张雁祥科研成果
发布日期:2024-05-10 专利申请、商标注册、软件著作权、资质办理快速响应 微信:543646
姓名 | 张雁祥 | 性别 | 张雁祥 |
学校 | 哈尔滨工业大学 | 部门 | 材料科学与工程学院 |
学位 | 张雁祥 | 学历 | 张雁祥 |
职称 | 教授 | 联系方式 | 0451-86418617 |
邮箱 | hitzhang@hit.edu.cn | ||
软件产品登记测试全国受理 软件著作权666元代写全部资料全国受理 实用新型专利1875代写全部资料全国受理 |
基本信息 论文专著 团队新闻 新建主栏目 个人简介 名称 张雁祥,教授、博士生导师,从事热处理与表面改性理论与技术研究。担任中国热处理行业协会虚拟仿真技术委员会主任委员,中国热协副秘书长,中国机械工程学会热处理分会离子渗氮工作组委员,国家自然科学基金项目函评专家,教育部学位中心通讯评议专家,中国博士后科学基金评审专家,Results in Engineering等期刊副主编,Heat Treatment and Surface Engineering、Coatings期刊编委。主持部委预研项目、国家自然科学基金面上项目(3项)、科技部重点研发项目子课题、黑龙江省优青等20余项。获黑龙江省技术发明一等奖(序5)、中国机械工业科技进步特等奖(序7)、中国热处理行业技术进步一等奖(序2)、黑龙江省教学成果一等奖(序2)、哈工大青年教师教学基本功竞赛一等奖、哈工大青年教师教学竞赛一等奖(工科组第一名)、第七届黑龙江省青年教师教学竞赛一等奖(工科组第一名),2016-2023中国大学生材料热处理知识技能/创新创业大赛一/特等奖指导教师。在《npj Computational Materials》《Journal of Materials Chemistry A》《Applied Surface Science》《Carbon》等期刊上发表论文100多篇,被引用3300余次,H因子33,连续入选全球前2%顶尖科学家榜单,授权发明专利多项。 教育经历 名称 2004年-2008年, 哈尔滨工业大学, 材料科学与工程学院,材料学学士(导师:闫牧夫教授) 2008年-2013年, 中国科学技术大学, 材料科学与工程系,材料学博士(导师:夏长荣教授) 工作经历 名称 2019年12月:哈工大材料科学与工程学院,教授 2019年4月:哈工大材料科学与工程学科,博士生导师 2016-2019:哈工大材料科学与工程学院,副教授 2013-2015:哈工大材料科学与工程学院,讲师 2013-2014:美国南卡罗来纳大学博士后(合作导师:陈仿林教授) 2011-2012:香港理工大学Research Assistant(合作导师:倪萌教授) 课题组介绍 名称 团队名称:特种热处理与表面改性 团队负责人:闫牧夫教授 主要成员:张雁祥(哈工大),傅宇东(哈工程),盖登宇(哈工程),刘瑞良(哈工程),陈洪涛(哈理工),由园(齐大),张程崧(西南交大),等 主要论著 名称 详见ResearchGate主页: https://www.researchgate.net/profile/Yanxiang_Zhang2 或Publons主页: https://publons.com/researcher/2677339/yan-xiang-zhang/ Highlights: Publication List 名称 1. 周祝兵; 闫扶摇; 张雁祥; 赵军; 徐跃明; 闫牧夫, 合金钢强韧化热处理组织结构高通量高分辨率三维重建. 材料热处理学报 2020, 41 (10), 170-174. 2. Zhang, Y.; Yan, F.; Hu, B.; Xia, C.; Yan, M., Chemical relaxation in porous ionic–electronic conducting materials represented by the distribution of characteristic times. Journal of Materials Chemistry A 2020, 8 (34), 17442-17448. 3. Yu, N.; Jiang, G.; Liu, T.; Chen, X.; Miao, M.; Zhang, Y.; Wang, Y., Understanding the A-site non-stoichiometry in perovskites: promotion of exsolution of metallic nanoparticles and the hydrogen oxidation reaction in solid oxide fuel cells. Sustainable Energy & Fuels 2020. 4. Xu, H.; Ma, J.; Tan, P.; Chen, B.; Wu, Z.; Zhang, Y.; Wang, H.; Xuan, J.; Ni, M., Towards online optimisation of solid oxide fuel cell performance: Combining deep learning with multi-physics simulation. Energy and AI 2020, 1, 100003. 5. Xia, J.; Wang, C.; Wang, X.; Bi, L.; Zhang, Y., A perspective on DRT applications for the analysis of solid oxide cell electrodes. Electrochimica Acta 2020, 349, 136328. 6. Wang, T.; Li, T.; Wei, T.; Hu, X.; Ye, Z.; Wang, Z.; Wang, Y.; Zhang, Y.; Buckley, C. E.; Dong, D., Optimization of Cathode Functional Layers of Solid Oxide Electrolysis Cells. ACS Applied Materials & Interfaces 2020, 12 (36), 40917-40924. 7. Ren, C.; Zhang, Y.; Xu, Q.; Tian, T.; Chen, F., Effect of non-solvent from the phase inversion method on the morphology and performance of the anode supported microtubular solid oxide fuel cells. International Journal of Hydrogen Energy 2020, 45 (11), 6926-6933. 8. Liu, T.; Zhao, Y.; Zhang, X.; Zhang, H.; Jiang, G.; Zhao, W.; Guo, J.; Chen, F.; Yan, M.; Zhang, Y.; Wang, Y., Robust redox-reversible perovskite type steam electrolyser electrode decorated with in situ exsolved metallic nanoparticles. Journal of Materials Chemistry A 2020, 8 (2), 582-591. 9. Le, S.; Li, C.; Song, X.; Zhang, Y.; Feng, Y.; Mao, Y.; Zhu, X.; Zhang, N.; Yuan, Z., A novel Nb and Cu co-doped SrCoO3-δ cathode for intermediate temperature solid oxide fuel cells. International Journal of Hydrogen Energy 2020, 45 (18), 10862-10870. 10. Chen, B.; Yan, F.; You, Y.; Yan, M. F.; Zhang, Y.; Xu, Y., Microstructural changes and mechanical properties of AerMet100 steel surface-treated by plasma nitriding. Surface and Coatings Technology 2020, 403, 126392. 11. Bu, Y.; Joo, S.; Zhang, Y.; Wang, Y.; Meng, D.; Ge, X.; Kim, G., A highly efficient composite cathode for proton-conducting solid oxide fuel cells. Journal of Power Sources 2020, 451, 227812. 12. Zhang, Y. X.; Yan, M. F.; Wan, Y. H.; Jiao, Z. J.; Chen, Y.; Chen, F. L.; Xia, C. R.; Ni, M., High-throughput 3D reconstruction of stochastic heterogeneous microstructures in energy storage materials. Npj Computational Materials 2019, 5. 13. Zhang, Y. X.; Yan, F. Y.; Yan, M. F.; Wan, Y. H.; Jiao, Z. J.; Xia, C. R.; Chen, F. L.; Ni, M., High-throughput, super-resolution 3D reconstruction of nano-structured solid oxide fuel cell electrodes and quantification of microstructure-property relationships. Journal of Power Sources 2019, 427, 112-119. 14. Zhang, Y. X.; Yan, F. Y.; Ma, J. B.; Yan, M. F.; Ni, M.; Xia, C. R., In operando monitoring of reaction-diffusion streamlines and uncovering of electrochemo-structural interactions in electrodes. Journal of Materials Chemistry A 2019, 7 (17), 10256-10263. 15. Zhang, S. D.; Yan, M. F.; Yang, Y.; Zhang, Y. X.; Yan, F. Y.; Li, H. T., Excellent mechanical, tribological and anti-corrosive performance of novel Ti-DLC nanocomposite thin films prepared via magnetron sputtering method. Carbon 2019, 151, 136-147. 16. Zhang, S. D.; Yan, F. Y.; Yang, Y.; Yan, M. F.; Zhang, Y. X.; Guo, J. H.; Li, H. T., Effects of sputtering gas on microstructure and tribological properties of titanium nitride films. Applied Surface Science 2019, 488, 61-69. 17. Yao, J. W.; Yan, F. Y.; Yan, M. F.; Zhang, Y. X.; Huang, D. M.; Xu, Y. M., The mechanism of surface nanocrystallization during plasma nitriding. Applied Surface Science 2019, 488, 462-467. 18. Yang, Y.; Yan, M. F.; Zhang, Y. X., Tribological behavior of diamond-like carbon in-situ formed on Fe3C-containing carburized layer by plasma carburizing. Applied Surface Science 2019, 479, 482-488. 19. Wan, S. B.; Yan, M. F.; Zhang, Y. X., A numerical study of infiltrated solid oxide fuel cell electrode with dual-phase backbone. International Journal of Energy Research 2019, 43 (7), 2562-2570. 20. Liu, T.; Liu, H.; Zhang, X. Y.; Lei, L. B.; Zhang, Y. X.; Yuan, Z. H.; Chen, F. L.; Wang, Y., A robust solid oxide electrolyzer for highly efficient electrochemical reforming of methane and steam. Journal of Materials Chemistry A 2019, 7 (22), 13550-13558. 21. Jiang, G.; Yan, F. Y.; Wan, S. B.; Zhang, Y. X.; Yan, M. F., Microstructure evolution and kinetics of B-site nanoparticle exsolution from an A-site-deficient perovskite surface: a phase-field modeling and simulation study. Physical Chemistry Chemical Physics 2019, 21 (21), 10902-10907. 22. Zhu, Y. D.; Yao, J. W.; Yan, M. F.; Zhang, Y. X.; Wang, Y. X.; Yang, Y.; Yang, L., High temperature plasma nitriding to modify Ti coated C17200 Cu surface: Microstructure and tribological properties. Vacuum 2018, 147, 163-171. 23. Zhu, Y. D.; Yan, M. F.; Zhang, Y. X.; Zhang, C. S., Surface Modification of C17200 Copper-Beryllium Alloy by Plasma Nitriding of Cu-Ti Gradient Film. Journal of Materials Engineering and Performance 2018, 27 (3), 961-969. 24. Zhang, F. Y.; Yan, M. F.; Yin, F. X.; Wang, Y. X.; Zhang, Y. X.; He, J. N., Influence of plasma nitriding temperature on microstructures and mechanical properties of Ti-N/Ti-Al multilayer coatings on the surface of 5083 Al alloys. Surface & Coatings Technology 2018, 335, 80-87. 25. Yang, Y.; Guo, J. H.; Yan, M. F.; Zhu, Y. D.; Zhang, Y. X.; Wang, Y. X., Improvement of wear resistance for carburised steel by Ti depositing and plasma nitriding. Surface Engineering 2018, 34 (2), 132-138. 26. Wang, Y.; Lei, X. L.; Zhang, Y. X.; Chen, F. L.; Liu, T., In-situ growth of metallic nanoparticles on perovskite parent as a hydrogen electrode for solid oxide cells. Journal of Power Sources 2018, 405, 114-123. 27. Ju, J. W.; Huan, D. M.; Zhang, Y. X.; Xia, C. R.; Cui, G. L., Ionic conductivity of infiltrated Ln (Ln = Gd, Sm, Y)-doped ceria. Rare Metals 2018, 37 (9), 734-742. 28. Hong, T.; Zhang, Y. X.; Brinkman, K., Enhanced Oxygen Electrocatalysis in Heterostructured Ceria Electrolytes for Intermediate-Temperature Solid Oxide Fuel Cells. Acs Omega 2018, 3 (10), 13559-13566. 29. Chen, Y.; Yoo, S.; Pei, K.; Chen, D. C.; Zhang, L.; deGlee, B.; Murphy, R.; Zhao, B. T.; Zhang, Y. X.; Chen, Y.; Liu, M. L., An In Situ Formed, Dual-Phase Cathode with a Highly Active Catalyst Coating for Protonic Ceramic Fuel Cells. Advanced Functional Materials 2018, 28 (5). 30. Chen, Y.; Yoo, S.; Choi, Y.; Kim, J. H.; Ding, Y.; Pei, K.; Murphy, R.; Zhang, Y. X.; Zhao, B. T.; Zhang, W. L.; Chen, H. J.; Chen, Y.; Yuan, W.; Yang, C. H.; Liu, M. L., A highly active, CO2-tolerant electrode for the oxygen reduction reaction. Energy & Environmental Science 2018, 11 (9), 2458-2466. 31. Chen, Y.; Choi, Y. M.; Yoo, S.; Ding, Y.; Yan, R. Q.; Pei, K.; Qu, C.; Zhang, L.; Chang, I.; Zhao, B. T.; Zhang, Y. X.; Chen, H. J.; Chen, Y.; Yang, C. H.; deGlee, B.; Murphy, R.; Liu, J.; Liu, M. L., A Highly Efficient Multi-phase Catalyst Dramatically Enhances the Rate of Oxygen Reduction. Joule 2018, 2 (5), 938-949. 32. Zhang, Y. X.; Chen, Y.; Yan, M. F., An open circuit voltage equation enabling separation of cathode and anode polarization resistances of ceria electrolyte based solid oxide fuel cells. Journal of Power Sources 2017, 357, 173-178. 33. Zhang, L.; Hong, T.; Li, Y. H.; Xia, C. R., CaO effect on the electrochemical performance of lanthanum strontium cobalt ferrite cathode for intermediate-temperature solid oxide fuel cell. International Journal of Hydrogen Energy 2017, 42 (27), 17242-17250. 34. Yang, Y.; Yan, M. F.; Zhang, Y. X.; Li, D. Y.; Zhang, C. S.; Zhu, Y. D.; Wang, Y. X., Catalytic growth of diamond-like carbon on Fe3C-containing carburized layer through a single-step plasma-assisted carburizing process. Carbon 2017, 122, 1-8. 35. Yan, M. F.; Wang, X. A.; Liu, R. L.; Zhang, Y. X.; Yang, Y., Kinetics and wear behaviour of M50NiL steel plasma nitrided at low temperature. Materials Science and Technology 2017, 33 (3), 370-376. 36. Liu, T.; Ren, C.; Zhang, Y. X.; Wang, Y.; Lei, L. B.; Chen, F. L., Solvent effects on the morphology and performance of the anode substrates for solid oxide fuel cells. Journal of Power Sources 2017, 363, 304-310. 37. Li, M.; Zheng, M. H.; Hu, B. B.; Zhang, Y. X.; Xia, C. R., Improving electrochemical performance of lanthanum strontium ferrite by decorating instead of doping cobaltite. Electrochimica Acta 2017, 230, 196-203. 38. Li, M.; Sun, Z. T.; Yang, W. Q.; Hong, T.; Zhu, Z. S.; Zhang, Y. X.; Wu, X. J.; Xia, C. R., Mechanism for the enhanced oxygen reduction reaction of La(0.6)Sr(0.4)Co(0.2)Fe(0.8)O(3-delta)by strontium carbonate. Physical Chemistry Chemical Physics 2017, 19 (1), 503-509. 39. Lei, L. B.; Chen, Y.; Zhang, Y. X.; Liu, T.; Wang, Y.; Chen, F. L., High Performance Solid Oxide Electrolysis Cells with Hierarchically Porous Ni-YSZ Electrode. In Solid Oxide Fuel Cells 15, Singhal, S. C.; Kawada, T., Eds. 2017; Vol. 78, pp 3217-3228. 40. Chen, Y.; Bu, Y. F.; Zhang, Y. X.; Yan, R. Q.; Ding, D.; Zhao, B. T.; Yoo, S. Y.; Dang, D.; Hu, R. Z.; Yang, C. H.; Liu, M. L., A Highly Efficient and Robust Nanofiber Cathode for Solid Oxide Fuel Cells. Advanced Energy Materials 2017, 7 (6). 41. 尹思琪; 万鑫浩; 罗攀; 张雁翔; 韩秀丽, 基于瞬态导热过程预报的激光淬火层设计. 热处理技术与装备 2016, 37 (01), 16-20. 42. 王玥; 张雁翔, 半无限大物体中温度场计算机仿真. 热处理技术与装备 2016, 37 (05), 50-53. 43. 李怀旭; 张雁翔, 固体氧化物燃料电池多孔电极内镀镍研究. 热处理技术与装备 2016, 37 (05), 9-12. 44. Zhu, Y. D.; Yan, M. F.; Zhang, Y. X.; Zhang, C. S., First-principles investigation of structural, mechanical and electronic properties for Cu-Ti intermetallics. Computational Materials Science 2016, 123, 70-78. 45. Zhu, Y. D.; Yan, M. F.; Zhang, Y. X.; Chen, H. T.; Yang, Y., Microstructure formation and evolution mechanism of Cu-Ti coating during dual-magnetron sputtering and thermo plasma nitriding. Vacuum 2016, 134, 25-28. 46. Zhang, Y. X.; Ma, J. B.; Yan, M. F., Is 2D stereological method good enough for quantification of solid oxide fuel cell electrode microstructure? Science Bulletin 2016, 61 (17), 1313-1316. 47. Zhang, Y. X.; Ma, J. B.; Li, M.; Chen, Y.; Yan, M. F.; Xia, C. R., Plasma Glow Discharge as a Tool for Surface Modification of Catalytic Solid Oxides: A Case Study of La0.6Sr0.4Co0.2Fe0.8O3-delta Perovskite. Energies 2016, 9 (10). 48. Zhang, Y. X.; Chen, Y.; Lin, Y.; Yan, M. F.; Harris, W. M.; Chiu, W. K. S.; Ni, M.; Chen, F. L., Electrochemical fields within 3D reconstructed microstructures of mixed ionic and electronic conducting devices. Journal of Power Sources 2016, 331, 167-179. 49. Zhang, Y. X.; Chen, Y.; Li, M.; Yan, M. F.; Ni, M.; Xia, C. R., A high-precision approach to reconstruct distribution of relaxation times from electrochemical impedance spectroscopy. Journal of Power Sources 2016, 308, 1-6. 50. You, Y.; Yan, J. H.; Yan, M. F.; Zhang, C. S.; Chen, H. T.; Wang, Y. X.; Zhang, Y. X.; Wang, C. H., La interactions with C and N in bcc Fe from first principles. Journal of Alloys and Compounds 2016, 688, 261-269. 51. Yang, Y.; Yan, M. F.; Zhang, Y. X.; Zhang, C. S.; Wang, X. A., Self-lubricating and anti-corrosion amorphous carbon/Fe3C composite coating on M50NiL steel by low temperature plasma carburizing. Surface & Coatings Technology 2016, 304, 142-149. 52. Yang, Y.; Yan, M. F.; Zhang, S. D.; Zhang, Y. X.; Chen, H. T.; Wang, X. A., One-step plasma-assisted method for functionally graded Fe3O4/DLC coated carburized layer on steel. Diamond and Related Materials 2016, 70, 18-25. 53. Yan, M. F.; Zhu, Y. D.; Zhang, Y. X.; Zhang, M. L., Combining thermo-diffusing titanium and plasma nitriding to modify C61900 Cu-Al alloy. Vacuum 2016, 126, 41-44. 54. Wang, X. A.; Yan, M. F.; Liu, R. L.; Zhang, Y. X., Effect of rare earth addition on microstructure and corrosion behavior of plasma nitrocarburized M50NiL steel. Journal of Rare Earths 2016, 34 (11), 1148-1155. 55. Li, M.; Ren, Y. Y.; Zhu, Z. S.; Zhu, S. Y.; Chen, F. L.; Zhang, Y. X.; Xia, C. R., La0.4Bi0.4Sr0.2FeO3-delta as Cobalt-free Cathode for Intermediate-Temperature Solid Oxide Fuel Cell. Electrochimica Acta 2016, 191, 651-660. 56. Li, G.; Zhang, Y. X.; Ling, Y. H.; He, B. B.; Xu, J. M.; Zhao, L., Probing novel triple phase conducting composite cathode for high performance protonic ceramic fuel cells. International Journal of Hydrogen Energy 2016, 41 (9), 5074-5083. 57. Ju, J. W.; Xie, Y.; Wang, Z. Y.; Zhang, Y. X.; Xia, C. R., Electrical Performance of Nano-Structured La0.6Sr0.4Co0.2Fe0.8O3-delta Impregnated onto Yttria-Stabilized Zirconia Backbone. Journal of the Electrochemical Society 2016, 163 (5), F393-F400. 58. Ju, J. W.; Lin, J.; Wang, Y. S.; Zhang, Y. X.; Xia, C. R., Electrical performance of nanostructured strontium-doped lanthanum manganite impregnated onto yttria-stabilized zirconia backbone. Journal of Power Sources 2016, 302, 298-307. 59. Chen, Y.; Bu, Y. F.; Zhao, B. T.; Zhang, Y. X.; Ding, D.; Hu, R. Z.; Wei, T.; Rainwater, B.; Ding, Y.; Chen, F. L.; Yang, C. H.; Liu, J.; Liu, M. L., A durable, high-performance hollow-nanofiber cathode for intermediate-temperature fuel cells. Nano Energy 2016, 26, 90-99. 60. 吴道雄; 史鑫尧; 张雁祥, 真空热处理炉的隔热屏设计及传热学分析. 热处理技术与装备 2015, 36 (05), 73-76. 61. Zheng, K. Q.; Zhang, Y. X.; Li, L.; Ni, M., On the tortuosity factor of solid phase in solid oxide fuel cell electrodes. International Journal of Hydrogen Energy 2015, 40 (1), 665-669. 62. Zhang, Y. X.; Ni, M.; Yan, M. F.; Chen, F. L., Thermal aging stability of infiltrated solid oxide fuel cell electrode microstructures: A three-dimensional kinetic Monte Carlo simulation. Journal of Power Sources 2015, 299, 578-586. 63. Zhang, Y. X.; Chen, Y.; Yan, M. F.; Chen, F. L., Reconstruction of relaxation time distribution from linear electrochemical impedance spectroscopy. Journal of Power Sources 2015, 283, 464-477. 64. Zhang, Y. X.; Chen, Y.; Yan, M. F.; Chen, F. L., New formulas for the tortuosity factor of electrochemically conducting channels. Electrochemistry Communications 2015, 60, 52-55. 65. Zhang, Y. X.; Chen, Y.; Chen, F. L., In-situ quantification of solid oxide fuel cell electrode microstructure by electrochemical impedance spectroscopy. Journal of Power Sources 2015, 277, 277-285. 66. Yan, M. F.; Zhu, Y. D.; Zhang, C. S.; Zhang, Y. X.; Wang, Y. X.; Yang, L., Microstructure and mechanical properties of copper-titanium-nitrogen multiphase layers produced by a duplex treatment on C17200 copper-beryllium alloy. Materials & Design 2015, 84, 10-17. 67. Wang, Y. X.; Yan, M. F.; Li, B.; Guo, L. X.; Zhang, C. S.; Zhang, Y. X.; Bai, B.; Chen, L.; Long, Z.; Li, R. W., Surface properties of low alloy steel treated by plasma nitrocarburizing prior to laser quenching process. Optics and Laser Technology 2015, 67, 57-64. 68. Liu, T.; Wang, Y.; Zhang, Y. X.; Fang, S. M.; Lei, L. B.; Ren, C.; Chen, F. L., Steam electrolysis in a solid oxide electrolysis cell fabricated by the phase-inversion tape casting method. Electrochemistry Communications 2015, 61, 106-109. 69. He, B. B.; Zhang, L.; Zhang, Y. X.; Ding, D.; Xu, J. M.; Ling, Y. H.; Zhao, L., New insight into highly active cathode of proton conducting solid oxide fuel cells by oxygen ionic conductor modification. Journal of Power Sources 2015, 287, 170-176. 70. Chen, Y.; Zhang, Y. X.; Xiao, G. L.; Yang, Z. B.; Han, M. F.; Chen, F. L., Sulfur-Tolerant Hierarchically Porous Ceramic Anode-Supported Solid-Oxide Fuel Cells with Self-Precipitated Nanocatalyst. Chemelectrochem 2015, 2 (5), 672-678. 71. Zhang, Y. X.; Xia, C. R.; Chen, F. L., Tortuosity factor of three-dimensional infiltrate network. Journal of Power Sources 2014, 269, 189-193. 72. Zhang, Y. X.; Ni, M.; Xia, C. R.; Chen, F. L., A Sintering Kinetics Model for Ceramic Dual-Phase Composite. Journal of the American Ceramic Society 2014, 97 (8), 2580-2589. 73. Xiao, G. L.; Wang, S. W.; Lin, Y.; Zhang, Y. X.; An, K.; Chen, F. L., Releasing Metal Catalysts via Phase Transition: (NiO)(0.05)-(SrTi0.8Nb0.2O3)(0.95) as a Redox Stable Anode Material for Solid Oxide Fuel Cells. Acs Applied Materials & Interfaces 2014, 6 (22), 19990-19996. 74. Wang, X. A.; Yan, M. F.; Zhang, C. S.; Zhang, Y. X.; Bai, B.; Chen, L.; Long, Z.; Li, R. W., Insights into plasma nitriding behaviour of M50NiL steel with different initial microstructures. Materials Science and Technology 2014, 30 (10), 1248-1253. 75. Wang, X. A.; Yan, M. F.; Zhang, C. S.; Zhang, Y. X., Microstructure and mechanical properties of surface layer of M50NiL steel plasma nitrided. Surface Engineering 2014, 30 (3), 218-223. 76. Su, F.; Zhang, Y. X.; Ni, M.; Xia, C. R., Sm0.5Sr0.5CoO3-Ce1.8Sm0.2O1.9 electrodes enhanced by Sm0.5Sr0.5CoO3 impregnation for proton conductor based solid oxide fuel cells. International Journal of Hydrogen Energy 2014, 39 (6), 2685-2691. 77. Chen, Y.; Zhang, Y. X.; Lin, Y.; Yang, Z. B.; Su, D.; Han, M. F.; Chen, F. L., Direct-methane solid oxide fuel cells with hierarchically porous Ni-based anode deposited with nanocatalyst layer. Nano Energy 2014, 10, 1-9. 78. Chen, Y.; Zhang, Y. X.; Baker, J.; Majumdar, P.; Yang, Z. B.; Han, M. F.; Chen, F. L., Hierarchically Oriented Macroporous Anode-Supported Solid Oxide Fuel Cell with Thin Ceria Electrolyte Film. Acs Applied Materials & Interfaces 2014, 6 (7), 5130-5136. 79. Chen, Y.; Lin, Y.; Zhang, Y. X.; Wang, S. W.; Su, D.; Yang, Z. B.; Han, M. F.; Chen, F. L., Low temperature solid oxide fuel cells with hierarchically porous cathode nano-network. Nano Energy 2014, 8, 25-33. 80. Zhang, Y. X.; Sun, Q.; Xia, C. R.; Ni, M., Geometric Properties of Nanostructured Solid Oxide Fuel Cell Electrodes. Journal of the Electrochemical Society 2013, 160 (3), F278-F289. 81. Zhang, Y. X.; Ni, M.; Xia, C. R., Microstructural Insights into Dual-Phase Infiltrated Solid Oxide Fuel Cell Electrodes. Journal of the Electrochemical Society 2013, 160 (8), F834-F839. 82. Zhang, Y. X.; Xia, C. R.; Ni, M., Simulation of sintering kinetics and microstructure evolution of composite solid oxide fuel cells electrodes. International Journal of Hydrogen Energy 2012, 37 (4), 3392-3402. 83. Zhang, Y. X.; Chen, K. F.; Xia, C. R.; Jiang, S. P.; Ni, M., A model for the delamination kinetics of La0.8Sr0.2MnO3 oxygen electrodes of solid oxide electrolysis cells. International Journal of Hydrogen Energy 2012, 37 (19), 13914-13920. 84. Wang, Y. L.; Zhang, Y. X.; Xia, C. R., A novel method to determine the particle-particle fracture of yttria stabilized zirconia. Journal of Power Sources 2012, 211, 77-83. 85. Zhang, Y. X.; Xia, C. R., Film percolation for composite electrodes of solid oxide fuel cells. Electrochimica Acta 2011, 56 (13), 4763-4769. 86. Zhang, Y. X.; Wang, Y. L.; Wang, Y.; Chen, F. L.; Xia, C. R., Random-packing model for solid oxide fuel cell electrodes with particle size distributions. Journal of Power Sources 2011, 196 (4), 1983-1991. 87. Zhang, L.; Liu, Y. Q.; Zhang, Y. X.; Xiao, G. L.; Chen, F. L.; Xia, C. R., Enhancement in surface exchange coefficient and electrochemical performance of Sr2Fe1.5Mo0.5O6 electrodes by Ce0.8Sm0.2O1.9 nanoparticles. Electrochemistry Communications 2011, 13 (7), 711-713. 88. Zhang, Y. X.; Xia, C. R., A particle-layer model for solid-oxide-full-cell cathodes with different structures. Journal of Power Sources 2010, 195 (13), 4206-4212. 89. Zhang, Y. X.; Xia, C. R., A durability model for solid oxide fuel cell electrodes in thermal cycle processes. Journal of Power Sources 2010, 195 (19), 6611-6618. 90. 张雁祥; 闫牧夫; 唐丽娜, AerMet100钢拉伸断口形貌仿真. 机械工程师 2008, (09), 90-92. 91. 汪向荣; 张雁祥; 闫牧夫, AerMet100钢热压缩过程流变应力的神经网络预报. 热处理技术与装备 2008, (04), 10-13. 最新新闻 新闻标题 哈工大学子获第六届中国大学生材料热处理创新创业大赛总决赛唯一特等奖 发布时间 2020-11-05 https://wap.miit.gov.cn/xwdt/gxdt/bsdw/art/2020/art_4dff5a7f1fac4532ad3a0a6213ca639e.html 新闻标题 Special Issue "Surface Engineering of C/N/O Functionalized Materials" 发布时间 Journal: Coatings Special Issue: Surface Engineering of C/N/O Functionalized Materials Special Issue Editor: Yanxiang Zhang Deadline: 30 September 2021 https://www.mdpi.com/journal/coatings/special_issues/Surface_Engineering_Materials 新闻标题 RSC英国皇家化学会亮点报道研究成果 发布时间 2020-11-1 特征时间分布:一种解析混合离子导体化学迟豫过程和数率常数的新方法 https://mp.weixin.qq.com/s/smp7GIDXgxapSPnsSul_JA 新闻标题 知社学术圈报道研究成果 发布时间 2019-3-14 npj: 随机异质材料微结构—高通量三维重建 https://mp.weixin.qq.com/s/qa0oH5pThuZwa9WH3eZmBw