYu Yang, Zheng Wang, LiangYu Chen, ShiLi Shu, Feng Qiu*, LaiChang Zhang. Interface formation and bonding control in high-volume-fraction (TiC+TiB2)/Al composites and their roles in enhancing properties. Composites Part B, 2021, 209, 108605.

2.Hong-Yu Yang, Yi-Fan Yan, Tian-Shu Liu, Bai-Xin Dong, Liang-Yu Chen,Shi-Li Shu, Feng Qiu*, Qi-Chuan Jiang, Lai-Chang Zhang. Unprecedented enhancement in strength-plasticity synergy of (TiC+Al6MoTi+Mo)/Al cermet by multiple length-scale microstructure stimulated synergistic deformation. Composites Part B, 2021, 225, 109265.

3.Bai-Xin Dong, Xu-Dong Ma, Tian-Shu Liu, Qiang Li, Hong- Yu Yang, Shi- Li Shu, Bing-Qi Zhang, Feng Qiu*, Qi-Chuan Jiang. Reaction behaviors and specific exposed crystal planes manipulation mechanism of TiC nanoparticles. J Am Ceram Soc. Journal of the American Ceramic Society. 2021;104(6):2820-35.

4.Lin Zhu, Feng Qiu*, Qian Zou, Xue Han, Shi-Li Shu, Hong-Yu Yang, Qi-Chuan Jiang. Multiscale design of α -Al, eutectic silicon and Mg2Si phases in Al-Si-Mg alloy manipulated by in situ nanosized crystals. Materials Science & Engineering A, 2021, 802 ,140627.

5.Bingxu Wang, Feng Qiu*, Weiwei Cui, Yongping Jin, Yu Zhang, Zirui Hu, and Gary. C. Barber. Microstructure and Tensile Properties of Graphite Ductile Iron Improved by Minor Amount of Dual-Phased TiC–TiB2 Nanoparticles. Advanced Engineering Materials,2021,2100246.

6.Feng Qiu, He Zhang, Chuan-Lu Li, Zhi-Fa Wang, Fang Chang, Hong-Yu Yang, Chuan-De Li, Xue Han, Qi-Chuan Jiang. Simultaneously enhanced strength and toughness of cast medium carbon steels matrix composites by trace nano-sized TiC particles. Materials Science & Engineering A, 2021, 819 ,141485.

7.He Zhang, Wen-Xin Wang, Fang Chang, Chuan-Lu Li, Shi-Li Shu, Zhi-Fa Wang, Xue Han, Qian Zou, Feng Qiu*, Qichuan Jiang. Microstructure manipulation and strengthening mechanisms of 40Cr steel via trace TiC nanoparticles. Materials Science & Engineering A, 2021, 822 ,141693.

8.Yun-lei Gao, Shu-qing Kou, Jun-nan Dai, Zhi-fa Wang, Shi-li Shu, Shuang Zhang, Feng Qiu*, Qi-chuan Jiang. Microstructural configuration and compressive deformation behavior of a TiAl composite reinforced by Mn and in situ Ti 2 AlC particles. Materials Science & Engineering A, 2021, 823 ,141772.

9.Fang Chang, He Zhang, Yun-Lei Gao, Shi-Li Shu, Feng Qiu*, Qi-Chuan Jiang. Microstructure evolution and mechanical property enhancement of high-Cr hot work die steel manipulated by trace amounts of nano-sized TiC. Materials Science & Engineering A, 2021, 824 ,141778.

10.Qiang Li, Bai-Xin Dong, Tian-Shu Liu, Hong-Yu Yang, Shi-Li Shu, Feng Qiu*, Qi-Chuan Jiang. Insight into solidification microstructure control by trace TiCN–TiB2 particles for yielding fine-tuned nanoprecipitates in a hypoeutectic Al–Si–Mg alloy. Materials Science & Engineering A, 2021, 827 ,142093.

 

2020年

1.Bingxu Wang, Gary C. Barber, Feng Qiu*, Qian Zou, Hongyu Yang. A review: phase transformation and wear mechanisms of single-step and dual-step austempered ductile irons. Journal of Materials Research and Technology, 2020, 9, 1054-1069.

2.Lei Wang, Baixin Dong, Feng Qiu*, Run Geng, Qian Zou, Hongyu Yang, Qingyuan Li, Zihan Li, Qinglong Zhao, Qichuan Jiang. Dry sliding friction and wear characterization of in situ TiC/Al-Cu3.7-Mg1.3 nanocomposites with nacre-like structures. Journal of Materials Research and Technology, 2020, 9, 641-653.

3.Xue Han, Zhenpu Zhang, Jiayu Hou, Gary C. Barber, Feng Qiu*. Tribological behavior of shot peened/austempered AISI 5160 steel. Tribology International,2020, 145 106197.

4.Qiang Li, Feng Qiu*, Bai-Xin Dong, Xiang Gao, Shi-Li Shu, Hong-Yu Yang, Qi-Chuan Jiang. Processing, multiscale microstructure refinement and mechanical property enhancement of hypoeutectic Al–Si alloys via in situ bimodal-sized TiB2 particles. Materials Science & Engineering A, 2020, 777 ,139081.

5.Xue Han, Zhenpu Zhang, Yanhao Rong, Steven J Thrush, Gary C. Barber, Hongyu Yang, Feng Qiu*. Bainite Kinetic Transformation of Austempered AISI 6150 Steel. Journal of Materials Research and Technology, 2020, 9, 1357-1364.

6.Bingxu Wang, Yuming Pan, YuLiu, Gary C.Barberb, Feng Qiu*, Ming Hu. Wear behavior of composite strengthened gray cast iron by austempering and laser hardening treatment. Journal of Materials Research and Technology, 2020, 9, 2037-2043.

7.Tao-Tao Li, Hong-Yu Yang, Tian-Jing Miao, He-Li Peng, Xu Chen, Lin Zhu ,Tao-Tao Duan, Feng Qiu*, Zhi-Hao Bai, Shu-Ming Chen, Ying-Ying Liu, Xue Han, Shuang Zhang, Qi-Chuan Jiang. Microstructure refinement and strengthening of Al–Cu alloys manipulated by nanocrystalline phases formed by in situ crystallization of Ni–Nb–Ti metallic glasses in melt. Journal of Materials Research and Technology, 2020, 9, 4494-4505.

8.Shuan Liu, Xin Zhang, He-Li Peng, Xing Han, Hong-Yu Yang, Tao-Tao Li, Lin Zhu, Shuang Zhang, Feng Qiu*, Zhi-Hao Bai, Shu-Ming Chen, Wei Zhou,Qi-Chuan Jiang. In situ nanocrystals manipulate solidification behavior and microstructures of hypereutectic Al-Si alloys by Zr-based amorphous alloys. Journal of Materials Research and Technology, 2020, 9, 4644-4654.

9.Bingxu Wang, Yuming Pan, Yu Liu, Na Lyu, Gary C. Barber, Rui Wang, Weiwei Cui, Feng Qiu*, Ming Hu. Effects of quench-tempering and laser hardening treatment on wear resistance of gray cast iron. Journal of Materials Research and Technology, 2020, 9, 8163-8171.

10.Bingxu Wang, Feng Qiu*, Gary C. Barber, Yuming Pan, Weiwei Cui, Rui Wang. Microstructure, wear behavior and surface hardening of austempered ductile iron. Journal of Materials Research and Technology, 2020, 9, 9838-9855.

11.Xue Han, Zhenpu Zhang, Jiayu Hou, Steven J. Thrush, Gary C. Barber, Qian Zou, Hongyu Yang, Feng Qiu*. Tribological behavior of heat treated AISI 6150 steel. Journal of Materials Research and Technology, 2020, 9, 12293-12307.

12.Qiang Li, Feng Qiu*, Bai-Xin Dong, Hong-Yu Yang, Shi-LiShu, Min Zha, Qi-ChuanJiang. Investigation of the influences of ternary Mg addition on the solidification microstructure and mechanical properties of as-cast Al–10Si alloys. Materials Science & Engineering A, 2020, 798, 140247.

13.Xue Han, Zhenpu Zhang, Yuming Pan, Gary C. Barber, Hongyu Yang, Feng Qiu*. Sliding wear behavior of laser surface hardened austempered ductile iron. Journal of Materials Research and Technology, 2020, 9, 14609-14618.

 

2019年

1.Lin Zhu, Feng Qiu*, Dong Qiu, Tao-Tao Duan, Fang Chang, Tao-Tao Li, Shi-Li Shu, Hong-YuYang, Yang He, Qi-Chuan Jiang. Efficient microstructure refinement of Al-Si-Mg alloy manipulated by nanocrystals formed by in-situ crystallization in melt. Materials Science and Engineering A, 2019, 751, 90-98.

2.Yu-Yang Gao, Feng Qiu*, Qing-Long Zhao, Qi-Chuan Jiang. A new approach for improving the elevated-temperature strength and ductility of Al–Cu–Mg–Si alloys with minor amounts of dual-phased submicron/nanosized TiB2–TiC particles. Materials Science & Engineering A, 2019, 764 ,138266.

3.Qiang Li, Feng Qiu*, Yu-Yang Gao, BaiXin Dong, Shili Shu, Mingming Lv, Hong-YuYang,Qing–Long Zhao,Qi-Chuan Jiang. Microstructure refinement and strengthening mechanisms of bimodal-sized and dual-phased (TiCn-Al3Tim)/Al hybrid composites assisted ultrasonic vibration. Journal of Alloys and Compounds, 2019,788, 1309-1321.

4.Bai-Xin Dong, Hong-Yu Yang, Feng Qiu*, Qiang Li, Shi-Li Shu, Bing-Qi Zhang, Qi-Chuan Jiang. Design of TiCx nanoparticles and their morphology manipulating mechanisms by stoichiometric ratios: Experiment and first-principle calculation. Materials and Design, 2019, 181, 107951.

5.Lin Zhu, Tian-Shu Liu, Tao-Tao Duan, Tao-Tao Li, Feng Qiu*, Hong-Yu Yang, Zhi-Hao Bai, Ying-Ying Liu, Qi-Chuan Jiang. Design of a new Al-Cu alloy manipulated by in-situ nanocrystals with superior high temperature tensile properties and its constitutive equation. Materials and Design, 2019, 181, 107945.

6.Jian-Feng Xie, Tian-Shu Liu, Qiang Li, Qing-Yuan Li, Zi-Han Xu, Feng Qiu*, Jian Tang, Hong-Yu Yang, Qi-Chuan Jiang. Nanoparticulate dispersion, microstructure refinement and strengthening mechanisms in Ni-coated SiCp/Al-Cu nanocomposites. Materials Science & Engineering A, 2019, 762 ,138092.

7.Yu-Yang Gao, Feng Qiu*, Run Geng, Jian-Ge Chu, Qing-Long Zhao,Qi-Chuan Jiang. Effects of nanosized TiCp dispersion on the high-temperature tensile strength and ductility of in situ TiCp/Al-Cu-Mg-Si nanocomposites. Journal of Alloys and Compounds, 2019,735, 310-317.

 

2018年以前

1.Qiang Li, Feng Qiu*, Bai–Xin Dong, Run Geng, Ming–ming Lv, Qing–Long Zhao,Qi-Chuan Jiang. Fabrication, microstructure refinement and strengthening mechanisms of nanosized SiCP/Al composites assisted ultrasonic vibration. Materials Science and Engineering A, 2018,735, 310-317.

2.Run Geng, Feng Qiu*, Qichuan Jiang.Reinforcement in Al Matrix Composites: A Review of Strengthening Behavior of Nano-sized Particles. Advanced Engineering Materials,2018, ,20,1701089,1-13.

3.Yu-Yang Gao, Bai-Xin Dong, Feng Qiu*, Run Geng, Lei Wang, Qing-Long Zhao, Qi-Chuan Jiang. The superior elevated-temperature mechanical properties of Al-Cu-Mg-Si composites reinforced with in situ hybrid-sized TiCx-TiB2 particles. Materials Science and Engineering A, 2018,728, 157-164.

4.Lei Wang, Feng Qiu*, Qian Zou, De-Long Yang, Jian Tang, Yu-Yang Gao, Qiang Li, Xue Han, Shi-Li Shu, Fang Chang, Qichuan Jiang. Microstructures and tensile properties of nano-sized SiCp/Al-Cu composites fabricated by semisolid stirring assisted with hot extrusion. Materials Characterization, 2017, 131,195-200.

5.Delong Yang, Feng Qiu*, Qinglong Zhao, Lei Wang, Qichuan Jiang. The abrasive wear behavior of Al2014 composites reinforced with Ti5Si3-coated SiCp. Tribology International, 2017, 112, 33-41.

6.De-Long Yang, Feng Qiu*, Qing-Long Zhao, Qi-Chuan Jiang. The microstructure and tensile property for Al2014 composites reinforced with Ti5Si3-coated SiCP. Materials Science and Engineering A, 2017,688, 459-463.

7.Lei Wang, Feng Qiu*, Qian Zou, De-Long Yang, Jian Tang, Yu-Yang Gao, Qiang Li, Xue Han, Shi-Li Shu, Fang Chang, Qichuan Jiang. Microstructures and tensile properties of nano-sized SiCp/Al-Cu composites fabricated by semisolid stirring assisted with hot extrusion. Materials Characterization, 2017, 131,195-200.

8.Delong Yang, Feng Qiu*, Qinglong Zhao, Qichuan Jiang. Excellent compressive strength and ductility of Ti5Si3–coated SiCP/Al2014 composites. Journal of Alloys and Compounds, 2017, 698, 1086-1093.

9.Lei Wang, Feng Qiu*, Qinglong Zhao, Huiyuan Wang, Delong Yang, Qichuan Jiang. Simultaneously increasing the elevated-temperature tensile strength and plasticity of in situ nano-sized TiCx/Al-Cu-Mg composites. Materials Characterization, 2017, 125, 7-12.

10.De-Long Yang, Feng Qiu*, Zong-Kun Lei, Qing-Long Zhao, Qi-Chuan Jiang. The interfacial structure and mechanical properties of Ti5Si3-coated SiCP/Al2014 composites fabricated by powder metallurgy with hot pressing. Materials Science and Engineering A, 2016,661,217-221.

11.Dong–Shuai Zhou, Feng Qiu*, Qi–Chuan Jiang. Superior tensile properties of in situ nano-sized TiCp/Al-Cu composites fabricated by reaction in melt method. Materials Science and Engineering A, 2016, 658:409-414.

12.Feng Qiu, Jiange Chu, Wei Hu, Jianbang Lu, Xiaodong Li, Yue Han, Qichuan Jiang. Study of effect of Zr addition on the microstructures and mechanical properties of (TiCx-TiB2)/Cu composites by combustion synthesis and hot press consolidation in the Cu-Ti-B4C-Zr system. Materials Research Bulletin, 2015, 70, 167-172.

13.Zhihao Bai, Feng Qiu*, Yingying Liu, Qichuan Jiang. Superior strength and ductility of the Al–Cu alloys inoculated by Zr-based metallic glass at elevated temperatures. Materials Science and Engineering A, 2015, 645, 357-360.

14.Feng Qiu, Rui Zuo, ShiLi Shu, YaWei Wang, QiChuan Jiang. Effect of Al addition on the microstructures and compression properties of (TiCxNy-TiB2)/Ni composites fabricated by combustion synthesis and hot press. Powder Technology, 2015, 286, 716-721.

15.Delong Yang, Feng Qiu*, Weixing Zhao, Ping Shen, Huiyuan Wang, Qichuan Jiang. Effects of Ti-coating layer on the distribution of SiCP in the SiCP/2014Al composites. Materials and Design, 2015, 87, 1100-1106.

16.Dongshuai Zhou, Feng Qiu*, Qichuan Jiang. The nano-sized TiC particle reinforced Al-Cu composite with superior tensile ductility. Materials Science and Engineering A, 2015, 622: 189–193.

17.Longjiang Zhang, Feng Qiu*, Jinguo Wang, Qichuan Jiang. High strength and good ductility at elevated temperature of nano-SiCp/Al2014 composites fabricated by semi-solid stir casting combined with hot extrusion. Materials Science and Engineering A, 2015, 626, 338–341.

18.Zhihao Bai, Feng Qiu*, Jiaxing Xue, Bingqi Zhang, Qichuan Jiang. Simultaneously increasing strength and ductility of the Al–Cu alloys inoculated by Zr-based metallic glass. Materials Characterization,2015, 100: 36–40.

19.Zhihao Bai, Feng Qiu*, Jiaxuan Chi, Tao Zhang, Qichuan Jiang. Microstructure evolution and mechanical properties of Al–Cu alloys inoculated by FeBSi metallic glass. Materials and Design,2015, 67, 130–135.

20.Longjiang Zhang, Feng Qiu*, Jinguo Wang, Huiyuan Wang, Qichuan Jiang. Microstructures and mechanical properties of the Al2014 composites reinforced with bimodal sized SiC particles. Materials Science and Engineering A, 2015, 637, 70-74.

21.Zhihao Bai, Yumei Xia, Feng Qiu*, Yingying Liu, Wei Hu, Qichuan Jiang. Effects of RExOy addition on corrosion behavior of the Al–Cu alloys in 3.5 wt.% NaCl solution and pH = 4 acid solution. Applied Surface Science, 2014, 307, 153–157.

22.Longjiang Zhang, Delong Yang, Feng Qiu*, Jinguo Wang, Qichuan Jiang. Effects of reinforcement surface modification on the microstructures and tensile properties of SiCp/Al2014 composites. Materials Science & Engineering A,2015, 624, 102–109.

23.Lei Wang, Feng Qiu*, Jingyuan Liu, Huiyuan Wang, Jinguo Wang, Lin Zhu, Qichuan Jiang. Microstructure and tensile properties of in situ synthesized nano-sized TiCx/2009Al composites. Materials and Design, 2015, Materials and Design, 2015, 79, 68–72.

24.Shili Shu, Feng Qiu*, Cunzhu Tong, Xiaonan Shan, Qichuan Jiang. Effects of Fe, Co and Ni elements on the ductility of TiAl alloy. Journal of Alloys and Compounds, 2014, 617: 302–305.

25.Feng Qiu, Yingying Liu, Ruifen Guo, Zhihao Bai, Qichuan Jiang*. Effect of oxygen content on the microstructure, compression properties and work-hardening behaviors of ZrCuAlNi glassy composites. Materials Science and Engineering A, 2013, 580: 13–20.

26.Feng Qiu, Ping Shen, Tao Liu, Qichuan Jiang*. Enhanced ductility in a Zr65Cu15Al10Ni10 bulk metallic glass by nanocrystallization during compression. Materials and Design, 2012, 36: 168–171.

27.Feng Qiu, Ping Shen, Chang Liu, Qichuan Jiang. Effects of Ni addition on the microstructure and compressive deformation behavior in Zr-Cu-Ni martensitic alloys. Materials and Design, 2012, 34: 143–147.

28.Shili Shu, Feng Qiu*, Shenbao Jin, Jianbang Lu, Qichuan Jiang. Compression properties and work-hardening behavior of Ti2AlC/TiAl composites fabricated by combustion synthesis and hot press consolidation in the Ti-Al-Nb-C system. Materials and Design, 2011, 32: 5061–5065.

29.Feng Qiu, Ping Shen, Tao Liu, Qiaoli Lin, Qichuan Jiang*. Electronic structure and phase stability during martensitic transformation in Al-doped ZrCu intermetallics. Journal of Alloys and Compounds, 2010, 491: 354-358.

30.Feng Qiu, HY Wang, T Liu, Qichuan Jiang*. Influence of Al content on the microstructure and mechanical property of the (Zr2Cu)100-xAlx alloys. Journal of Alloys and Compounds, 2009, 468: 195-199.

31.Feng Qiu, P Shen, T Liu, D Zhang, Qichuan Jiang*. The effect of the cooling rate on the solidification microstructure and martensitic transformation in ZrCuAlNiO alloy. Journal of Alloys and Compounds, 2009, 477: 840-845.

32.F Qiu, P Shen, ZH Jiang, T Liu, Qichuan Jiang*. Strong work-hardening effect in a multiphase ZrCuAlNiO alloy. Applied Physics Letters, 2008, 92: 151912.
授权专利:

第一发明人授权发明专利29项,包含欧盟国家授权发明专利2项。

1.邱丰,朱琳,常芳,姜启川。一种快速高效强化铝合金拉伸性能的方法。中国发明专利,ZL201711172475.9,  授权日期2019.4.16。

2. 邱丰;李强;董柏欣;姜启川;查敏。一种利用内生纳米TiB2颗粒强化铝合金的方法。中国发明专利,ZL201711274044.3授权日期2019.8.27。

3. 邱丰,谢剑锋,姜启川,常芳。含有微量纳米颗粒铝合金焊丝线材及其制备方法,中国发明专利,ZL201711273936.1,已授权,授权日期:2019年9月13日。

4. 邱丰、董柏欣、姜启川、杨宏宇.一种小包内纳米颗粒预分散辅助熔体内均匀分散的方法. 中国发明专利,ZL201811607801.9授权日期2019.9.27。

5. 邱丰;庚润;姜启川;常芳. 微纳米混杂TiC-TiB2颗粒强化高性能铝合金制备方法. 中国发明专利,ZL 201711273983.6,授权日期2019.9.24。

6. 邱丰;董柏欣;常芳;姜启川,用于铝合金组织细化的纳米TiB2颗粒细化剂及细化方法, 中国发明专利,ZL201711274059.X,授权日期2019.10.8。

7. 邱丰;李强;董柏欣;姜启川. 一种原位内生纳米NbB2陶铝复合材料的制备方法. 中国发明专利,ZL201711274094.1,授权日期2019.10.18。

8. 邱丰;庚润;姜启川;常芳.一种用于铝合金的微纳米TiC-TiB2颗粒细化剂及细化方法. 中国发明专利,ZL 201711273961.X授权日期2019.10.22。

9. 邱丰;刘天舒;赵建融;姜启川;杨宏宇,一种双向垂直控轧微量TiC增强Al-Cu-Mg合金板材的制备方法, 中国发明专利,ZL201811607780.0, 授权日期2019.10.22.

10. 邱丰,佟昊天;姜启川;杨宏宇。一种双尺度陶瓷颗粒混杂高弹性模量高强度铝合金及其制备方法。中国发明专利,ZL201811608128.0, 授权日期2020.03.20。

11. 邱丰;佟昊天;杨宏宇;舒世立。 一种多尺度陶瓷颗粒混杂高弹性模量高强度铝合金及其制备方法。中国发明专利,ZL201811608130.8, 授权日期2020.03.20。

12. 邱丰;刘天舒;杨宏宇;姜启川。一种微量微纳米混杂颗粒增强Al-Cu-Mg-Si板材控轧制备方法。中国发明专利,ZL201811607792.3, 授权日期2020.03.20。

13. 邱丰;庚润;姜启川;常芳.内生微纳米混杂双相陶瓷颗粒强化剂和强化铝合金方法, 中国发明专利,ZL201711273970.9, 授权日期2020.01.07。

14. 邱丰;朱琳;姜启川. 一种内生纳米尺寸颗粒强化铝合金材料制备方法. 中国发明专利,ZL201711415938.X. 授权日期2020.01.07。

15. 邱丰;朱琳;姜启川;查敏, 一种新型纳米硼化钛陶铝复合焊丝线材, 中国发明专利,ZL 201711273943.1, 授权日期2020.01.07。

16. 邱丰;李强;常芳;姜启川. 一种原位内生纳米NbB2颗粒细化及强化铝合金的方法. 中国发明专利,ZL 201711274134.2, 授权日期2020.01.07。

17. 邱丰;佟昊天;查敏;姜启川. 一种含有微量纳米NbB2颗粒铝合金焊丝线材, 中国发明专利,ZL201711273929.1, 授权日期2020.03.13。

18. 邱丰;刘天舒;赵建融;杨宏宇,熔体内原位微纳米颗粒强化Al-Cu-Mg-Si合金板材的制备方法,中国发明专利,ZL201811607452.0,授权日期2020.05.08。

19. 邱丰;佟昊天;姜启川;查敏. 一种含有微纳米TiC-TiB2颗粒铝合金焊丝线材. 中国发明专利,ZL201711273967.7, 授权日期2020.05.08。

20. 邱丰;董柏欣;杨宏宇;姜启川, 一种基于内生纳米TiCxNy颗粒的陶铝复合材料的制备方法, ZL201811608113.4, 授权日期2020.05.22。

21. 邱丰;李强;杨宏宇;姜启川一种基于多相混杂尺度陶瓷颗粒强化剂强化铝硅合金的方法,ZL201811607770.7, 授权日期2020.07.03。

22. 邱丰;董柏欣,;常芳;姜启川.一种熔体内原位多相混杂尺度陶瓷强化铝合金的方法, ZL201811607747.8, 授权日期2020.07.31。

23. 邱丰; ;李强; 董柏欣,; 姜启川.一种基于多相混杂尺度陶瓷颗粒的铝硅合金及其制备方法, ZL201811607769.4,授权日期2020.08.14。

24. 邱丰;佟昊天;常芳;姜启川。一种新型纳米陶铝复合铝合金焊丝及制备方法,ZL201711273941.2, 授权日期2020.10.02。

25. 邱丰;佟昊天; 杨宏宇; ;舒世立。一种多相陶瓷颗粒混杂制备高弹性模量高强度铝合金的方法. ZL201811607758.6, 授权日期2021.02.12。

26. 邱丰;董柏欣,;常芳;姜启川.一种微纳米混杂尺度多相陶瓷颗粒的制备方法. ZL201811608115.3, 授权日期2021.04.16。

27.邱丰;谢富平. 一种有机硅强化聚氨酯形状记忆材料机械强度的方法. CN201910260086.4.
获奖情况:

2013年,获吉林省科学技术奖一等奖;

2014年,入选吉林大学优秀青年教师培养计划(重点阶段);

2015年,入选CSC“2015未来科学家计划(先进材料);

2017年,入选吉林大学优秀青年教师培养计划(精英阶段);

2018年,入选江苏省双创人才

2019年,入选教育部重大人才工程奖励计划青年学者;

2020, 入选吉林大学杰出青年培育计划。

2021年,获长春市创新创业大赛一等奖。

2023年,入选美国斯坦福大学2022年度“全球前2%顶尖科学家榜单。

社会兼职:

中国材料研究学会凝固科学与技术分会理事;

中国材料研究学会超声材料科学与技术分会理事;

吉林省分析测试技术学会复合材料与合金测试分会副理事长;

中国机械工程学会铸造分会复合材料技术委员会委员。
指导学生: 在读:硕士研究生11人,博士研究生10
已毕业:硕士研究生22人,博士研究生3
治学格言: 创新强材,强才育人!

 

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