陈飞达，男，四川攀枝花人，工学博士，副研究员，硕士生导师，《现代应用物理》期刊青年编委，曾历任核科学与技术系教学副主任、常务副主任；2018-2019 年入选 CSC-DAAD 中德博士后计划（德国亥姆霍兹重离子研究中心博士后工作）。研究方向围绕材料辐照效应与核用新材料领域，开展核用抗辐照新材料研发、材料辐照效应检测分析、材料辐照改性、辐射屏蔽计算与辐射屏蔽材料研发等研究工作。

先后主持国家自然科学基金（青年/面上）、江苏省自然科学基金（青年/面上）、国家抗辐射加固技术创新中心创新基金等科研项目 8 项，参与 JWKJW 基础加强计划重点项目课题、江苏省重点研发计划项目等国家级、省部级科研项目 4 项；在 ACS Appl Mater & Inter，Mater Char, J Nucl Mater，Appl Surf Sci，J Appl Phys，NIMB 等发表 SCI、EI 学术论文 40余篇；申请发明专利 12 项，已授权 6 项。

承担《空间辐射环境工程》、《材料辐照效应与防护》、《先进核燃料与材料》等多门课程教学工作。获江苏省高等学校微课教学比赛一等奖 1 项；获批国家级一流本科课程（虚拟仿真实验教学一流课程）《反应堆中子活化与照相虚拟仿真实验》1项（排名第3）；指导本科毕设获评校级本科优秀毕业设计（论文）2项；指导本科生大创项目国家级2项，省级1项，成果在第十届校本科生学术论坛获优秀学术论文二等奖1次；指导学生参加全国高校学生课外“核+X”创意大赛获全国一等奖1项，三等奖2项，优胜奖2项。

课题组网站：iint.nuaa.edu.cn

近五年代表论文：

[1] Wenjing Huang, Feida Chen, Shujie Wu, et al. Thermoelectric performance optimization of GeMnSbTe compounds through increasing the Mn solid solubility: Effects of the co-doping of rare earth elements [J]. Materials Today Communications, 2024, 38: 108265.

[2] Chenxin Lu, Zhichao Yang, Feida Chen, et al. Phase-field simulation of the microstructure and properties evolution in cast austenitic stainless steels for nuclear power plants during thermal aging and annealing [J]. Nuclear Engineering and Design, 2023, 415: 112604.

[3] Feida Chen, Mingjie Zong, Zhixin Tan, et al. Degradation characteristics and equivalent analysis of InGaAsP space solar cells under proton and neutron irradiation [J]. Microelectronics Reliability, 2023,151: 115249.

[4] Yibo Wang, Songyuan Li, Feida Chen, et al. Unique dislocation loops distribution of AlCrFeNiTix eutectic high-entropy alloys under high-temperature ion irradiation [J]. Journal of Alloys and Compounds, 2023, 958: 170373.

[5] Jing Zhong, Feida Chen, Yuehao Rui, et al. Health monitoring of carbon fiber-reinforced polymer composites in γ-radiation environment using embedded fiber Bragg grating sensors [J]. Nuclear Engineering and Technology, 2023, 55: 3039-3045.

[6] Yuehao Rui, Feida Chen, Minghao Zhao, et al. Novel multifunctional microcapsule and its cyanate ester resin composites with selfhealing ability and gamma radiation shielding ability [J]. Journal of Applied Polymer Science, 2022, 140: e53260.

[7] Changyuan Li, Feida Chen, Guojia Ge, et al. Impact of sub-grain structure on radiation resistance in additively manufactured 316L stainless steels: An atomic insight into the mechanism [J]. Applied Surface Science, 2022, 606: 154926.

[8] Guojia Ge, Feida Chen, Xiaobin Tang, et al. Irradiation damage versus lattice distortion in AlNbTiVCrx(X= 0,0.5,1) high-entropy alloys from first-principles calculations and irradiation experiments [J]. Journal of Nuclear Materials, 2022, 563: 153630.

[9] Songyuan Li, Feida Chen, Xiaobin Tang, et al. Effect of Ti on the Microstructure and Mechanical Properties of AlCrFeNiTix Eutectic High-Entropy Alloys [J]. Journal of Materials Engineering and Performance, 2022, 31: 8294-8303.

[10] Mingjie Zong, Feida Chen, Xiaobin Tang, et al. Molecular dynamics simulation of radiation defect evolution mechanism of NiFe-graphene nanocomposite [J]. Applied Surface Science, 2022,584: 152503.

[11] Zhangjie Sun, Yuanye Xu, Feida Chen et al. Effects of ion irradiation on microstructure of 316L stainless steel strengthened by disperse nano TiC through selective laser melting[J].Materials Characterization, 2021, 180: 111420.

[12] Guojia Ge, Feida Chen, Xiaobin Tang, et al. Effects of order and disorder on the defect evolution of NiFe binary alloys from atomistic simulations [J]. Nuclear Instruments and Methods in Physics Research B, 2021, 498: 27-33.

[13] Dexin Xu, Feida Chen, Xiaobin Tang, et al. Effect of LaB₆ addition on mechanical properties and irradiation resistance of 316L stainless steels processed by selective laser melting [J]. International Journal of Advanced Nuclear Reactor Design and Technology, 2021, 3: 74-79.

[14] Shangkun Shen, Feida Chen, Xiaobin Tang, et al. Irradiation damage and swelling of carbon-doped Fe₃₈Mn₄₀Ni₁₁Al₄Cr₇ high-entropy alloys under heavy ion irradiation at elevated temperature [J]. Journal of Materials Science, 2020, 55: 17218–17231.

[15] Guojia Ge, Feida Chen, Xiaobin Tang, et al. Effects of interstitial carbon on the radiation tolerance of carbon-doped NiFe binary alloys from atomistic simulations [J]. Nuclear Materials and Energy, 2020, 24: 100785. 

[16] Jing Gao, Feida Chen, Xiaobin Tang, et al. Effects of grain boundary structures on primary radiation damage and radiation-induced segregation in austenitic stainless steel [J]. Journal of Applied Physics, 2020,128: 105304. 

[17] Shangkun Shen, Feida Chen, Xiaobin Tang, et al. Effects of carbon doping on irradiation resistance of Fe₃₈Mn₄₀Ni₁₁Al₄Cr₇ high entropy alloys [J]. Journal of Nuclear Materials, 2020, 540: 152380. 

[18] Jiwei Lin, Feida Chen, Feng Liu, et al. Hydrogen permeation behavior and hydrogen-induced defects in 316L stainless steels manufactured by additive manufacturing [J]. Materials Chemistry and Physics, 2020, 250: 123038. 

[19] Jiwei Lin, Feida Chen, Xiaobin Tang, et al. Radiation-induced swelling and hardening of 316L stainless steel fabricated by selected laser melting [J]. Vacuum, 2020, 174: 109183. 

[20] Xiangyu Sun, Feida Chen, Hai Huang, et al. Effects of interfaces on the helium bubble formation and radiation hardening of an austenitic stainless steel achieved [J]. Applied Surface Science, 2019, 467-468: 1134-1139. 

[21] Guojia Ge, Feida Chen, Xiaobin Tang, et al. Phase-field modeling of helium bubble evolution in nickel-graphene nanocomposite [J]. Journal of Applied Physics, 2019, 125: 215304.

授权国家发明专利：

[1] 陈飞达, 申尚昆, 汤晓斌, 葛郭嘉. 含碳FeMnNiAlCr高熵合金及其制备方法, 授权号: ZL 202010803918.5

[2] 陈飞达, 张云, 陈托, 汤晓斌. 一种梯度式柔性n-γ混合场辐射屏蔽材料及其制备方法, 授权号: ZL 201710905144.5

[3] 汤晓斌, 耿长冉, 田锋, 龚频, 陈飞达, 舒迪昀, 刘渊豪. 一种对BNCT过程中的三维硼剂量或硼浓度进行实时监测的方法, 授权号: ZL 202011377444.9

[4] 汤晓斌, 柴浩, 倪敏轩, 陈飞达, 陈达. 具有阻燃隔热性能的中子屏蔽材料及其制备方法, 授权号: ZL 201510128412.8

[5] 汤晓斌，柴浩，陈飞达. 一种防中子和γ射线的套装，授权号：ZL 201410421242.8

[6] 汤晓斌，陈飞达，王鹏，陈达. 一种层压式中子辐射屏蔽复合材料及其制备方法，授权号：ZL 201110370239.4

国家/省部级科研项目：

[1] XXXX空间XXXX电离和XXXX地面XXXX等效研究（军委科技委基础加强计划重点项目）

[2] 热光伏核电池钨基微球热辐射器-InGaAs光伏单元的抗辐机制研究（装备预研共用技术和领域基金）

[3] PbTe基中熵热电材料的辐照诱导缺陷结构调控及其对电热输运影响研究（国家自然科学基金面上项目）

[4] 增材制造316L不锈钢核能材料微纳界面结构辐照效应及抗辐照强化调控研究（国家自然科学基金青年科学基金）

[5] 能场约束结构件增材制造关键技术及典型应用研究-放疗用定制式束流整形器的开发及应用（江苏省重点研发计划）

[6] 核级镍基合金辐照诱导应力腐蚀机制与表面强化研究（江苏省自然科学基金面上项目）

[7] 面向核能应用的新型奥氏体不锈钢金属材料辐照损伤效应研究（江苏省自然科学基金青年科学基金）

[8] 核级伺服电机抗辐照关键技术研发及工程化验证（抗辐照应用技术创新基金）

[9] 激光增材制造纳米TiC弥散强化316L钢的辐照损伤效应研究（中国博士后科学基金）

[10] 增材制造核用奥氏体不锈钢的辐照诱导应力腐蚀开裂性能调控研究（江苏省博士后科研资助计划）