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姓名 |
常龍飛 |
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職稱 |
副研究員 |
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政治面貌 |
黨員 |
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郵箱 |
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個人基本情況 |
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副研究員,,碩導(dǎo)。目前就職于合肥工業(yè)大學(xué)工業(yè)與裝備技術(shù)研究院,;碩,、博士畢業(yè)于西安交通大學(xué),;日本產(chǎn)業(yè)技術(shù)綜合研究所訪問學(xué)者。 |
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主要研究方向 |
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智能材料與結(jié)構(gòu),、凝聚態(tài)物理,、軟機械、柔性機器人 |
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科研項目 |
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l 吸聲特性可調(diào)的IPMC周期性低頻吸聲結(jié)構(gòu)換能機理及其優(yōu)化設(shè)計與調(diào)控(2021.1-2024.12),,國家自然科學(xué)基金委,,主持,69萬,,在研 l 單層電極離子型電致動聚合物復(fù)雜變形及其多場耦合機理(2020.1-2021.12),,中央高校基本業(yè)務(wù)費,,主持,,20萬,在研
l 高性能透明IPMC材料開發(fā),,企業(yè)委托,,主持,10萬,,在研 l 多場耦合作用下IPMC材料界面結(jié)構(gòu)對其機電性能的影響機理(No.51605131:2017.1-2019.12),,國家自然科學(xué)基金委,主持,,23.5,,結(jié)題 l 基于離子型電致動聚合物的柔性仿生機器人(2017.8-2018.1),中國科學(xué)技術(shù)協(xié)會科普項目,,主持,,2萬,結(jié)題(優(yōu)秀項目,,優(yōu)秀指導(dǎo)教師) l 離子聚合物-金屬復(fù)合材料的小型陣列式自傳感驅(qū)動器研究(No.1608085QE100:2016.7-2018.6),,安徽省自然科學(xué)基金委,主持,,8萬,,結(jié)題 l 基于離子型電致動聚合物的柔性曲面驅(qū)動器研究(No.2015M581979: 2015.11-2017.12),博士后基金,,主持,,5萬,結(jié)題 l 基于新型智能材料的柔性仿鰩魚機器人形態(tài)優(yōu)化研究(2016.5-2017.6),,校級項目,,主持,5萬,已結(jié)題 l 離子聚合物-金屬復(fù)合材料界面參數(shù)優(yōu)化研究(2015.11-2016.6),,校級項目,,主持,2萬,,已結(jié)題 l 多刺激源響應(yīng)的納米組裝柔性仿生智能材料研究(工大優(yōu)青培育項目),,校級項目,參與,,40萬,,第一參與人
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主要成果 |
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專著: [1] 陳花玲;朱子才;常龍飛;王延杰;離子聚合物-金屬復(fù)合材料變形機理及其基本特性,科學(xué)出版社,348千字,2016. [2] Zicai Zhu; Hualing Chen; Longfei Chang; Soft Actuators:Materials,Modeling, Applications, and Future Perspectives(Chapter 28:IPMC Actuation Mechanisms and Multi physical Modeling), Springer Nature Singapore Pte Ltd, 2019. [3] Bo Li; Longfei Chang; Yanjie Wang; Soft Actuators: Materials, Modeling, Applications, and Future Perspectives (Chapter 31:Modeling of Dielectric Gel Using Multi-physics Coupling Theory), Springer Nature Singapore Pte Ltd, 2019. 會議:
[1] 常龍飛; 離子型電致動聚合物-結(jié)構(gòu)及其界面特征, 中國(國際)功能材料科技與產(chǎn)業(yè)高層論壇, 中國, 天津市, 2018-10-21. (優(yōu)秀報告獎) [2] Longfei Chang; Rough interface in IPMC: modeling and its influence analysis, Japan-China Joint Workshop on Recent Advances on Active Soft Materials, Tokyo, Japan, 2018-8-28.(國際會議,邀請報告) [3] Longfei Chang; Qingzheng Niu; Qian Yang; Ying Hu; Interface and structure in Ionic polymer-metal composite, International Conference on Active Polymer Materials and Soft Robotics, Xi'an, China, 2019-8-25. [4] Longfei Chang;IPMC interface morphology simulation, International Conference of Advanced Electro-active Polymer Muscles and Applications in Robotics (AEPMAR), Xi’an, China, 2017-7-27. [5] Longfei Chang; Yucheng Wu; Zicai Zhu; Heng Li; Mass and Charge Transport in IPMC Actuators With Fractal Interfaces, SPIE: EAPAD, Las Vegas, United States, 2016. [6] Longfei Chang; Kinji Asaka; Zicai Zhu; Hualing Chen; Influence of Rough Interface on the Electro-Mechanical Properties of IPMC,The 15th IUMRS-International Conference in Asia, Fukuoka, Japan, 2014. [7] Longfei Chang; Hualing Chen; Zicai Zhu; A structure model for ionic polymer-metal composite (IPMC), SPIE: EAPAD, San Diego,United States, 2012.
期刊論文: [1] Lulu Yang; Longfei Chang(共同一作); Ying Hu; Majing Huang; Qixiao Ji; Pin Lu; Jiaqin Liu; Wei Chen; Yucheng Wu; An Autonomous Soft Actuator with Light-Driven Self-Sustained Wavelike Oscillation for Phototactic Self-Locomotion and Power Generation, Advanced Functional Materials, 2020: 1908842. [2] 常龍飛,;牛清正,;宋偉;唐振華,;何青松,;胡佳佳;胡穎,;壓阻式柔性應(yīng)變傳感纖維的手指姿態(tài)識別裝置,,西安交通大學(xué)學(xué)報,2020,,54(8) [3] Longfei Chang; Qian Yang; Qingzheng Niu; Yanjie Wang; Yanfa Liu; Pin Lu; Qingsong He; Yucheng Wu; Ying Hu; High-performance ionic polymer–metal composite actuators fabricated with microneedle roughening, Smart Materials and Structures, 2019, 28(1): 015007. [4] Longfei Chang; Majing Huang; Ke Qi; Zhuang Jing; Lulu Yang; Pin Lu; Ying Hu; Yucheng Wu; Graphene-Based Bimorph Actuators with Dual-Response and Large-Deformation by a Simple Method, Macromolecular Materials and Engineering, 2019, 304(4): 1800688. [5] Ying Hu; Ke Qi; Longfei Chang; Jiaqin Liu; Lulu Yang; Majing Huang; Guan Wu; Pin Lu; Wei Chen; Yucheng Wu; A bioinspired multi-functional wearable sensor with an integrated light-induced actuator based on an asymmetric graphene composite film, Journal of Materials Chemistry C, 2019, 7(23): 6879-6888. [6] 常龍飛,;李超群;牛清正,;楊倩,;胡小品;何青松,;吳玉程*,;IPMC驅(qū)動柔性機器魚速度控制系統(tǒng),無人系統(tǒng)學(xué)報, 2019, (02):157-165 (通訊作者) [7] 胡小品,;常龍飛*,;李超群;卞長生,;朱子才,;離子聚合物-金屬復(fù)合材料模糊PID控制方法研究,合肥工業(yè)大學(xué)學(xué)報(自然科學(xué)版), 2019, (08): 1047-1052(通訊作者) [8] Longfei Chang; Linfeng Yu; Chaoqun Li; Qingzheng Niu; Ying Hu; Pin Lu; Zicai Zhu; Yucheng Wu; Ionic polymer with single-layered electrodes:a novel strategy for ionic actuator design, Smart Materials and Structures, 2018, 27(10): 105046. [9] Longfei Chang; Yanfa Liu; Qian Yang; Linfeng Yu; Jiaqin Liu; Zicai Zhu; Pin Lu; Yucheng Wu; Ying Hu; Ionic Electroactive Polymers Used in Bionic Robots: A Review, Journal of Bionic Engineering, 2018, 15(5): 765-782. [10] Yanfa Liu; Longfei Chang*; Ying Hu; Qingzheng Niu; Linfeng Yu; Yanjie Wang; Pin Lu; Yucheng Wu; Rough interface in IPMC: modeling and its influence analysis, Smart Materials and Structures, 2018, 27(7): 075055. (通訊作者) [11] Ying Hu; Jiaqin Liu; Longfei Chang; Lulu Yang; Aifeng Xu; Ke Qi; Pin Lu; Guan Wu; Wei Chen; Yucheng Wu; Electrically and Sunlight-Driven Actuator with Versatile Biomimetic Motions Based on Rolled Carbon Nanotube Bilayer Composite, Advanced Functional Materials, 2017, 27(44): 1704388. [12] Zicai Zhu; Yanjie Wang; Xiaopin Hu; Xiaofei Sun; Longfei Chang*; Pin Lu; An easily fabricated high performance ionic polymer based sensor network, Applied Physics Letters, 2016, 109(7): 073504. (唯一通訊) [13] Zicai Zhu; Yanjie Wang; Yanfa Liu; Kinji Asaka; Xiaofei Sun; Longfei Chang*; Pin Lu; Application-oriented simplification of actuation mechanism and physical model for ionic polymer-metal composites, Journal of Applied Physics, 2016, 120(3): 034901. (唯一通訊) [14] Zicai Zhu; Longfei Chang; Tetsuya Horiuchi; Kentaro Takagi; Alvo Aabloo; Kinji Asaka*; Multi-physical model of cation and water transport in ionic polymer-metal composite sensors, Journal of Applied Physics, 2016, 119(12): 124901. [15] Bo Li; LongFei Chang; Kinji Asaka; Hualing Chen; Dichen Li; Multi-physical model of actuation response in dielectric gels, Smart Materials and Structures, 2016, 25(12): 125032. [16] Jie Ru; Yanjie Wang; Longfei Chang; Hualing Chen; Dichen Li; Preparation and characterization of water-soluble carbon nanotube reinforced Nafion membranes and so-based ionic polymer metal composite actuators, Smart Materials and Structures, 2016, 25(9): 095006. [17] Yanjie Wang; Bin Luo; Longfei Chang; Zicai Zhu; Denglin Zhu; Cuicui Ji; Study on Electromechanical Response of Pd-typed Ionic Polymer Metal Composites Affected by Multiple Electroless Plating, Materials Review, 2016, 30(Z1):26-32. [18] Longfei Chang; Kinji Asaka; Zicai Zhu; Hualing Chen; Electromechanical performance of Ionic Polymer-Metal Composite under electrode constraint, Journal of Reinforced Plastics and Composites, 2015, 34(14):1136-1143. [19] Longfei Chang; Kinji Asaka; Zicai Zhu; Hualing Chen*; Effects of surface roughening on the mass transport and mechanical properties of ionic polymer-metal composite, Journal of Applied Physics, 2014, 115, 244901. [20] 常龍飛,;陳花玲,;朱子才等;鈀型離子聚合物—金屬復(fù)合材料的制備工藝參數(shù)優(yōu)化研究,,功能材料,,2014,7:45. [21] Zicai Zhu; Longfei Chang; Kentaro Takagi; Yanjie Wang;Hualing Chen* and Dichen Li,;Water content criterion for relaxation deformation of Nafion based ionic polymer metal composites doped with alkali cations, Applied Physics Letters, 2014, 105(5): 054103. [22] Zicai Zhu; Longfei Chang; Kinji Asaka; Yanjie Wang; Hualing Chen*; Hongxia Zhao and Dichen Li; Comparative experimental investigation on the actuation mechanisms of ionic polymer–metal composites with different backbones and water contents, Journal of Applied Physics, 2014,115(12): 124903 [23] Zicai Zhu; Kinji Asaka; Longfei Chang; Kentaro Takagi and Hualing Chen*;Multiphysics of ionic polymer-metal composite actuator, Journal of Applied Physics, 2013, 114: 084902. [24] Zicai Zhu; Kinji Asaka; Longfei Chang; Kentaro Takagi and Hualing Chen*,;Physical interpretation of deformation evolvement with water content of ionic polymer metal composite actuator, Journal of Applied Physics, 2013, 114: 184902. [25] Junjie Sheng; Hualing Chen; Bo Li; Longfei Chang; Temperature dependence of the dielectric constant of acrylic dielectric elastomer, Applied Physics A, 2013, 110:511–515. [26] Longfei Chang; Hualing Chen; Zicai Zhu; Bo Li; Manufacturing Process and Electrode Properties of Palladium-electroded IPMC, Smart Materials and Structures, 2012, 21(6): 065018. [27] Zicai Zhu; Hualing Chen*; Longfei Chang; Bo Li; Dynamic model of ion and water transport in ionic polymer-metal composites, AIP Advances, 2011, 1 (4): |
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授權(quán)發(fā)明專利 |
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[1]常龍飛,,楊倩,牛清正,,李超群,,吳玉程.一種基于微針的基膜自動化粗化裝置及方法. 2020.03.27,中國,,201810311726.5 [2]常龍飛,,楊倩,牛清正,,李超群,,吳玉程,何青松,,胡穎,,呂品. IPMC材料的制備方法、其中間體的制備方法,、IPMC 材料. 2020.03.19,,中國,201811220201.7 [3]常龍飛,,李超群,,俞林鋒,楊倩,,胡小品,,吳玉程,胡穎,,朱子才,,呂品. 一種基于電致動聚合物驅(qū)動的步進(jìn)電機. 2019.06. 04,中國,,201711068059 .4 [4]常龍飛,,俞林鋒,胡小品,,吳玉程,,朱子才,王延杰,,劉炎發(fā),,呂品,一種單層電極型IPMC結(jié)構(gòu)及其制備工藝, 2019.2. 12,中國,,ZL201710058364.9 [5]常龍飛,,朱子才,劉炎發(fā),,王延杰,,胡小品,俞林鋒.一種離子感應(yīng)式人工皮膚陣列結(jié)構(gòu)及其制備方法,,2018. 06. 26,,中國,ZL201610040742.6 [6]常龍飛,,俞林鋒,,劉炎發(fā),胡小品,,劉釗,,朱子才,王延杰,,呂品,,一種基于IPMC的陣列式柔性曲面自傳感驅(qū)動器及其制備方法,2018. 11. 20,,中國,,ZL201610221899.9 [7]常龍飛,牛清正,,李超群,,楊倩,胡穎,,李亨,,呂品,吳玉程.基于電致動材料驅(qū)動的管道檢測機器人,、管道檢測系統(tǒng). 中國,,申請?zhí)枺?/span>201811373909.6(實審) [8]梁虎,蔣志雄,,常龍飛,,曹青梅,張達(dá).新型互動式環(huán)保垃圾桶,,2011.02.09,,中國,201020292477.9 [9]陳花玲,,常龍飛,,朱子才,,王永泉,李博. 鈀電極型離子聚合物-金屬復(fù)合材料的制備工藝,,2012.09.05,,中國,ZL 201110085960.9 [10]朱子才,常龍飛,卞長生,王延杰.一種基于電活性聚合物的并聯(lián)柔性驅(qū)動器及其組件.2018,11,27,,中國,,201710390187.4 [11]朱子才,常龍飛,王延杰,卞長生.一種柔性微泵驅(qū)動的慢性病便攜式自動監(jiān)測/給藥裝置. 中國,申請?zhí)枺?/span>201710159003.3(實審) [12]陳花玲,,朱子才,常龍飛,,王永泉,,李博. 離子聚合物-金屬復(fù)合材料綜合力電性能測試裝置,2012.05.23,,中國,,ZL 201110002697.2 |
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