个人资料
个人简介 陈永楠,男,教授,博导;毕业于西安交通大学金属强度国家重点实验室(工学博士),陕西省课程思政教育研究中心副主任,中国工程教育认证专家,教育部高校院审核评估专家,陕西省四主体一联合稀有金属材料涂层制品先进制造校企联合研究中心副主任,陕西省海洋稀有金属工程中心副主任,西安市海洋稀有金属工程中心副主任,生物医用钛合金材料国家地方联合工程中心学术委员会委员,长安大学有色金属表面强化研究所所长,陕西省轻合金表面强化科技创新团队负责人,中国有色金属学会稀有金属专业委员会委员,陕西省新材料战略联盟理事等多机构委员及多家知名企业的技术顾问,著名期刊《Rare matel》、《稀有金属材料科学与工程》编委。教育部首批万人创新创业人才导师计划,陕西省高等学校青年创新团队(负责人),交通部交通运输科技英才。 教育教学:长期开展教学及教学研究和认证评估工作,先后为本硕博授课:《机械工程材料》、《模具设计与制造》、《有色金属及应用》等,主持并完成多门爱课程在线课程和仿真课程建设,其中,首批国家一流混合课程《机械工程材料》负责人,首批国家级课程思政示范课程《材料前沿讲座》负责人(团队、名师),首批国际慕课《Engining Materials》负责人,首批陕西省一流在线课程《工程材料》负责人,陕西省一流虚拟仿真《基于逆向工程设计等机械类模具设计》负责人,将在线课程和虚拟仿真有效结合,形成了在线学习,仿真实验和线下操作多维度授课体系。围绕一流课程打造精品教材,先后出版国家规划教材《机械工程材料》、《模具设计与制造》和《材料力学性能》等5部,其中《机械工程材料》获陕西省教材二等奖一部。在教育教学改革方面,在学校较早的提出拔尖创新人才培养模式和培养方案,以此为基础提出了典型工科多维度递进式人才培养模式,针对本科和研究生教育先后获批陕西省教改项目5项,陕西省教学成果二等奖1项,教育部产学研合作项目2项。指导学生实践竞赛环节,先后指导学生国家级大学生创新创业项目10余项,培育创建了“新锐科技”品牌师生创新团队,先后参加了4届中国互联网加大赛,获得国家级铜奖2项,省级金奖2项、银奖和铜奖各1项,挑战杯及其他地市级竞赛获得二等奖以上5项,逐步实现了科教、产教融合的教育理念。 社会职务协会委员及科技评审工作 教育部首批万人创新创业人才导师 教育部高校院审核评估专家 中国工程教育认证专家 教育部学位评审专家 中国有色金属学会稀有金属专业委员会委员 陕西省新材料产业技术战略联盟理事 陕西省四主体一联合稀有金属材料涂层制品先进制造校企联合研究中心副主任 陕西省海洋稀有金属工程中心副主任 西安市海洋稀有金属工程中心副主任 生物医用钛合金材料国家地方联合工程中心学术委员会委员 多省市科技评审专家 际会议组委会成员 2014 特殊环境土木工程材料测试技术承办 2014 教育部材料类工程认证委员会会议 参会 2014 中国工程院“中国工程院钛冶金工程科技论坛” 大会主题报告 2014 新材料国际发展高层论坛 分论坛报告 2014 “陕西省第六届表面技术交流研讨会” 大会专题报告 2015 International Union of Materials Research Societies-International Conference on Advanced Materials”高性能钛合金分会专题报告 (韩国) 2016 澳洲能源与装备技术研讨会(澳大利亚) 2017 中国材料大会 高性能钛合金分会专题报告 2017 新材料国际发展高层论坛 参会 2018 全球硬科技创新大会新材料创新发展论坛 参会 2019 中国材料大会 高性能钛合金分会 邀请报告 2019 环太平洋会议-汽车轻量化分会 邀请报告 2019 中国有色金属学会第十二届学术年会-稀有金属分会 参会 2019 金属优金属优轻论坛 参会 2020 材料学院院长论坛 参会 2020 IFAM(新材料发展趋势高层次论坛) 参会 2020 首届生物医用材料及应用高峰论坛 主题报告 2021 中国材料大会 高性能钛合金分会 分会主席 邀请报告 2023 中国材料大会 高性能钛合金分会 分会主席 邀请报告 2023 中国有色金属年会,钛合金分会 邀请报告 国际期刊编委及审稿人 《Rare matel》编委 《稀有金属材料科学与工程》编委 《Acta Materialia》 《Cossion Science》 《ACS Applied materials》 《Material science and Engineering A》 《Material and Design》 《Composites Part B》 …… 研究领域有色金属表面处理技术及成果转化(钛合金微弧氧化、阳极氧化、特种电镀、热喷涂技术) 钛合金及复合材料设计及加工技术 硕士研究生招生:材料学,材料加工,材料工程 博士研究生招生:机械工程材料,基础设施工程材料 (以当年目录为准) 毕业要求:硕士研究生国内外SCI论文I区(中科院)1篇以上 博士生要求国内外SCI论文I区(中科院)5篇以上 (须含有行业顶刊至少1篇) 开授课程博士生 《Nonferrous metal materials and applications》 (全英) 本科生 《模具设计与制造》 国家级一流混合课程、省级精品在线开放课程 《工程材料》 国际慕课《Engineering Materials》 国家课程思政示范课程《材料前沿讲座》并获国家课程思政示范团队 陕西省一流虚拟仿真课程《基于逆向工程的机械模具创新设计虚拟仿真实验》 科研项目主持科研项目:
国家科技支撑计划“锅炉管束抗冲蚀非晶涂层制备及应用示范” 负责人 2015-18 国家自然科学基金面上“非共格界面纳米MoS2/TiO2梯度层的原位构建及减磨机理” 负责人 2023-26 国家自然科学基金青年基金“钛合金触变成型技术”负责人 2013-15 国家重点研发计划“高通量钛合金增材制造”专项 第二负责人 2016-22 陕西省工信厅关键核心技术产业化“揭榜挂帅”项目“高性能钛合金材低成本制备技术” 负责人 2023-25 陕西省科技厅秦创原“科学家”+“工程师”项目 首席科学家 2023-25 陕西省重点产业链项目 “铝合金表面原位合成MoS2Al2O3微弧氧化自润滑膜层技术研究” 负责人 2020-23 陕西省重点产业链项目 “高精度超薄钛镍记忆合金板材研制及产业化示范” 负责人 2020-23 陕西省科技重大专项 “镁制品表面复合涂层制备技术研发及应用示范” 负责人 2020-24 陕西省自然科学基金重点项目“典型阻燃钛合金触变技术” 负责人 2019-22 陕西省国际合作重点项目“典型钛合金阻燃性能研究” 负责人 2016-18 陕西省科技统筹创新工程“钛合金触变锻造示范技术” 负责人 2012-15 陕西省自然科学基金“阻燃钛合金触变锻造技术” 负责人 2010-12 中国博士后一等资助“钛合金阻燃行为研究” 负责人 2014-16 陕西省博士后一等资助“钛合金触变锻造”负责人 2014-16 西安市科技局项目 “新型生物医用钛合金Ti-13Nb-13Zr植入材料生物活性表面处理关键技术” 2020-22 西安市未央区科技计划项目 “钛合金表面原位MoS2/TiO2微弧氧化自润滑膜层制备技术研究” 2021-23 ……另校企合作项目多项
教学类项目: 1、陕西省研究生教学改革项目:《基于理工科类研究生科研素养和实践创新能力培养“四维”实施思路研究》 2021-23 2、陕西省教学改革项目:《面向继续教育校企联合共建联合培养区》 2020-22 3、教育教学改革项目:《材料加工学科人才递进培养》 2013-15 9、陕西省高教学会教学改革项目:面向提升陕西区域经济材料类专业人才培养 2018-20 10、教育教学改革项目:面向一带一路工程教育材料专业人才培养研究 2016-18 11、研究生教育教学项目:面向双一流建设下研究生课程国家化研究 2016-19 12、教育教学改革项目:开放式创新创业协同育人机制培养材料类“新工科”高水平人才 2019-20 13、教学团队建设项目:面向典型工科专业《工程材料》课程混合教学团队建设 2019-20 14、研究生教育教学改革项目:创新应用型材料工程研究生多层次递进式实践环节培养模式研究 2019-20 指导学生项目:
国家级大学生创业项目 2015、2019、2020、2021 国家级大学生实践项目 2016 陕西省创青春赛 银奖 2015 全国第二届“互联网+”项目陕西赛区金奖 2016-2017 全国第三届“互联网+”项目陕西赛区铜奖 2017-2018 全国第四届“互联网+”项目国家铜奖,陕西赛区金奖 2018-19 全国第五届“互联网+”项目国家铜奖,陕西赛区金奖 2019-20 全国第六届“互联网+”项目陕西赛区银奖 2020-21 全国大学生创业大赛(宁夏)30强 2016 “高新杯”陕西榆林第五届创意创新创业大赛 二等奖 2017 中国创新挑战赛西安 优秀奖 2020 论文----2025---- [1]Qian Weifeng, Bingkun Ning, Xie Tianxiang, Yongnan Chen* et al Hierarchically Structured Ceramic Coatings based on Zirconia and Magnesium Oxide with High Toughness.Advanced Functional Materials, 2025. [2] TK Si, JH Geng,BK Ning,Yongnan Chen* et al β phase morphology analysis for enhancing friction properties and wear resistance of Ti-6Al-4V alloy. Tribology International,2025 [3] Lei Li, Bingkun Ning, Yamei Mao , Zehui Yang , Zuhong Gan ,Yongnan Chen* et al Synthesis of bioinspired gradient MoS2/TiO2 coatings for enhancing tribological performance of titanium alloys. Applied Surface Science, 2025. [4] Zhichen Meng, Weifeng Qian, Bingkun Ning, Shuang Wang, Yongnan Chen* et al High-temperature crack resistance of yttria-stabilized zirconia coatings enhanced by interfacial stress transfer. Applied Surface Science, 2025. [5] Gan Zhuhong, Bingkun Ning, Li Lei,Yongnan Chen* et al. Enhancing high-temperature wear resistance by constructing the amorphous-crystal heterointerface structure in WO3/TiO2 composite coatings.Tribology International,2025 ----2024---- [1] Haiyan Zhou, Weifeng Qian, Nan Wang, Yongnan Chen *, , Ying Zhang Qinyang Zhao,*Cu ions release and the formation of CuO/Cu2O during PEO based on the work function. Surface and coatings technology, 2024 [2] Ziwei Guo, Zehui Yang, Nan Wang,Yongnan Chen* Qinyang Zhao*, et al, Regulation the graphene oxide concentration for the low energy consumption ceramic coating. Progress in Organic Coatings, 2024 [3] Z Zhang, Z H Yang, W F Qian N Wang, Yongnan Chen*, Qinyang Zhao*, et al,Activating continuous dislocation pinning enhanced toughness of nanocomposite coatings through specially oriented semicoherent heterointerface lattice distortion. International ceramic, 2024. [4]Wang XL, Wang N, Chen NY*,et al. Layering Ni to mediate the Kirkendall Effect (KE) in Cu/Ta nonequilibrium diffusion for enhanced abrasion resistance.International Journal of Refractory Metals and Hard Materials, 2024. [5]H Li,WF Qian, S Wang, NY Chen*,QY Zhao*, HF Zhan* et al.The phase stability of t-ZrO2 realized by fine grain size at cryogenic temperature in ZrO2/TiO2 composite. Materials & Design, 2024. [6] SJ Qin, N Wang*, NY Chen*,Eutectic structure induced by ordering of solute atoms leading to strengthening effects, Materials Science and Engineering A, 2024. [7] Zehui Yang, Bingkun Ning, Yongnan Chen*, Qinyang Zhao*,Revealing theanti-friction mechanism of in-situ synthesized MoS2-S nanocomposite coating under different shear stress,Tribology International,2024 [8] Z Zhang, Z H Yang, W F Qian N Wang, Yongnan Chen*,et al, Promoting crack self-healing of nanocomposite by double slip systemic semi-coherent interface dislocation. Materials Research Letters, 2024 [9] Lei Shi , Chaoping Jiang*, Ruoyi Zhao, Tongkang Si, Yao Li, Weifeng Qian, Guangrui Gao, Yongnan Chen*,Effect of Al2O3 nanoparticles additions on wear resistance of plasma electrolytic oxidation coatings on TC4 alloys. International ceramic, 2024. [10] Yamei Mao, Qinyang Zhao*, Jihua Geng, Weifeng Qian, Haiyan Zou, Tao Gong, Yongnan Chen* et al, High-performance ceramic coatings for additive manufacturing biofunctional titanium alloy by regulating precipitation orientation.Chemical Engineering Journal,2024 [11] Tianxiang Xie , Chaoping Jiang* , Bingkun Ning , Weifeng Qian , Lei Shi , Yongnan Chen* ,Wear-resistant enhanced composite coatings on TC4: Combining halide-activated pack cementation and plasma electrolytic oxidation. Surface and coatings technology, 2024 ----2023---- [1] Qian WF, Z Zhang, S Wang, NY Chen*, QY Zhao*, HF Zhan*, YQ Zhao et al. Enhancing the toughness of nano-composite coating for light alloys by the plastic phase transformation of zirconia. International Journal of Plasticity, 2023 [2]Shuang Wang, Zhen Zhang, Weifeng Qian, Yichen Yu, Yongnan Chen*, Qinyang Zhao*,et al.Enhancing corrosion resistance of AZ91D alloy through yttria-stabilized tetragonal zirconia (YSTZ)/MgO repaired ceramic coating with improved embrittlement cracking. Corrosion Science.2023 [3] Zehui Yang, Bingkun Ning, Yongnan Chen*, Qinyang Zhao*, Yiku Xu, Guangrui Gao, Yufei Tang*, Yongqing Zhao, Haifei Zhan*. Large lattice mismatch of nanocomposite coating: In-situ establishment of MoS2 by precursor and desulfurization reaction. Applied Surface Science, 2023. [4] Nan Wang, Yongnan Chen*, Gang Wu , Qinyang Zhao*, et al, Influence of deformation substructure on the strain compatibility of ferrite and bainite in a commercial pipeline steel,Materials Science and Engineering A, 2023 [5] Jihua Geng, Nan Wang, Yamei Mao, Yongnan Chen*, Zhimin Hou, Qinyang Zhao*, et al, Dynamic competition between coarsening mechanisms of Ti2Cu phase during thermal cycling,Materials Science and Engineering A, 2023 [6] Zhiyuan Jia , Qinyang Zhao *, Yong Zhang *, Yiku Xu , Yongnan Chen *, Fengying Zhang. Hot and cold rolling of a novel near-α titanium alloy: Mechanical properties and underlying deformation mechanism. Materials Science and Engineering A, 2023. [7] Z Zhang, Z H Yang, W F Qian N Wang, YN Chen*, YK Xu, QY Zhao*,et al. Achieving enhanced toughness of a nanocomposite coating by lattice distortion at the variable metallic oxide interface. Materials & Design, 2022. [8] Apeng You, Nan Wang, Yongnan Chen *, Chaoping Jiang, Ying Zhang Qinyang Zhao,*, Ying Shi a, Yao Li , Fengying Zhang a* Effect of linear energy density on microstructure and wear resistance of WC-Co-Cr composite coating by laser cladding. Surface and coatings technology, 2023 [9] Peilin Li , Zehui Yang , Binbin He , Nan Wang ,Yongnan Chen *,Qinyang Zhao*, Yan Kang , Xiaoqing Zhang , Yongqing Zhao. Effect of local “over-growth” on fracture of coated titanium fiber fabricated by plasma electrolytic oxidation. Surface and interface. 2023 [10] Yuanpeng An, Ziwei Guo, Jiapei Jiang, Denghui Zhu, MD Ariful Islam, Yongnan Chen*, Chaoping Jiang, Qinyang Zhao *, Zhiping Sun, Wen Zhang*, Ablation behavior of PEO coatings on niobium alloy. Journal of alloys and Compounds. 2023. [11] Chaoping Jiang, Denghui Zhu, Nan Wang, Yongnan Chen*, Yuanpeng An, Qinyang Zhao *, Yiku Xu, Zhimin Hou, Yongqing Zhao,The interrelation of crack propagation behaviors and lamellar structurein a new near α titanium alloy at low temperature,Journal of alloys and Compounds. 2023. [12] Chaoping Jiang, Shi Lei, Nan Wang, Yongnan Chen*, et al. Effect of K2ZrF6 concentration on thermal ablation resistance of ZrO2/TiO2 composite ceramic coatings on TC4 alloy. Journal of alloys and Compounds. 2023. [13] Jing Li, Zhen Zhang,Ziwei Guo, Zehui Yang, Weifeng Qian, Yongnan Chen *,Qinyang Zhao*, et al. Improved corrsion resistance of ZrO2/MgO coating for magnesium alloys by manipulating the pore structure. Journal of Materials Research and Technology, 2023. [14] W Liu , N Wang , Chen YN*, YK Xu, QY Zhao*,et al. Damping behavior of typical titanium alloys by varied frequency micro harmonic vibration at cryogenic temperatures. Journal of Materials Research and Technology, 2023. [15] L Zhu, J Luo, H Jia, Chen YN*. Effect of deviation of welding paramters on mechanical properties of X80 steel girth weld. Journal of Materials Research and Technology, 2023. [16] Z Zhang, N Wang, YN Chen*, QY Zhao*,et al. Investigation on strain localization and hardening of dual-phase steel by hetero-deformation induced stress. Journal of Materials Research and Technology, 2023. [17] Jiangyuan Fan, Nan Wang, Bingkun Ning, YN Chen*, QY Zhao*,et al. Characterizing relaxation phenomenon and crack propagation during low-temperature harmonic vibrations in heterogeneous metals.Journal of Materials Research and Technology, 2023. [18] YL Tuo, ZH Yang, ZW Guo, YN Chen*, QY Zhao*, et al. Pore structure optimization of MoS2/Al2O3 self-lubricating ceramic coating for improving corrosion resistance, Vacuum, 2023. [19] 王楠,陈永楠*,赵秦阳,武刚,罗金恒. 应变速率对X80管线钢铁素体/贝氏体应变分配行为的影响. 金属学报, 2023. [20] 何斌斌,邹海燕,辛程,陈永楠*,赵秦阳. 抑菌Ti-Cu合金的磨损、腐蚀和腐蚀磨损行为演变. 中国有色金属学报, 2023. ----2022---- [1] ZH Yang, N Wang, YN Chen*, QY Zhao*, YK Xu, FY Zhang, HF Zhan,Controllable in situ fabrication of self-lubricating nanocomposite coating for light alloys. Scripta Materialia, 2022. [2] Jiang CP, Zhang LX, Chen YN*, Zhao QY, Luo JH, Zhu LX, Wu G, et al, Crack propagation behavior of dual-phase steel at low temperature. International Journal of Fatigue, 2022. [3] Cheng Xin, Nan Wang, Yongnan Chen*, Binbin He, Qinyang Zhao*, Biological corrosion behaviour and antibacterialproperties of Ti-Cu alloy with different Ti2Cu morphologies for dental applications. Materials & Design, 2022. [4] Jiapei Jiang, Nan Wang, Yongnan Chen*, Jiang CP, Qinyang Zhao*, et al, Composite coating with enhanced thermal shock resistance formed by the in-situsynthesis of nano-ZrO. International ceramic, 2022. [5] Nan Wang, Yongnan Chen*, Gang Wu , Qinyang Zhao*, et al, Non-equivalence contribution of geometrically necessary dislocation and statistically stored dislocation in work-hardened metals. Materials Science and Engineering A, 2022. [6] Qinyang Zhao, Qiaoyan Sun, Shewei Xin, Yongnan Chen, etal, High-strength titanium alloys for aerospaceengineering applications: A review on melting-forging process. Materials Science and Engineering A, 2022. [7] Qinyang Zhao*, Leandro Bolzoni, Yongnan Chen*, Yiku Xu, et al, Processing of metastable beta titanium alloy: Comprehensive study on deformation behaviour and exceptional microstructure variation mechanisms. Journal of Materials Science and Technology, 2022. [8] Gang Wu, Jianfeng Tang, Nan Wang, Yuguang Cao, Jinheng Luo, Yongnan Chen*, Effect of strain rate-induced microstructure on mechanical behavior of dual-phase steel. Journal of Materials Research and Technology, 2022. [9] Ziwei Guo, Yongnan Chen*, Zehui Yang,Qinyang Zhao*, Yiku Xu, Haifei Zhan*et al, One-step Plasma Electrolytic Oxidation with Graphene Oxide for Ultra-low Porosity Corrosion-resistant TiO2 Coatings. Applied Surface Science, 2022. [10] Binbin He, Cheng Xin, Yongnan Chen*, Yiku Xu, Qinyang Zhao*et al, Biological performance and tribocorrosion behavior ofin-situ synthesized CuxO/TiO2 coatings. Applied Surface Science, 2022. [11] Chaoping Jiang, Jun Zhang, Yongnan Chen*,et al. On enhancing wear resistance of titanium alloys by laser cladded WC-Co composite coatings. International Journal of Refractory Metals and Hard Materials, 2022. [12] Ting Guo, Song Ke, Qing Zhou, Yongnan Chen* et al. Anomalous weakened annealing-induced hardening in extremely fine nanograined NiFe alloys. Journal of Alloys and Compounds, 2022. [13] Zhang Yanyun, Yang Zehui, Yongnan Chen*, Hao Jianmin, Zhao Qinyang. Preparation and Antifriction Performance of MoS2/Al2O3 Composite Coating on Aluminum Alloy. Rare materials science and engineering, 2022. [14] Y Liu, Y li*, Yongnan Chen*,et al. Microstructural and hardness investigation of a multiphase Mo-Si-B alloy processed by laser surface remelting. Surface & Coatings Technology, 2022. ----2021---- [1] Jiang CP, Zhang LX, Chen YN*, Xu YK, Zhao QY, et al, Coarsening behavior of the Ti2Cu phase of a Ti-14Cu alloy during isothermal thermal exposure, Journal of Alloys and Compounds, 2021. [2] Nan Wang, Yongnan Chen*, Gang Wu, Jinheng Luo, et al, Influence of microstructural heterogeneity on strain partitioning behavior of metals containing columnar grains, Materials Science and Engineering A, 2021. [3] Zhang FY, Tan H, Chen YN*, et al, Tailoring grain morphology in Ti-6Al-3Mo through heterogeneousnucleation in directed energy deposition, Journal of Materials Science & Technology,2021. [4] Ai C, Chen YN, Effect of substituting Mo for W on γ/γ′ partitioning behaviors of alloying elements in heat-treated second generation Ni based single crystal superalloys: An atom probe tomography study, Intermetallics, 2021. [5] Sun ZP, Tian XD, Chen YN,et al, Microstructure Characterization and Hot Corrosion Mechanism of As-cast and Heat Treated High Nb Containing TiAl alloy, Corrosion Science, 2021. [6] Zhao QY, Chen YN, Xu YK, et al, Cost-affordable and qualified powder metallurgy metastable beta titanium alloy by designing short-process consolidation and processing, Materials & Design, 2021. [7] Yang WQ, Chen YN*, et al, Multiscale Exploit the Role of Copper on the Burn Resistant Behavior of Ti-Cu Alloy, Journal of Alloys and Compounds, 2021. [8] Chen YN*,Wu Zhicheng, Gang Wu, Nan Wang,Jinheng Luo, et al, Investigation on micromechanism of ferrite hardening after pre-straining with different strain rates of dualphase steel, Materials Science and Engineering A, 2021. [9] Nan Wang, Yongnan Chen*, Gang Wu, Jinheng Luo, et al, Investigation on micromechanism involved in ferrite hardening after prestraining of dual-phase stee, Materials Science and Engineering A,2021. [10] Yongnan Chen*,Ziwei Guo, et al,Study on the self-sealing pore effect of GO/TiO2 coating controlled by graphene oxide, Rare materials science and engineering,2020. ----2020---- [1] Zhan HF, Nie YH, Chen YN*, John M, Bell, Gu YT, Thermal Transport in 3D Nanostructures, Advanced Functional Materials, 2020. [2] Jiang CP, Lu JT, Chen YN*, Corrosion resistance of plasma-sprayed Fe-based coatings by using core-shell structure powders, Journal of Materials Research and Technology, 2020. [3] Dong Zhao, Yongnan Chen*, Chaoping Jiang, Morphological evolution of Ti2Cu in Ti-13Cu-Al alloy after coolingfrom semi-solid state, Journal of Alloys and Compounds, 2020. [4] Cheng Ai, Guoxin Wang, Jian Zhou, Yongnan Chen, Effect of Ta addition on solidification characteristics of CoCrFeNiTax eutectic high entropy alloys, Intermetallics, 2020. [5] Long Zhang, Yuyang Qi, Lan Sun, Guanjun Chen, Yongnan Chen*,Facile route of nitrogen doping in nickel cobalt phosphide for highly efficient hydrogen evolution in both acid and alkaline electrolytes, Applied Surface Science, 2020. [6] Yiku Xu, Mingyuan Fan, Yongnan Chen*,Tribology and corrosion properties investigation of a pulse electrodeposition duplex hard-particle-reinforced Ni-Mo nanocomposite coating, Surface & Coatings Technology, 2020. [7] Yiku Xu, Zhaohao Huang, Yongnan Chen *,Investigation of Microstructure Evolution and Phase Selection of Peritectic Cuce Alloy During High-Temperature Gradient Directional Solidification, Materials, 2020. [8] Jinheng Luo, Nan Wang, Lixia Zhu, Gang Wu, Lifeng Li, Miao Yang, Long Zhang, Yongnan Chen *,Tribological Properties of Ni/Cu/Ni Coating on the Ti-6Al-4V Alloy after Annealing at Various Temperatures, Materials, 2020. [9] Wang Hong Bo, Fei Ma, Yang-Shuo Sun, Liang Zhou, De Jun Zeng, Yi Qin, Yi Ku Xu, YongNan Chen, Band bending and valence band shifting of sub-monolayer TiO2 functionalized SnO2 nanowires, Journal of Materials Science: Materials in Electronics,2020. [10] Wang N, Chen YN*,Corrosion Behavior of Cu/Ni Coatings on Ti-6Al-4V Alloy after Diffused Treatment,Journal of Wuhan university of technology materials science edition,2020. [11] Zehui Yang, Nan Wang, Yongnan Chen*, Study on the self-lubricating MoS2/TiO2 coating on TC4 surface by micro-arc oxidation, Rare materials science and engineering, 2020. ----2019---- [1] Wang N, Chen YN*, Isothermal diffusion behavior and surface performance of Cu/Ni coating on TC4 alloy, Materials, 2019. [2] Lixia Zhu, Jinheng Luo, Yongnan Chen*, Effect of Diffusion Temperature on Structure and Corrosion Resistance of Cu/Ni Composite Coating on TC4 Alloy Surface, Rare materials science and engineering, 2019. [3] Yiku Xu, Shuang Ma, Mingyuan Fan, HongBang Zheng, YongNan Chen*, Mechanical and Corrosion Enhancement of Closed-cell Aluminum Foams through Nano-electrodeposited Composite Coatings, Materials, 2019. [4] Yiku Xu, Shuang Maa, Mingyuan Fana, Yongnan Chen*, Design and properties investigation of NieMo composite coating reinforced with duplex nanoparticles, Surface & Coatings Technology, 2019. [5] Chen YN*,YangWQ, Investigation on the effect of elements on the burning behavior of burn resistant titanium Alloys, Rare materials science and engineering,2019. [6] Wang HB, Ma F, Xu YK, Chen YN,Polar surface dominated octagonal Sn doped ZnO nanowires and their roomtemperature photoluminance properties, Applied Surface Science,2019. ----2018---- [1] Xing YZ, Chen YN,Size Determination of the Grains in a Plasma-Sprayed Cast Iron Splat Based on the Heat Transfer Between the Splat and the Substrate, J Therm Spray Tech, 2018. [2] Jiang CP, Xing YZ, Chen YN,The corrosion behaviours of plasma-sprayed Fe-based amorphous coatings, Surface Engineering, 2018. [3] Chen YN*,YangWQ, Underlying Burning Resistant Mechanisms for Titanium Alloy, Materials & Design, 2018. ………… 教育教学论文: 1.陈永楠、陈华鑫等 基于逆向工程的材料类本科实践教学模式探索 大学教育2017 2.陈永楠、陈华鑫等 协同育人,共同培养材料类知识创新复合型人才 大学教育2019 3.张勇、陈永楠等 交通特色材料专业人才创新能力“三层次递进式”培养体系改革与实践 教育教学论坛 2020 4.郭亚杰、陈永楠等 专业认证OBE 理念下课程PBL 教学方法探索,中国现代教育装备,2020 5.郭成斌,陈永楠等 社会治理视域下高校科技创新档案资源体系构建,浙江档案,2021(北大核心,CSCI) 主编出版编著2部,教材6部 : 2019《材料热加工工艺基础》 2020《材料力学性能》 2021《模具CAD》《金属热处理设备》 2012《钛合金相变及热处理》基金委资助出版专著 2017《新型合金材料-钛合金》国家重点出版计划(国家材料研究协会主编) 科技成果钛合金接箍镀铜处理技术已经获批专利多项,已经与河北省华通缆线集团股份公司合作,形成成果转化,相关专利已经在油田,海底缆线等方面推广使用。钛合金微弧氧化技术已产业化,相关技术及装备已经开始使用,领域涉及军工、医疗器件和轻工业制品; 荣誉奖励2017年 入选教育部首批创新创业人才导师计划 2018年 陕西省高等学校科学技术二等奖(第4人) 2018年 陕西省优秀教材二等奖(第1人) 2018年 教育部高等学校创新创业先进个人称号 2018年 教育部互联网+优秀创新创业导师 2019年 陕西省高等学校科学技术一等奖(第1人) 2019年《工程材料》陕西省精品资源共享课程 陕西省一流课程 负责人 2019年 陕西省第五届互联网+创新创业大赛 优秀个人 2020年 陕西省高等学校青年创新团队-有色金属表面强化研究团队 负责人 2020年 西安市海洋稀有金属工程中心 副主任 2020年 教育部首批国际慕课《Engineering Materials》负责人 2020年 国家一流混合课程《机械工程材料》负责人 2020年 中国工程教育审核评估专家 2021年 交通部交通运输科技英才 2021年 国家课程思政示范课程《材料前沿讲座》负责人(课程思政名师) 2021年 陕西省一流虚拟仿真课程《基于逆向工程机械模具创新设计虚拟仿真实验》负责人 2022年 教育部高等学校审核评估专家 2023年 陕西省秦创原科学家+工程师团队 首席科学家 工作经历 |