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中文
Jianjun Sha

Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates


Academic Titles:Professor
Other Post:力学与航空航天学院学术委员会委员、学位委员会委员
Gender:Male
Alma Mater:Kyoto University
Degree:Doctoral Degree
School/Department:Dalian University of Technology
Discipline:Aerospace Mechanics and Engineering
Materials Science
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Personal Profile

Ø  沙建军:博士、教授,博士生导师

·         主讲本科航空航天类《工程材料学》省一流课程;主讲研究生课程《高超声速气动热与热防护》,教育部CJ学者奖励计划评审专家,科技部重点研发计划项目评审专家,国家奖励办评审专家,中国科学院学部评审专家,陕西省科技奖励评审专家,教育部航空航天类专业教学指导委员会委员,教育部教育教学成果奖评审专家,教育部评估中心高等学校本科教育教学评估专家,教育部学位与研究生教育发展中心评审专家;科技部、大连市科技局、深圳科创委员会,陕西省重点研发项目评审专家,国家自然科学基金评审专家,中国博士后基金评审专家。奥地利科学基金会Austrian Science Fund (FWF))、德国洪堡基金会洪堡学者候选人国际通讯评审专家、工业装备结构分析优化与CAE软件全国重点实验室骨干成员。

·         团队成员:代吉祥副教授,王炳筑副教授,窦文皓助理研究员

·         热烈欢迎飞行器类、力学类、材料类、机械类同学加入本团队!

·         联系方式:jjsha@dlut.edu.cn

 

Ø  教育经历:

·         2002/10-2005/09:日本京都大学(Kyoto University),博士

·         1997/09-2003/9,中国原子能科学研究院,硕士、博士(院优秀博士论文)。

 

Ø  工作经历:

·         2023/10-至今,大连理工大学,力学与航空航天学院,教授,博士生导师。

·         2012/10-2018/6,航空航天学院副院长,代理院长,实验中心主任

·         2018/4-2023/10,运载工程与力学学部副部长。

·         2009/05-2023/10,大连理工大学,运载工程与力学学部,航空航天学院,教授,博士生导师。

·         2016/8,2017/8:德国拜洛伊特大学,访问教授,中德合作中方项目负责人

·         2008/03-2009/05,德国拜洛伊特大学,洪堡基金会洪堡学者

·         2005/10-2007/12,日本京都大学,国际创新中心,特别研究员

·         2003/04-2005/03,日本京都大学,研究助手

Ø  研究方向

u  先进宽温域超轻气凝胶,耐热/隔热-承载-吸波结构功能一体化复合材料设计与研发

·          宽温域气凝胶结构功能一体化设计及机理;

·          基于优化设计先进复合材料制造技术及装备;

·          异种材料连接工艺及性能调控;

·          异形构件的快速数字化成型技术与性能研究

u   先进复合材料与结构制造工艺及技术:

·          先进复合材料与结构低成本制备工艺及技术;

·          先进复合材料结构快速成型技术;

·          先进复合材料与结构工程化技术

u   先进复合材料关键评价技术及性能表征

·          基于服役环境关键性能评价技术开发;

·          先进复合材料热物理及力学性能测试、分析与表征;

·          先进复合材料耐环境评价方法与测试技术

Ø  研究生招生专业

·         航空宇航科学与技术(学术型,博士/硕士) 

·         航空工程(工程博士/专业型硕士)

·         航天工程(工程博士/专业型硕士)

Ø  荣誉及获奖

·         2002:日本文部省国费奖学金

·         2005:日本学术振兴会,特别研究员

·         2007:德国洪堡基金会,洪堡学者

·         2010:教育部新世纪优秀人才支持计划

·         2012:辽宁省委组织部,“十百千”高端人才

·         2015:“兴连英才计划”高端人才

·         2016,2017:辽宁省自然科学学术成果奖(排名1)

·         2020:大连理工大学本科优秀教学成果一等奖

·         2020:辽宁省教学成果一等奖

·         2021:辽宁省研究生教学成果二等奖(排名1)

·         2021:《中国有色金属学报(英文版)》优秀论文奖。

·         2022:大连理工大学本科教学成果一等奖,(排名1)

·         2022:辽宁省普通高等教育本科教学成果二等奖,(排名1)

·         大连理工大学,教学质量优良奖,2026/2025/2024/2023/2021/2020/2019/2018/2016/2014年度 

Ø  主要社会兼职

·         固体动力教育部重点实验室学术委员会委员,教育部CJ学者奖励计划评审专家,科技部重点研发计划项目评审专家,国家奖励办评审专家,中国科学院学部评审专家,陕西省科技奖励评审专家,教育部航空航天类专业教学指导委员会委员,教育部教育教学成果奖评审专家,教育部评估中心高等学校本科教育教学评估专家,教育部学位与研究生教育发展中心评审专家;科技部、大连市科技局、深圳科创委员会,陕西省重点研发项目评审专家,国家自然科学基金评审专家,中国博士后基金评审专家。

·         复合材料学报、粉末冶金技术、Applied Sciences、Synthesis & Sintering等国内外期刊编委,国内外30余高水平材料期刊审稿人。 

Ø  主要科研项目

负责国家自然科学基金面上及重点项目、航空基金、中德合作项目、科技部重点研发计划课题、JKW专项、ZF领域基金和共用技术项目、教育部博士点基金(博导类)、航天科技集团和航天科工集团等各类项目30余项。在国内外重要学术刊物发表论文150余篇,出版两本编著,授权发明专利30余项;受邀参加60多次专业领域内的国际学术会议和区域性学术会议。

 

Ø  人才培养:

·         目前,指导在读硕士研究生4人、博士研究生7人;

·         已毕业硕士研究生25人,已毕业博士研究生12人,指导出站博士后3人。其中高校就业9人,中国科学院2人、中国航天科工集团公司、航天科技集团公司、商发、中航工业集团公司等单位29人。指导研究生曾获大连理工大学博士生“学术之星”、“博士研究生单项奖学金”、国家奖学金10余人次,研究省获大连理工大学优秀博士学位论文、大连市/辽宁省优秀研究生多人。

 

Ø  期刊论文专利

围绕先进复合材料及其热结构,开展空天飞行器等重大装备设计研究工作,与航天科工、航天科技和中国航发等长期合作,在国内外高水平期刊发表论文150余篇. 近几年代表性论文和专利如下:

·         Ultrafast low-temperature fabrication of strong and tough high-entropy borides-based ceramics via reactive ZrSi2-assisted heavy direct current sintering, 2026.5, J Adv Ceram 2026, 15: 9221322.

·         Reactive infiltration kinetics of liquid silicon in C/C preforms: Improved Washburn models considering pore structure evolution,Journal of the European Ceramic Society, 2026.10, 46(13):118487.

·         One-step fabrication of Hf-Si-based multilayer coating-matrix integrated modified C/C composite and its ablation resistance at 2500 °C, Coating Science and Technology, 2026.6, 530:133523

·         novel low-temperature strategy for Csf/(Hf, Ta)B2-(Hf, Ta)C-SiC composites via fast reactive hot-press sintering: insights into microstructure and mechanical behavior Carbon2026

·         Phase tailoring on (Zr,Ti)B2-(Zr,Ti)C-SiC ceramics to realize microstructural gene engineering for enhancing strength and toughnessSubmitted to Composites Part A: Applied Science and Manufacturing2026.

·         Coupled Thermo‑chemo‑mechanical degradation of SiC fibers and PyC interface in NITE‑SiCf/SiC composites, Ceramics International, 2026.5,

·         碳化硅陶瓷基复合材料高温力学性能的多尺度仿真分析,航空材料学报

·         反应熔渗法制备Hf-Si基涂层-基体一体化改性C/C复合材料的微观结构及烧蚀性能无机材料学报, 2026.5, 41(5):583-594.

·         Ablation resistance of (Hf, Ta)B2-(Hf, Ta)C-SiC ceramics: boride and carbide phase contents significantly affecting the ablation behavior, Ceramics International. 52(4), February 2026, Pages 4435-4444

·         3D Cf/ZrB2-SiC Composites Fabricated by Reactive Hot Pressing: Microstructure and High Temperature Mechanical Properties,  Journal of Alloys and Compounds, Volume 1054, 10 February 2026, 186234

·         Low-temperature reactive sintering of 3D Cf/in situ ZrC-SiC composites: Ablation mechanism in extreme environments, Journal of the European Ceramic Society, 46(12), September 2026, 118376.

·         Rapid densification and microstructure of (Ti,Zr,Nb,Hf,Ta,W)B2-(Ti,Zr,Nb,Hf,Ta,W)C-SiC composite via high-density direct current sintering, Journal of Alloys and Compounds, 1059, 20 March 2026, 187148

·         沙建军, 郭欢, 王宏瑞, 王柄筑, 苏成, 代吉祥,碳纤维增韧陶瓷基复合材料3D打印设备、打印方法及应用,专利号:ZL202411874399.6

·         反应熔渗过程中碳/碳预制体的孔隙结构演化数值模拟,复合材料学报, 2025, 44(0): 1-12

·         Mechanical properties and degradation mechanism of SiC fibers exposed to oxidative environment up to 1600°C, Appl. Sci. 2025/12/20, 16(1), 64.

·         WAM数据集与电磁波吸波材料分类方法及应用研究, 电子与信息学报(EI). 2025.1247(12): 5146-5155.
Improving the mechanical properties of reactive sintered (Hf, Ta)B 2 -(Hf, Ta)C-SiC multi-phase ceramics by synergistic reinforcing effect of multi-component borides and carbides
Journal of Alloys and CompoundsVolume 1040, 23 September 2025, 183339

·         Reactive hot-pressing induced low temperature densification of (Zr,Ta)B2-SiC ceramics: microstructure and strengtheningCeramics InternationalVolume 51, Issue 20, Part B, August 2025, Pages 32049-32059.

·         Low-temperature facile and fast preparation of (Hf, Ta)B2-(Hf, Ta)C-SiC ultrahigh-temperature multi-phases ceramics: microstructure and mechanical propertiesJournal of the European Ceramic SocietyVolume 45, Issue 9, August 2025, 117268.

·         Understanding interfacial bonding properties and mechanical properties of in situ synthesis of Cf/ZrB2–ZrC–SiC compositeJournal of the American Ceramic Society2025;108:e20411.

·         Ablation response behaviour and mechanism of (Hf, Ta)B2-(Hf, Ta)C -SiC ultra-high temperature multi-phase ceramics, Corrosion Science. Volume 247, 1 May 2025, 112772.

·         高熵合金钎焊C/C-GH4169接头的微观组织及力学性能,稀有金属材料与工程,2025.2542):429-436.

·         Ultralight Carbon Tube Foam-Derived SiC Nanofibrous Aerogels with Arbitrary Shape, Excellent Rigidity, and Resilience for Thermal Insulation, ACS Appl. Mater. Interfaces 2025. 1.2117( 5), 8209–8218.

·         Novel ultralight carbon foam reinforced carbon aerogel composites with low volume shrinkage and excellent thermal insulation performance, CarbonVol. 232, 15 January 2025, 119826

·          陶瓷基复合材料反应熔渗过程多场建模与仿真,航空学报,2025-2-1546(03): 430722

·         墨水直写技术制造纤维强韧陶瓷基复合材料的研究进展与挑战,复合材料学报, 2025, 42(2): 579-597.

·         Nb0.74CoCrFeNi2高熵钎料钎焊陶瓷基复合材料和金属的高温连接性能,复合材料学报,2025, 42(8): 4738-4748.

·         沙建军;郭欢;王柄筑;苏成;代吉祥;祖宇飞,一种多元超高温(Hf,Ta)B2-(Hf,Ta)C-SiC陶瓷及其制备方法, ZL 2024 1 0958473.6

·         Improving Pore Characteristics, Mechanical Properties and Thermal Performances of Near-Net Shape Manufacturing Phenolic Resin AerogelsPolymers 2024, 16, 1593.

·         Strengthening Mechanism and Damping Properties of SiCf/Al-Mg Composites Prepared by Combining Colloidal Dispersion with a Squeeze Melt Infiltration Process Materials 2024, 17(7)

·          Improving mechanical and thermal expansion properties of aluminum matrix composites reinforced by silicon carbide fiber, Materials Letters, 366 (2024) 136553 (Volume 366, 1 July 2024, 136553).

·         A Novel Preparation Method of (Ti, Zr, Nb, Mo, W) B2-SiC Composite Ceramic Based on Reactive Sintering of Pre-Alloyed Metals. Crystals 2024, 14(1), 14

·         Multi-physics coupling numerical simulation of variable porosity in reactive melt infiltration process.Journal of Physics: Conference Series. IOP Publishing, 2024, 2873(1): 012052.

·         沙建军;苏成;代吉祥;刘应军;一种电泳沉积制备碳纳米管-聚多巴胺镶嵌式复合涂层的方法, CN202311061198.X.

·         沙建军;沙如意;姜伟;郭欢;王柄筑;代吉祥;一种具有极低收缩率的碳气凝胶复合材料及其制备方法,CN202410891578.4.

·         沙建军;郭欢;李兴泽;代吉祥;祖宇飞;一种高固含量低粘度微纳多尺度水基陶瓷浆料、制备方法及应用,CN202211549785.9.

·         王柄筑;沙建军;郭欢;苏成;代吉祥;祖宇飞;一种耐烧蚀(Zr,Ti)B-2-(Zr,Ti)C-SiC陶瓷的制备方法,CN202410958472.1.

·         代吉祥;于康;姜伟;沙建军;一种用于高温合金与碳材料异种钎焊连接的高熵合金钎料及其制备方法和应用,发明公开,中国,2024-09-11CN202411272115.6.

·         Effect of thermo-mechanical and low-cycle preloading on the strength of carbon fiber-reinforced ceramic matrix composites, Journal of the European Ceramic Society, 2023, 43(13): 5474-5483.

·          Phase composition, densification behavior and high-temperature strength of carbon-doped ZrB2–ZrSi2 ceramics, Ceramics International,2023.9.20, 49(23): 39083-39089.

·         Effect of Cu coating thickness on carbon fiber surface on microstructure and mechanical properties of carbon fiber reinforced aluminum matrix composites Materials Today Communications2023, 34: 105424.

·         Enhancing damping capacity and mechanical properties of aluminum matrix composites by the synergistic strengthening of SiC particles and carbon fibers Materials Letters, 1 March 2023, 133728

·         Effects of Si variation and Zr addition on the microstructure, oxidation resistance and mechanical property at 1523 K of Nb-Si-Ti/Zr/Hf-Cr/Al high entropy superalloys Journal of Alloys and Compounds2023, 945: 169304.

·         Mechanical and thermal expansion behavior of hybrid aluminum matrix composites reinforced with SiC particles and short carbon fibers Journal of Alloys and Compounds, Journal of Alloys and Compounds2023, 947: 169550.

·         Ultrafast deposition of polydopamine for high-performance fiber-reinforced high-temperature ceramic composites Scientific Reports, Scientific Reports, 2022, 12(1): 20489.

·         Role of fiber-matrix adhesion at CFRP stage on microstructure and mechanical properties of C/C-SiC composite Journal of Applied Ceramic Technology, 2022, 19(1): 79-90.

·         Lightweight phenolic resin aerogel with excellent thermal insulation and mechanical properties via an ultralow shrinkage processMaterials Letters, 2022, 324: 132626.

·          Microstructure and mechanical properties of continuous carbon fiber-reinforced ZrB2-based composites via combined electrophoretic deposition and sintering Journal of the European Ceramic Society March 2021, 413):1779-1787

·         Improved wettability and mechanical properties of metal coated carbon fiber-reinforced aluminum matrix composites by a squeeze melt infiltration technique Transactions of Nonferrous Metals Society of China, Volume 31, Issue 2, February 2021, Pages 317-330

·         沙建军;刘应军;祖宇飞;田洪亮;代吉祥,一种电泳沉积制备连续碳纤维增韧超高温陶瓷基复合材料的方法,专利号: ZL 2020 1 0711247.X

·         沙建军,沙如意,苏成,代吉祥,祖宇飞。一种具有极低收缩率的低密度高强酚醛树脂气凝胶常压干燥制备方法,专利号:202110106996.4

·         热处理纤维增强碳基复合材料的力学性能和抗氧化性能Mechanical properties and oxidation resistance of heat-treated fiber reinforced carbon matrix composites.中国有色金属学报, 2020, 30(9)

·          Integrated Modeling of Process-Microstructure-Property Relations in Friction Stir Additive Manufacturing, Acta Metallurgica Sinica (English Letters) (2020) 33:75-87,

·          Improved microstructure and high temperature mechanical properties of C/C–SiC composites by introduction of ZrC nanoparticles Ceramics International 46 (2020) 8082–8091.

·          Synergistic strengthening of aluminum matrix composites reinforced by SiC nanoparticles and carbon fibers, Materials Letters (3.019), 2020.3.1Volume 262, 127024-127028

·         碳纤维表面超声振荡辅助电镀镍涂层工艺及其参数的影响规律, 中国有色金属学报 20203, 30(3):571-579

·         沙建军,林冠璋,吕钊钊,张兆甫,祖宇飞,一种碳纤维/碳化硅颗粒共增铝基复合材料的制备方法与应用,专利号,ZL201810634785.6

·         Enhanced fracture properties of ZrB2-based composites by in-situ grown SiC nanowires, Advances in Applied Ceramics, 2019.4, Vol. 118, No. 3, 137–144,

·         Microstructural tailoring and its influence on oxidation resistance of carbon fiber-reinforced C-SiC matrix composites, ceramics International, 2019,45(2):2044-2052.

·         Fabrication and mechanical properties of self-toughening ZrB2–SiC composites from in-situ reactionJournal of Advanced Ceramics2.300),2019.128(4): 527-536

·          Experimental and numerical studies of re-stirring and re-heating effects on mechanical properties in friction stir additive manufacturing, The International Journal of Advanced Manufacturing Technology, 2019-09, 104:767–784,

·         Heat transfer, thermal stress and failure analyses in a TiB2 gas turbine stator blade, Ceramics International(3.450), 2019.10, 45(15):19331-19339

·          TiB2–SiC-based ceramics as alternative efficient micro heat exchangers, Ceramics International(3.450), 2019.10, 45(15):19060-19067,

·         Numerical analyses of heat transfer and thermal stress in a ZrB2 gas turbine stator blade, Ceramics International(3.450), 2019.10, 45(14):17742-17750

·         A numerical approach to the heat transfer in monolithic and SiC reinforced HfB2, ZrB2 and TiB2 ceramic cutting tools, Ceramics International(3.450), 2019.09, 45(13):15892-15897.

·         晶粒互锁结构与短切碳纤维增韧ZrB2-SiC复合材料的制备与力学性能,无 报,Vol. 34 No. 9, 2019 9 ,918-924;

·         沙建军,吕钊钊,邹雪,林冠璋,王首豪,张兆甫,一种碳纤维表面电镀铜镍镶嵌式复合涂层制备方法及应用,专利号:201710930596.9

·         沙建军,吕钊钊等,一种原位生长碳化硅纳米线增强多孔碳复合材料的制备方法,专利号:ZL 201610653476.4 

·          Fabrication and characterization of SPS sintered SiC-based ceramic from Y3Si2C2-coated SiC powders, Journal of the European Ceramic Society, 2018, 38(15):4833-4841.

·         Synthesis of novel hierarchical SiC-SiO2 heterostructures: Via a catalyst free method, Cryst Eng Comm, October 2017,19(43),6540-6546.

·         Fabrication and characterization of carbon-bonded carbon fiber composites with in-situ grown SiC nanowires, Carbon 118 (2017) 148-155.

·         In-situ growth of SiC nanostructures and their influence on anti-oxidation capability of C/SiC compositesCorrosion Science, 201712471-79

·         Jianjun Sha, Zhaozhao Lv, Jian Li, Zhaofu Zhang, Jixiang Dai, Effect of in-situ grown SiC nanowires on mechanical properties of short carbon fiber-reinforced polymer composites, Materials Letters 199 (2017) 17–20.

·         Microstructure and mechanical properties of ZrB2-based ceramic composites with nano-sized SiC particles synthesized by in-situ reaction, Materials Science & Engineering A, 693 (2017) 145–150.

·         Effect of multi-walled carbon nanotubes on microstructure and fracture properties of carbon fiber-reinforced ZrB2-based ceramic composite, Ceramics International 43 (2017) 7454–7460.

·         ZrB2-based composites toughened by as-received and heat-treated short carbon fibers, Journal of the European Ceramic Society, 2017, 37(2): 549–558. Featured Article.

·         沙建军,代吉祥,张兆甫,纤维增韧高温陶瓷基复合材料(Cf, SiCf/SiC)应用研究进展,航空制造技术, 2017,19,16-33


Work Experience

  • 2016.08 -- Now

    大连理工大学

  • 2016.08 -- 2016.08

    拜罗伊特大学      高级访问学者

  • 2013.10 -- Now

    大连理工大学      教授,副院长,实验室主任

  • 2009.05 -- 2013.10

    大连理工大学      教授

  • 2008.04 -- 2009.05

    德国拜罗伊特大学      洪堡学者

  • 2005.10 -- 2007.11

    日本京都大学国际创新中心      特别研究员

  • 2004.03 -- 2005.03

    日本京都大学先进能源与理工学研究所      研究助手

  • 2002.12 -- 2003.03

    日本京都大学先进能源与理工学研究所      研究助手

Research Focus

  • 航空航天先进复合材料结构优化设计和快速制造
  • 航空航天复合材料力学性能设计及表征
  • 使役环境多场耦合下复合材料热性能响应及分析
  • 航空航天极端环境复合材料损伤及失效机理