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基本信息 论文专著 学生培养与教学 招生信息 感悟 新建主栏目 基本信息 名称 黄陆军,哈工大材料学院院长,二级教授,博士生导师,入选国家级高层次人才、国家优青。 获黑龙江省自然科学奖一等奖(2019年第1)与二等奖(2012年第2)、教育部霍英东教育基金会青年科学家奖一等奖(全国5人)、首批强国青年科学家、中国复合材料学会青年科学家奖, 先后主持承担国家重点研发计划项目课题、基础加强重点项目课题、国家自然科学基金(7项:区域联合重点、优青、国际合作研究、3面上、青年)等。 曾获哈工大优秀博士论文、黑龙江省优秀硕士论文奖,黑龙江省优秀毕业生,哈工大优秀硕士论文金奖,哈工大第四届研究生十佳英才(一届/2年),哈工大自强之星,哈工大五四奖章等。 培养的学生获宝钢优秀学生“特等奖”、热处理创新创业大赛特等奖,哈工大“十佳”大学生,本硕博三获国家奖学金,本科4年两获国家奖学金(2人),近五年6人曾获专业第一甚至年级第一,近五年100%本科生升学(保研/考研、出国读博),获省级和校级各类荣誉近100人次。 教育经历 名称 1998年8月-2001年7月, 就读于安徽省界首市第一中学 2001年8月-2005年7月, 就读于哈尔滨工业大学, 材料科学与工程学院,金属材料工程专业,获学士学位(导师:耿林教授) 2005年8月-2007年7月, 就读于哈尔滨工业大学, 材料科学与工程学院,材料学专业,获硕士学位(导师:耿林教授) 2007年8月-2011年1月, 就读于哈尔滨工业大学, 材料科学与工程学院,材料学专业,获博士学位(导师:耿林教授) 2009年10月-2010年9月, 英国布里斯托大学, 先进复合材料研究中心,CSC联合培养/合作研究 工作经历 名称 时间 工作经历 2009年11月-2011年3月 哈尔滨工业大学,预留师资,助教职称 2011年3月-2013年12月 哈尔滨工业大学,材料科学与工程学院,讲师职称、硕导(2013年4月--) 2011年9月-2012年9月 江苏省昆山市,科学技术局,副局长 (挂职) 2013年12月-2015年12月 哈尔滨工业大学,材料科学与工程学院,副教授(破格)、硕导 2011年6月-2015年5月 哈尔滨工业大学力学博士后流动站,博士后,(合作导师:吴林志教授) 2015年12月-至今 哈尔滨工业大学,材料科学与工程学院,教授(破格) 2016年4月-至今 哈尔滨工业大学,材料科学与工程学院,博士生导师 2016年4月-2019年7月 哈尔滨工业大学,校团委书记 2017年11月-2021.12 哈工大“先进结构功能一体化材料与绿色制造技术工业和信息化部重点实验室“,副主任 2019年7月-2023年12月 哈工大材料学院副院长 2023年12月-至今 哈工大材料学院院长 荣誉称号 名称 2007年 获“黑龙江省优秀硕士毕业生” 2007年 获“哈尔滨工业大学优秀硕士论文金奖” 2008年 获“哈工大博士生特殊奖学金-天龙奖学金” 2009年 被评为“哈尔滨工业大学科研之星” 2009年 获“哈尔滨工业大学五四奖章” 2009年 获“哈尔滨工业大学自强之星” 2010年 获“黑龙江省第六届优秀硕士论文” 2010年 获“哈尔滨工业大学第四届研究生十佳英才” 2012年获黑龙江省高校科学技术奖一等奖,排名第二 2012年获哈尔滨工业大学第十四届优秀博士论文奖 2012年获第10届中日复合材料学术会议(CJJCC-10)优秀论文 2012年获黑龙江省科学技术奖(自然类)二等奖,-排名第二 2012年获“2012年全国博士后材料科学与工程学术论坛优秀论文” 2014年获中国材料研究学会首届材料与艺术图片展二等奖 2014年获哈尔滨工业大学大一年度项目学习一等奖指导教师奖 2015年获哈工大学生活动优秀指导教师 2015年度百名优秀中国博士后科学基金资助者 2015年度中国材料大会优秀论文奖 2016年中国复合材料学会首届青年人才托举工程(全国共2人) 2016年度大学生创新创业训练计划项目一等奖指导教师奖 2017年哈工大百优本科论文指导教师奖(学生:魏绍楼) 2017年“非连续增强钛基复合材料研究进展”论文入选2016年度《航空材料学报》核心高被引论文 2018年哈工大大学生创新创业教育活动优秀指导教师奖 2019.4被评为2018 年度《材料工程》《航空材料学 报》优秀审稿专家 2020年4月被评为《中国科学:技术科学》两刊2019年度优秀编委 2020年5月入选爱思唯尔(Elsevier)2019年中国高被引学者(Chinese Most Cited Researchers)(材料力学学科42人,全国2163人) 2020年获中国青年网校园通讯社2019年度优秀指导教师 2020年7月获哈工大“卓越杯”青年教师教学竞赛二等奖 2020年8月获2020中国有色金属学会青年科技论坛优秀报告 2020年9月获哈工大先进个人 2020年获黑龙江省青年科学抗击疫情“奉献奖” 2021年获首届强国青年科学家 2022年获全国有色金属优秀青年科技计划 2022年获霍英东教育基金会青年科学奖一等奖 2022年作为负责人获黑龙江省课程思政示范课程与课程思政教学团队 2022年获挑战杯省赛优秀指导教师奖 主要任职 名称 中国复合材料学会常务理事 中国材料研究学会青年工作委员会常务理事 国务院学位委员会第八届材料科学与工程学科评议组副秘书长 教育部高等学校材料类专业教学指导委员会副秘书长 《金属学报》首届青年编委会副主任 《Journal of Materials Science and Technology》编委 《中国科学:技术科学》(Sci. China Tech Sci.)中英文版青年编委 《中国材料进展》青年编委 《International Journal of Minerals, Metallurgy and Materials》青年编委 《航空材料学报》编委 教育部博士后基金评审专家 中国有色金属学会复合材料专业委员会委员(2019.9) 中国金属学会粉末冶金分会第七届委员会委员(2021.04.29) 黑龙江省青年科技工作者协会理事、新技术新材料界别主任 中国航空学会高级会员 中国金属学会会员,黑龙江省轻金属专业委员会委员 黑龙江省教育评估检测入库专家(3年),2022.5 指导的魏绍楼(2017)、周士鹏(2021)、鲁伟航(2022)、麻子硕(2022)获哈工大百篇优秀本科论文奖 指导学生获挑战杯省赛金奖、互联网+省赛金奖、银奖、铜奖 出版著作(含博士和硕士论文) 名称 专著,主编专著/参考教材2部,参编专著2部: (1) Lujun Huang, Lin Geng. Discontinuously Reinforced Titanium Matrix Composites: Microstructure Design and Property Optimization, Springer, 2017,978-981-10-4447-2。4.7万 (2) 黄陆军,耿林,网状结构钛基复合材料,国 防工业出版社,24.7万字,2015(获科技图书出版基金资助) 978-7-118-09793-1 (3) 黄陆军,耿林.《精密热加工新技术》第11 章硼化钛晶须增强钛基复合材料成形与热处理技术, 国防工业出版社. 201605, 249-276, 2万字 ISBN978-7-118-10838-5. 材料科学与工程 0805 (4) Charles A. Osheku, Lamination- Theory and Application, InTech, ISBN 978-953-51-3926-3, Print ISBN 978-953-51-3925-6, 124 pages, Chapters published March 21, 2018 under CC BY 3.0 license DOI: 10.5772/65194. Chapter 2: Baoxi Liu, Lujun Huang*, Lin Geng and Fuxing Yin, Multiscale Hierarchical Structure and Laminated Strengthening and Toughening Mechanisms. (5) 庞东贺,黄陆军,李敬伟. 让青春之花绽放在祖国最需要的地方-哈尔滨工业大学研究生支教团十五周年工作扫描. 人民日报出版社, 2017年。 博士和硕士论文: (6) 黄陆军。增强体准连续网状分布钛基复合材料的研究。哈尔滨工业大学博士学位论文,哈尔滨工业大学优秀博士论文奖。2010-12-07 (7) 黄陆军。TC11钛合金等轴化处理及高温变形行为的研究。哈尔滨工业大学硕士学位论文金奖,黑龙江省优秀硕士学位论文。2007-07-01 发表论文:2008年~2022年 名称 在Progress in Materials Science, Advanced Materials, Acta Materialia等发表学术论文150篇,已授权国家发明专利30项。 2022年: (1) Weihang Lu, Qi An*, Cunyu Wang, Shuai Wang, Lujun Huang*, Fengbo Sun, Run Chen, Lin Geng. Sub-micron grains and excellent mechanical properties of low-density Ti40Nb30Mo30-C refractory complex concentrated alloy reinforced with in-situ (Ti, Nb)C. Materials Science and Engineering: A, 2022, 860: 144335. 6 December 2022, (2) X.T. Li#, Q. An#*, L.J. Huang*, R. Zhang, X. Chen, R. Chen, F.B. Sun, L.Geng. The hot corrosion behaviors and mechanisms of hot-dipped Ti-Al-Si coatings on TiBw/Ti6Al4V composite against NaCl and Na2SO4. Journal of Alloys and Compounds, 2022, 921: 166151. 15 November (3) Y. Jiao*, C.F. Liu, X.P. Cui, J. Zhang, L.J. Huang, L. Geng. A new approach for measurement of the low-temperature specific heat capacity. Measurement. 2022, 203: 111892. 15 November,IF5.131 (4) Shuai Wang, Lujun Huang*, Rui Zhang, Qi An*, Fengbo Sun, Fanchao Meng, Lin Geng. Effects of rolling deformation on microstructure orientations and tensile properties of TiB/(TA15-Si) composites. Materials Characterization. 2022, 194: 112425. December (5) Cunyu Wang, Qi An*, Lujun Huang*, Rui Zhang, Xin Chen, Run Chen, Lin Geng, Hua-Xin Peng. Achieving superior strength-ductility synergy by constructing network microstructure in Ti-based high-entropy alloy matrix composites. Composites Communications, 2022, 36: 101357. December (6) Shuai Wang*, LuJun Huang*, Qi An, ZiShuo Ma, Rui Zhang, Hua-Xin Peng, Lin Geng. Strength-ductility synergy of in-situ TiB/Ti6Al4V composites with tailored hierarchical TiB distributions. Ceramics International. 2022, 48(23): 35069-35075. 1 December (7) Rui Zhang, Shuai Wang, Xin Chen, Qi An, Lujun Huang*, Lin Geng, Fei Yang*. Significantly enhanced superplasticity of TiBw/near-α Ti composite: Microstructure tailoring and deformation mechanisms. Materials Science and Engineering: A. 2022, 853: 143772. 15 September (8) Shuai Wang*, Qi An, WenQi Liu, Rui Zhang, ZiShuo Ma, LuJun Huang*, Lin Geng. Towards strength-ductility enhancement of titanium matrix composites through heterogeneous grain structured Ti matrix design. Journal of Alloys and Compounds. 2022, 927: 167022. 15 December (9) Shuai Wang*, LuJun Huang*, BaoXi Liu, Hua-Xin Peng, Yang Jiao, Lin Geng. Microstructure and mechanical properties of Ti6Al4V based laminated composites at various rolling reductions. Composites Communications. 2022, 33: 101212. August (10) Laibo Sun, Chunhuan Guo, Lujun Huang, Fengchun Jiang, Kai Xu, Ruisheng Huang*. Effect and mechanism of inter-layer ultrasonic impact strengthening on the anisotropy of low carbon steel components fabricated by wire and arc additive manufacturing. Materials Science and Engineering: A. 2022, 848: 143382. 19 July (11) Qi An, Shuai Wang, Lujun Huang*, Cunyu Wang, Qi Qian, Yong Jiang, Liqin Wang, Lin Geng*. Experimental and first-principles study on TiB/TiC interface in hybrid (TiB%2BTiC)/Ti6Al4V composite. Ceramics International. 2022, 48(15): 22554-22559. 1 August (12) Run Chen, Qi An*, Shuai Wang, Lujun Huang*, Rui Zhang, Cunyu Wang, Shipeng Zhou, LinGeng. Overcoming the strength-ductility trade-off dilemma in TiBw/TC18 composites via network architecture with trace reinforcement. Materials Science and Engineering: A. 2022, 842: 143092. 11 May (13) Qi An, Lujun Huang, Qi Qian, Yong Jiang, Shuai Wang, Rui Zhang, Lin Geng, Liqin Wang. Insights into in-situ TiB/dual-phase Ti alloy interface and its high load-bearing capacity. Journal of Materials Science & Technology. 2022, 119: 156-166. 20 August (14) Xuefeng Zhou, Cong Gao, Dandan Wang, Shang Peng, Lujun Huang, Wengge Yang, Wen-Hua Zhang*, Xiang Gao*. Revealing the dominant factor of domain boundary resistance on bulk conductivity in lanthanum lithium titanates. J. Energy Chem. 2022, 73, 354-359. IF = 13.599 18 June (15) Shuai Wang, Qi An, Rui Zhang, Shan Jiang, Lujun Huang, Run Chen, Baoxi Liu, Yang Jiao, Lin Geng. Microstructure characteristics and enhanced properties of network-structured TiB/(TA15-Si) composites via rolling deformation at different temperatures. Materials Science and Engineering: A, 2022, 829: 142176 (16) Shiyang Wang, Sheng Zhan, Xingyu Hou, Long Wang, Hongwei Zhang, Hongyu Zhang, Yuan Sun, Lujun Huang. Microstructure and Mechanical Property of a Multi-Scale Carbide Reinforced Co-Cr-W Matrix Composites. Crystals. 2022, 12: 198. (17) Hao Ding, Xiping Cui* Yuchen Wang, Delong Cai, Zhiqi Wang, Yuanyuan Zhang, Lujun Huang*, Lin Geng. A feasible surface patterning method for SEM-DIC: Achieving high-resolution in-situ mapping of local strain and microstructure to reveal the effect of slip transfer on shear strain near grain boundaries, Microscopy and Microanalysis, 2022, 28: 1931–1944. 2022.4.3, IF:4.099 (18) Hao Ding, Xiping Cui*, Zhiqi Wang, Zhao Tao, Yuchen Wang, Yuanyuan Zhang, Hongtao Chen, Lujun Huang*, Lin Geng, Junfeng Chen*. A new strategy for fabrication of unique heterostructured titanium laminates and visually tracking their synchronous evolution of strain partitions versus microstructure, Journal of Materials Science & Technology, 2022, 107: 70-81 (一区,IF: 10.319) (19) 陈润,王帅*,安琦,张芮,刘文齐,黄陆军,耿林. 热挤压与热处理对网状TiBw/TC18复合材料组织及性能的影响. 金属学报(SCI). 2022, 58(11): 1478-1488. 2021年: (20) L.J. Huang, Q. An, L. Geng, S. Wang, S. Jiang, X.P. Cui, R. Zhang, F.B. Sun, Y. Jiao, X. Chen, C.Y. Wang. Multi-scale Architecture and Superior High-temperature Performances of Discontinuously Reinforced Titanium Matrix Composites. Advanced Materials, 2021, 33(6), 2000688 IF: 30.849 (21) Shan Jiang, Lujun Huang, Xiang Gao, Gang Liu, Rui Zhang, Yang Jiao, Shang Peng, Qi An, Shuai Wang, Lin Geng. Interstitial carbon induced FCC-Ti exhibiting ultrahigh strength in a Ti37Nb28Mo28-C7 complex concentrated alloy. Acta Materialia, 2021, 203: 116456. IF 7.656 (22) Hao Ding, Xiping Cui, Naonao Gao, Yuan Sun, Yuanyuan Zhang, Lujun Huang, Lin Geng. Fabrication of (TiB/Ti)-TiAl composites with a controlled laminated architecture and enhanced mechanical properties. Journal of Materials Science and Technology. 2021, 62: 221-233. IF:6.155 (23) Shuai Wang, Lujun Huang, Shan Jiang, Rui Zhang, Baoxi Liu, Fengbo Sun, Qi An, Yang Jiao, Lin Geng. Microstructure evolution and tensile properties of as-rolled TiB/TA15 composites with network microstructure, Materials Science and Engineering: A, 15 February 2021, 804: 140783 (24) Xin Chen, Lujun Huang, Yang Jiao, Shuai Wang, Qi An, Yang Bao, Lin Geng. Mechanisms of oxidation anisotropy between a-Ti (0001) and (01-10) crystallographic planes in titanium matrix composites. Materials Letters, 2021, 286: 129230 (25) Ming Ji, Lujun Huang, Qi An, Yang Bao, Xiping Cui, Yang Jiao, Lin Geng. Microstructure refinement and strengthening mechanisms of network structured TiBw/Ti6Al4V composites by TIG remelting. Materials Science and Engineering A, 2021, 804, 140755 (26) Yang Bao, Lujun Huang, Shan Jiang, Rui Zhang, Qi An, Caiwei Zhang, Lin Geng, Xinxin Ma. A novel Ti cored wire developed for wire-feed arc deposition of TiB/Ti composite coating. Journal of Materials Science & Technology, 2021, 83: 145–160. (27) Shuai Wang, Lujun Huang, Shan Jiang, Rui Zhang, Fengbo Sun, Qi An, Lin Geng. Multiplied bending ductility and toughness of titanium matrix composites by laminated structure manipulation. Materials & Design, 2021, 197: 109237 (28) Shuai Wang, Qi An, Rui Zhang, XiPing Cui, LuJun Huang, Lin Geng. Strain rate sensitivity of titanium matrix composites: In the presence of laminated structure. Composites Communications, 2021, 26: 100787. (29) Shan Jiang, Qi An, Xiping Cui, Xuelian Xiang, Lujun Huang, Rui Zhang, Yuan Sun, Lin Geng. Fabrication and mechanical properties of the titanium matrix composites based on Ti6Al4V-ZrB2-(Si) system. Materials Science and Engineering: A, 2021, 819: 141488 (30) Xin Chen, Qi An, Shan Jiang, Yang Jiao, Lujun Huang, Lin Geng. Revealing Anti-oxidation Mechanisms of Titanium Composite Materials by Detailed Characterization of Scale Phase Constitutions[J]. Corrosion Science, 2021, 192: 109845. (31) Zhang R, Huang L, Zhao X, et al. Influence of deformation parameters and network structure to the microstructure evolution and flow stress of TiBw/Ti64 composite[J]. Materials Science and Engineering: A, 2021, 809: 140997. 2020年: (32) Yanan Gao, Lujun Huang, Yang Bao, Qi An, Yuan Sun, Rui Zhang, Lin Geng, Jie Zhang. Joints of TiBw/Ti6Al4V composites- Inconel 718 alloys dissimilar joining using Nb and Cu interlayers. Journal of Alloys and Compounds, 2020, 822: 153559 (33) Shuai Wang, LuJun Huang, Lin Geng, Yuan Sun, Hua-Xin Peng, ShaoXing Qu. Microstructure evolution and damage mechanism of layered titanium matrix composites under tensile loading. Materials Science & Engineering A, 2020, 777: 139067 (34) Shuai Wang, Lujun Huang, Shan Jiang, Rui Zhang, Qi An, Yuan Sun, Lin Geng. Microstructure evolution and improved properties of laminated titanium matrix composites with gradient equiaxed grains. Science China Technological sciences, 2020, 63: 2687-2697. (35) Qi An, Lujun Huang, Shan Jiang, Shuai Wang, Rui Zhang, Fengbo Sun, Atieh Moridi, Lin Geng. Wear rate of titanium matrix composite coating at high temperature further increased by non-stoichiometric TixC oxidation. Ceramics International, 2020, 46: 8068-8074. (36) Fengbo Sun, Lujun Huang, Rui Zhang, Shuai Wang, Shang Jiang, Yuan Sun, Qi An, Yang Jiao, Lin Geng. In-situ synthesis and superhigh modulus of network structured TiC/Ti composites based on diamond-Ti system. Journal of Alloys and Compounds, 2020, 834: 155248 (37) Shan Jiang, Lujun Huang, Qi An, Xiang Gao, Shuai Wang, Lin Geng, Rui Zhang, Fengbo Sun, Yang Jiao. Significantly strengthening the Ti70Nb10Mo10Zr10 alloy via architecting two-scale silicide reinforcement. Journal of Alloys and Compounds, 2020, 835: 155255 (38) 黄陆军, 孙枫泊, 安琦, 韩亚坤, 刘悦, 崔喜平, 耿林. (TiBw%2B(TiZr)5Si3)/ TA15 钛基复合材料粉末冶金制备与热处理改性. 中国科学技术科学. 2020, 50(7): 935-946. (39) Yang Bao, Lujun Huang, Qi An, Shan Jiang, Rui Zhang, Lin Geng, Xinxin Ma. Insights into arc-assisted self-propagating high temperature synthesis of TiB2-TiC ceramic coating via wire-arc deposition. Journal of the European Ceramic Society, 2020, 40: 4381-4395. (40) Qi An, Ahmed Elshafiey, Lujun Huang, David A. Hammer, Mostafa Hassani. Plasma and X-ray Radiation-Induced Damage Mechanisms in a Tungsten Heavy Alloy. 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Constructing two-scale network microstructure with nano-Ti5Si3 for superhigh creep resistance. Journal of Materials Science & Technology, 2019, 35: 1532-1542. (46) Shuai Wang, LuJun Huang, Rui Zhang, BaoXi Liu, XiPing Cui, Lin Geng, Hua-Xin Peng. Enhancing ductility of titanium matrix composites by multimodal α-grains,Scripta Materialia. 2019, 170: 161-165. (47) Shaolou Wei, Lujun Huang, Xinting Li, Yang Jiao, Wei Ren, Lin Geng. Network-strengthened Ti-6Al4V/(TiC%2BTiB) Composites: Powder Metallurgy Processing and Enhanced Tensile Properties at Elevated Temperatures. Metallurgical and Materials Transactions A, 2019, 50: 3629-3645. (48) Yang Bao, LujunHuang, Qi An, Shan Jiang, Rui Zhang, Lin Geng, Xinxin Ma. Metal transfer and microstructure evolution during wire-feed deposition of TiB/Ti composite coating. Journal of Materials Processing Technology, 2019, 274: 116298. (49) Qi An, Lujun Huang, Shaolou Wei, Lin Geng. Corrosion Science, 2019, 158: 108102. (50) X.T. Li, L.J. Huang, S. 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Huang, Effects of SiC Particle Pretreatment and Stirring Parameters on the Microstructure and Mechanical Properties of SiCp/Al-6.8Mg Composites Fabricated by Semi-solid Stirring Technique, Materials Science and Engineering A, 2010, 528(1): 513-518. 2009年: (141) L.J. Huang, L. Geng*, A.B. Li, F.Y. Yang, H.X. Peng%2B, In situ TiBw/Ti-6Al-4V Composites with Novel Reinforcement Architecture Fabricated by Reaction Hot Pressing, Scripta Materialia, 2009, 60(11): 996-999. (142) L.J. Huang, L. Geng*, P.Q. Zheng, A.B. Li, X.P. Cui, Hot Tensile Characterization of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloy with an Equiaxed Microstructure, Materials and Design, 2009, 30(3): 838-841. (143) L.J. Huang, L. Geng*, A.B. Li, X.P. Cui, H.Z. Li, G.S. Wang, Characteristics of Hot Compression Behavior of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloy with an Equiaxed Microstructure, Materials Science and Engineering A, 2009, 505(1-2): 136-143. (144) Lujun Huang, Fuyao Yang, Y. L. Guo, J. Zhang, L. Geng*, Effect of Sintering Temperature on Microstructure of Ti6Al4V Matrix Composites, International Journal of Modern Physics B, 2009, 23(6-7): 1444-1448. (145) A.B. Li, L.J. Huang, Q.Y. Meng, L. Geng*, X.P. Cui, Hot Working of Ti-6Al-3Mo-2Zr-0.3Si Alloy with Lamellar α%2Bβ Starting Structure Using Processing Map, Materials and Design, 2009, 30(5): 1625-1631. (146) P.Q. Zheng, L.J. Huang, A.B. Li, L. Geng*, Lamellar Disintegration Mechanism of TC11 Titanium Alloy during Hot Compression, Journal of Wuhan University of Technology, 2009, 24: 44-46. 2008年: (147) L.J. Huang, L. Geng*, A.B. Li, G. S. Wang, X.P. Cui, Effects of Hot Compression and Heat Treatment on the Microstructure and Tensile Property of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Alloy, Materials Science and Engineering A, 2008, 489(1-2): 330-336. (148) L.J. Huang*, L. Geng, A.B. Li, G.S. Wang and L. Shi. Constitutive Equation and Hot Deformation Characteristic of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy with Equiaxed Microstructure. RARE METALS. 2007, 26: 88-93. (149) 李爱滨, 耿林*, 黄陆军, 崔喜平, 徐斌, 李玉涛, TC11 钛合金热变形行为的研究, 稀有金属材料与工程, 2008, 37(3): 728-731. (150) 石磊,耿林*,杨昭,李诚国,黄陆军, (α%2Bβ)相变区内变形量对TC11合金组织的影响, 稀有金属材料与工程, 2008, 37(3): 622-626. 本、硕、博培养 名称 方向: (1)钛合金(钛与富钛高熵)与钛基复合材料,(2)激光3D打印智能制造(钛合金、钛基复合材料、高温合金、高熵合金), (3)锂电池正极材料改性。 博士:刘宝玺(2014年12月毕业),胡海亭(2015年4月毕业),王博(2015年7月毕业),焦阳(2014级、2018年7月毕业),李忻婷(2015级-2020年7月),郜雅楠(2015级硕博连读-2020年7月),安琦(2016级硕博连读-2020年7月),姜山(2017级-2021年7月),王帅(2017级-2021年4月),包阳(2017级硕博连读-2020年10月)、张芮(2018级)、纪明(2018级),杨国波(2019春),小王帅(2019级-2023年9月),孙枫泊(2019级本博连读),陈昕(2020级), 2021博:孟凡超(2021春),陈润(2021秋)、王存玉(2021级硕博连读)、 2022博:麻子硕(2022级本博连读)、宋金鹏(2022级)、刘少帅(2022级), 2023博:刘玉洋(来自东北大学)、龚德龙、周仕鹏、从光辉、熊少聪、刘文奇(本博)。 硕士:杨富尧(2008-2010),王博(2009-2011),张煜梓(2010-2012),付玉(2010-2012),宋晓青(2011-2013),李小新(2011-2013),王松(2012-2014),陆成杰(2012-2014),唐骜(2013-2015),谢莹莹(2013-2015), 戎旭东(2014-2016),段天博(2014-2016出国读博),刘辰(2014-2015出国读博转走), 王帅(2015-2017哈工大读博),姜山(2015-2017哈工大读博),赵祥旭(2015-2017),安琦(2015-2016硕博连读转博), 刘悦(2016-2018黎明),张芮(2016-2018哈工大读博),纪明(2016-2018哈工大读博),向雪莲(2016-2018), 郑俊超(2017-2019航天三院),柴宏宇(2017-2019中科院金属所),詹生(2017-2019华为)、 李阳(2018-2020)、陈昕(2018-2020哈工大读博)、张瀚洋(2018-2020), 陈润(2019-2021哈工大读博)、张财伟(2019-2021中科院金属所)、胡昌宇(2019-2021哈工大读博)、盛培秀(2019-2021华为)、 王存玉(2020-2021)、王雨琛(2020-2022)、王之祺(2020-2022)、赵涛(2020-2022)、郏莹莹(2020-2022)、宋英杰(2020-2022)、宋金鹏(2020-2022)。 周仕鹏(2021-),从光辉(2021-)、龚德龙(2021-)、熊少聪(2021-)、张昕(2021-)、张雪(2021-), 其中,杨富尧、张煜梓、唐骜、段天博、王帅、纪明、张芮、陈润(2021)获校优秀硕士论文。 本科:杨富尧(2004-2008),潘峰(2005-2009),董云松(2007-2011,1071900105),王松(2008-2012,1081900220),黄河滨(2008-2012),唐骜(2009-2013,1091900101),戎旭东(2009-2013),刘辰(2010-2014),段天博(2010-2014,6101900618),任维(2010-2014),胡悦(2010-2014),王帅(2011-2015,1111900209),肖苗苗(2011-2015),余果(2011-2015),刘义腾(2012-2016),刘悦(2012-2016),魏绍楼(2013-2017,1131900233),李祖荣(2013-2017),杜益嘉(2014-2018),李阳(2014-2018),孙枫泊(2015-2019),魏星(2016-2020),王存玉(2016-2020),周仕鹏(2017-2021保研本组),从光辉(2017-2021保研本组)、鲁伟航(2018-)、麻子硕(2018-)、贾畅颖(2018-),刘文齐(2019-)、任泽祺(2019-)。 其中,魏绍楼获2017年、周仕鹏2021年、鲁伟航2022年、麻子硕2022年获哈工大百优本科论文奖。 杨富尧、刘宝玺、大王帅(本硕博3次)、安琦、陈润、魏绍楼、纪明、戎旭东,孙枫泊、杜益嘉、刘文齐、鲁伟航和刘文齐获国家奖学金,其中鲁伟航和刘文齐本科4年2次国家奖学金。 任泽祺2022年获哈工大十佳大学生。 讲授课程 名称 热处理原理/材料固态相变原理 Fundamentals of Materials Science and Engineering 网状结构钛基复合材料创新研修课 钛合金3D打印新生研讨课 硕士生和博士生招生,博士后和高端人才招聘 名称 团队:硕士生10-12人/年,博士3-6人/年,博士后和高端人才随时联系 急需:有固态锂电池、3D打印、粉末冶金热等静压、高熵合金方向基础的人才加盟。 硕士招生:钛合金、钛基复合材料、粉末冶金、固态锂电池、3D打印、高熵合金等。 本科为金属方向,涉及固态锂电池、3D打印、钛合金、粉末冶金、金属基复合材料等研究者优先,推荐攻读硕士研究生优先,有继续攻读博士学位者优先。博士招生:钛合金、钛基复合材料、固态锂电池、3D打印等。硕士课题涉及固态锂电池、3D打印、钛合金、粉末冶金、金属基复合材料等研究者优先。 招生信息 名称 急需:锂电池正极材料、激光3D打印、粉末冶金热等静压研究经历的博士 哈尔滨工业大学材料学院耿林教授、黄陆军教授课题组招聘博士后 哈工大材料学院耿林教授、黄陆军教授课题组,长期从事铝基、钛基、钛铝基复合材料设计、制备、成形加工等基础与应用研究。近年来致力于通过构型设计研制高性能新型钛基复合材料,制备出了网状结构钛基复合材料,解决了粉末冶金钛基复合材料脆性大增强效果差的瓶颈问题。应邀在《Progress in Materials Science》《Advanced Materials》撰写论文,出版中文和英文专著2部。近期研究成果解决了钛合金耐磨性差的瓶颈问题。有望推动耐热、耐磨钛基新材料实现广泛应用。因学科和科研项目发展需要,现招聘博士后科研人员2-3人。 一、主要研究方向 锂电池正极材料、激光3D打印、粉末冶金热等静压钛基复合材料设计、制备和表征 二、应聘条件 (1) 具有材料、物理、电化学等相关学科的博士学位或优秀应届博士毕业生,发表过高水平学术论文者优先。 (2) 具有较强的材料设计、制备、表征、技术报告撰写、中英文写作与交流等能力。 (3) 热衷科研工作,具有严谨的学术态度、独立开展课题研究的能力以及良好的团队协作精神。 (4) 身体健康,吃苦耐劳,积极向上,年龄一般不超过35周岁。 (5) 哈尔滨工业大学材料科学与工程博士后流动站规定的其它条件。 三、岗位职责 (1) 协助完成科学研究、项目实施和论文发表等科研工作; (2) 协助指导本科生及研究生研究工作; (3) 参与实验室日常事务管理。 (4) 协助团队开展创新能力建设。 四、岗位待遇 执行哈尔滨工业大学博士后有关规定。在材料科学与工程学院标准基础上,课题组提供有竞争力的薪资待遇和职业发展空间。 (1) 年薪30万元。 (2) 科研论文奖励依照学校科技论文奖励办法的有关规定予以奖励。 (3) 协助申请博士后基金、国家自然科学基金等。 (4) 协助申请哈工大青年拔尖人才选聘计划。 五、应聘材料与联系方式 应聘者提供以下电子版材料: (1) 个人应聘申请; (2) 本人简历,包括学习经历、工作经历、代表性科研成果、个人奖励等; (3)前期研究工作概要与主要成绩; 有意者请将上述应聘材料发送至如下信箱(主题为“申请博士后—姓名”):huanglujun@hit.edu.cn 联系人:黄陆军教授 热诚欢迎具有相关背景与工作经验的国内外优秀博士毕业生加盟!注:初审合格后通知面试。 课题组团队介绍 名称 课题组名称:轻质耐热金属基复合材料 成员: 耿林教授/博导,哈工大材料学院院长 黄陆军教授/博导,哈工大材料学院副院长 郑镇洙教授级高级工程师 张学习教授/博导 崔喜平教授级高级工程师 王桂松副教授/硕导 李爱滨副教授/硕导 钱明芳副教授/博导 焦阳工程师 安琦副教授 张宇副研究员 王帅讲师 异种材料连接-钎焊方向 张杰教授/博导-钎焊 刘春凤副教授/硕导-钎焊 孙良博讲师-钎焊 通用模版 名称 诚实做人!踏实做事! 瞄准方向、保持定力、一以贯之、久久为功! 当命运需要你逆风飞翔的时候,就不能随风逐流! 船到中流浪更急、人到半山路更陡! 善良的眼睛里看到的是善良,邪恶的眼睛里看到的是邪恶! 做不可替代的事、做不可替代的人! 抓住当前的主要矛盾/任务,把眼前的事情做到极致,下一步美好自然就会呈现! 自信、自立/自律、自我规划!读书、学习、锻炼身体、志愿服务! 只有规划、总结、交流,才能螺旋上升! 自信和谦虚要兼顾!原则和灵活要兼顾! 大学期间唯有做到自信、自立/自律、自我规划,才不会虚度青春年华! 大学是时间和精力最充沛的阶段,最应该做的四件事:读书、学习、锻炼身体、志愿服务! 爱国、爱岗、敬业,其实质就是把眼前的事、分内的事做到极致! 本科阶段就把学习搞好!研究生阶段就把试验搞好!当老师就要把课教好、把学生带好、把科研工作做好!做行政工作就要为学校发展考虑、为单位其他人员的成长考虑、为学生成才考虑。 没有困难就没有进步,只有不断克服苦难才能不断取得进步;如果每天做的都是自己力所能及的事情,那么就不可能有大的进步。 创新永远看似偶然,却从未来自偶然。它来自博闻、远见与坚持。----摘录自AI已来-从机器翻译到智能革命 人的潜力是逼出来的!人都是有惰性并且有安于现状的习惯,所以才畏惧挑战!然而,只有敢于面对困难并付诸行动,才可能不断进步!相信没有做不到,只有想不到! 心胸宽了,视野远了,苦恼就少了! 有了远大的目标,就不会为眼前的蝇头小事与困难纠结,心胸宽了,视野远了,苦恼就少了! 人总是习惯于拿自己的弱点与别人的优点比,所以不够自信、不够幸福! 坚韧是不断向前的前提! 努力不一定成功,但不努力一定不会成功!努力了不成功或许是因为努力的不够,或许会助力下一次成功!行百里者半九十,成功者不是因为走了九十里而是多坚持了最后十里! 牺牲自我只为实现更大的价值! 有多大担当才能干多大事业,尽多大责任才会有多大成就! 只要每天每件事都付出100%的努力,是实现“不以物喜!不以己悲!”的前提! 真正的顺其自然,是努力过后的平常心!!--摘录自人民网 穷则独善其身,达则兼济天下!见贤思齐!见不贤而内自省焉!是多么基本的要求,但又有多少人真正能做到呢? 不以善小而不为!把小事做好才能担大事!不以恶小而为之!所谓防微杜渐!温水煮青蛙!大恶都是从小恶不断积累的! 自己对自己的要求要比别人对自己的要求更高 求其上者得其中,求其中者得其下。 条条道路通罗马,但每条道路上也都有坎坷与鲜花! 有1%的希望也要付出100%的努力!这样就不会后悔!才能做到不以物喜不以己悲! 不要期待天上掉馅饼,如果没有充分的准备,不是天天努力,真的哪天掉下个大馅饼也是被砸晕,而馅饼被别人捡走!所以,唯有努力奋斗是正途! 本科学历决定了出身,硕士决定于学科,博士决定于学科和导师,学科与导师在国内外的地位决定了学生将来的发展潜力。 得到别人的任何帮助都要铭记在心,因为没有这个帮助可能就是1和0的区别;帮助了别人不要太在意别人的回复,因为别人的成功取决于很多很多方面,自己的帮助或许只是最不重要的一个方面。 人生最重要的功底,就是大二的专业基础课和大三的专业课,而大一的课程是决定大二和大三课程能否学深学透的前提。所以,大一大二大三的学习是至关重要的。 大学的学习和高中的学习思维不一样,科研和学习的思维也不一样,需要及时拿出足够的时间去适应去及时总结反馈调整。 大庆铁人纪念馆学习到王进喜名言: 这困难,那困难,国家缺油是最大的困难;这矛盾,那矛盾,国家没有油是最主要的矛盾。 井无压力不出油,人无压力轻飘飘,困难越大越有干劲。 我们的目光不要光盯着自己井架上那面小红旗,我们要争的是党和国家那面大红旗。 一切成绩和荣誉,都是党和人民的,我自己的小本本上只能记差距。 讲进步不要忘了党, 讲本领不要忘了群众, 讲成绩不要忘了大多数, 讲缺点不要忘了自己, 讲现在不要割断历史。