陈道兵

CHEN DAO BING


职称/学术兼职

特聘副研究员 硕导

职位

联系方式

主要研究方向

3D/4D打印、仿生传感、仿生增材制造、仿生表界面工程

教育工作经历

2022/11-至今        武汉大学           智能材料              副研究员

2019/04-至今        华中科技大学     材料加工工程              博士后

2013/09-2018/12      吉林大学         仿生科学与工程          工学博士

2009/09-2013/07     安徽农业大学     农业机械化及其自动化     工学学士

论文发表和专利

发表论文15篇代表性论文如下:

1.Chen D., Liu Q., Geng P., Tang S., Zhang J., Wen S*., Zhou Y*., Yan C., Han Z., Shi Y. (2021) A 4D printing strategy and integrated design for programmable electroactive shape-color double-responsive bionic functions. Composites Science and Technology 208:108746. DOI: 10.1016/j.compscitech.2021.108746.

2.Chen D., Liu Q., Han Z., Zhang J., Song H., Wang K., Song Z., Wen S*., Zhou Y*., Yan C., Shi Y. (2020) 4D Printing Strain Self-Sensing and Temperature Self-Sensing Integrated Sensor-Actuator with Bioinspired Gradient Gaps. Advanced Science 7(13): 202000584. DOI: 10.1002/advs.202000584.

3.Chen D., Niu S*., Zhang J., Mu Z., Chen H., Zhang D., Yao Z., Han Z*., Ren L. (2018) Superfast Liquid Transfer Strategy Through Sliding on a Liquid Membrane Inspired from Scorpion Setae. Advanced Materials Interfaces 5(20):201800802. DOI: 10.1002/admi.201800802.

4.Chen D., Song H., Liu Q., Gan J., Liu Y., Chen K., Wang C., Wen S*., Zhou Y*., Yan C., Zhang J., Shi Y., Han Z. (2020) Large Curvature Folding Strategies of Butterfly Proboscis. Journal of Bionic Engineering 17(6):1239-1250. DOI: 10.1007/s42235-020-0089-1.

5. Zhang C., Chen D#., Niu S*., Zhang J., Meng X., Liu L., Sun T., Wen S., Zhou Y., Shi Y., Han Z*., Ren L. (2020) High-aspect-ratio deflection transducers inspired by the ultra-sensitive cantilever configuration of scorpion trichobothria. Journal of Materials Chemistry C 8(18):6093-6101. DOI: 10.1039/d0tc00241k.

6. Han Z., Chen D., Zhang K., Song H., Wang K., Niu S., Zhang J*., Ren L. (2017) Fine Structure of Scorpion Pectines for Odor Capture. Journal of Bionic Engineering 14(4):589-599. DOI: 10.1016/s1672-6529(16)60424-9.

7. Han Z*., Feng H., Yin W., Niu S., Zhang J., Chen D. (2015) An Efficient Bionic Anti-Erosion Functional Surface Inspired by Desert Scorpion Carapace. Tribology Transactions 58(2):357-364. DOI: 10.1080/10402004.2014.971996.

8. Han Z., Liu L., Wang K., Song H., Chen D., Wang Z., Niu S., Zhang J*., Ren L. (2018) Artificial Hair-Like Sensors Inspired from Nature: A Review. Journal of Bionic Engineering 15(3):409-434. DOI: 10.1007/s42235-018-0033-9.

9. Shi Y*., Wu H., Yan C*., Yang X., Chen D., Zhang C., Su B., Song B., Li Z., Pang S., Wen S., Liang B., Zhao Q., He J., Zhang S., Wen Y. (2020) Four-dimensional Printing the Additive Manufacturing Technology of Intelligent Components (4D打印智能构件的增材制造技术). Journal of Mechanical Engineering (机械工程学报) 5615:1-25.

10. Song H., Zhang J., Chen D., Wang K., Niu S., Han Z*., Ren L. (2017) Superfast and high-sensitivity printable strain sensors with bioinspired micron-scale cracks. Nanoscale 9(3):1166-1173. DOI: 10.1039/c6nr07333f.

11. Wang K., Zhang J., Fang Y., Chen D., Liu L., Han Z*., Ren L. (2019) Micro/nano-scale Characterization and Fatigue Fracture Resistance of Mechanoreceptor with Crack-shaped Slit Arrays in Scorpion. Journal of Bionic Engineering 16(3):410-422. DOI: 10.1007/s42235-019-0033-4.

12. Wang K., Zhang J., Liu L., Chen D., Song H., Wang Y., Niu S., Han Z*., Ren L. (2019) Vibrational Receptor of Scorpion (Heterometrus petersii): The Basitarsal Compound Slit Sensilla. Journal of Bionic Engineering 16(1):76-87. DOI: 10.1007/s42235-019-0008-5.

13. Wang K., Zhang J., Song H., Fang Y., Wang X., Chen D., Liu L., Niu S., Yao Z., Han Z*., Ren L. (2019) Highly Efficient Mechanoelectrical Energy Conversion Based on the Near-Tip Stress Field of an Antifracture Slit Observed in Scorpions. Advanced Functional Materials 29(22): 1807693. DOI: 10.1002/adfm.201807693.

14. Zhang C., Zhang J., Chen D., Meng X., Liu L., Wang K., Jiao Z., Sun T., Wang D., Niu S*., Han Z*., Ren L. (2020) Crack-based and Hair-like Sensors Inspired from Arthropods: A Review. Journal of Bionic Engineering 17(5):867-898. DOI: 10.1007/s42235-020-0092-6.

15. Zhou Y., Chen D., Duan L., Gan J., Wen S. (2020) Enhanced hardness and moderate thermal conductivity of Cu-2.4Ni-0.7Si alloy processed via selective laser melting followed by suitable heat treatment. Journal of Laser Applications 32(1): 012006. DOI: 10.2351/1.5127559.

 

申请发明专利40余项,代表性专利如下:

1.陈道兵,雷祎凤,薛龙建,肖康健,李刚,刘洪涛,刘胜. 一种3D打印自感知假人颈椎骨. 2022115479371. 2022-12-05

2. 陈道兵,薛龙建,雷祎凤,肖康健,李刚,刘洪涛,刘胜. 一种仿生红外传感器. 2022115479386. 2022-12-05.

3. 陈道兵,薛龙建,雷祎凤,李刚,肖康健,刘洪涛,刘胜. 3D打印电阻式仿生姿态传感器及其应用. 202211547948X. 2022-12-05.

4. 陈道兵,薛龙建,雷祎凤,肖康健,李刚,刘洪涛,刘胜. 3D打印自修复柔性电路及其制备方法. 2022115479704. 2022-12-05.

5. 陈道兵,薛龙建,雷祎凤,肖康健,李刚,刘洪涛,刘胜. 一种仿生温度自感知太阳能蒸发器. 2023100645208. 2023-01-12.

6.陈道兵,薛龙建,雷祎凤,刘洪涛,李刚,肖康健,刘胜. 一种仿生自感知传动皮带. 2023100840431. 2023-01-16.

7.陈道兵,薛龙建,雷祎凤,李刚,肖康健,刘洪涛,刘胜. 3D打印电容式仿生倾角传感器及其应用. 2022115787067. 2022-12-05.

8.陈道兵,薛龙建,雷祎凤,肖康健,李刚,刘洪涛,刘胜. 一种固液多材料一体化3D打印方法及装置. 2022116131163. 2022-12-15.

9. 陈道兵,刘胜,雷祎凤,薛龙建,肖康健,李刚,刘洪涛. 一种仿蝎尾毒刺给药装置及使用方法. 2022116130067. 2022-12-15.

10.文世峰,陈道兵,周燕,刘洋,陈柯宇,王冲,胡辉,史玉升.一种基于4D打印的仿生折叠翼及其制备方法和应用. 2019105737233,2021-10-15.(已授权)

11.文世峰,陈道兵,周燕,韩志武,张俊秋,刘庆萍,刘洋,陈柯宇,王冲,史玉升.一种基于4D打印的阶段变形执行装置. 2019112339813,2021-05-18. (已授权)

12.文世峰,陈道兵,周燕,张俊秋,刘庆萍,韩志武,刘洋,陈柯宇,王冲,史玉升.一种基于4D打印的仿生可变形电容器. 2019112335757,2021-04-06. (已授权)

13.文世峰,陈道兵,周燕,刘洋,陈柯宇,王冲,胡辉,史玉升.基于4D打印的仿生智能分离连接装置. 2019105397091,2021-02-26. (已授权)

14.文世峰,陈道兵,周燕,刘洋,陈柯宇,王冲,刘庆萍,张俊秋,韩志武,史玉升.一种基于4D打印的三维仿生弹簧. 2019112334294,2020-12-29. (已授权)

15.文世峰,陈道兵,周燕,陈柯宇,刘洋,王冲,胡辉,史玉升.一种基于4D打印成型的智能仿生抓取夹持装置. 2019105709708,2020-08-28. (已授权)

16.韩志武,陈道兵,张俊秋,王可军,宋洪烈,牛士超,侯涛,叶军峰,尹维,宋丽敏,杨明康,孙楚萍.一种传感阵列定位系统. 2015108141816,2016-04-06. (已授权)

17.张俊秋,陈道兵,王可军,韩志武,宋洪烈,牛士超,侯涛,叶军峰,尹维,宋丽敏,杨明康,孙楚萍.一种智能仿生传感器. 2015107772712,2016-03-30. (已授权)

18.韩志武,陈道兵,张俊秋,王可军,宋洪烈,牛士超,侯涛,叶军峰,尹维,宋丽敏,杨明康,孙楚萍.一种磁式类蝎子蛊毛流速流向传感器. 2015108141604,2016-03-23. (已授权)

19.韩志武,陈道兵,张俊秋,王可军,宋洪烈,牛士超,侯涛,叶军峰,尹维,宋丽敏,杨明康,孙楚萍.一种基于不倒翁原理的流速流向传感器. 2015108141820,2016-02-10. (已授权)

20.张俊秋,陈道兵,韩志武,王可军,宋洪烈,牛士超,侯涛,叶军峰,尹维,宋丽敏,杨明康,孙楚萍.一种立式摆动风力发电装置.201510777220X,2016-01-27. (已授权)

 

主持或参加的科研项目

近五年主持科研项目5,其中国家级项目3总经费156万元,具体如下:

1. 国防科技创新特区项目,XXXXXXXX2020.06-2022.05100万元,主持;

2. 中国博士后科学基金第13批特别资助(站中),蝎子缝感受器启发的自感知执行机理及4D打印成形研究,2020T1302242020.01-2021.1218万元,主持;

3. 国家自然基金青年科学基金项目,典型昆虫多功能要素协同超敏红外感知机理及其仿生研究,5210529630万元,2022.01-2024.12,主持;

4.湖北省博士后创新研究岗位入选项目,4D打印仿蝴蝶口器弹性自折叠功能构件研究,2019.12-2021.126万元,主持;

5.吉林大学工程仿生教育部重点实验室开放基金,仿生弹性自折叠功能构件4D打印成形研究,K2019032019.06-2021.062 万元,主持。

 

参加项目

1.国家重点研发项目,轻量化可重构月面建造方法研究,2021YFF0500233,主持人:史玉升;

2.国家自然科学基金杰出青年基金,机械仿生学,51325501,主持人:韩志武;

3.自然科学基金联合基金项目,金属芯骨-可变区域性能复杂砂型一体化激光3D打印原理与方法,U180820004,主持人:史玉升;

4. 国家自然科学基金重点项目,基于生物体表感受器的机械传感仿生原理与关键技术,51835006,主持人:韩志武;

5. JW科技委主题项目,仿沙漠动物体表感受器高灵敏********技术,XXXXXX,主持人:韩志武。

 

所获荣誉

1.奖励:陈道兵(13/15); 精密设备微振信号仿生超灵敏感知原理与关键技术,吉林省科技进步一等奖,2019( 韩志武; 侯涛; 张俊秋; 刘庆萍; 刘富; 陈万忠;宋洪烈; 韩奇钢;王小龙;周淼磊;牛士超;王可军;陈道兵;周雪莉;宋正义。

2.科技成果鉴定:陈道兵(17/18);材料-结构一体化激光选区熔化增材制造技术及应用;2021HBYX0017


职位 科研团队成员 邮箱 chendb22@whu.edu.cn
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