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李 博

副教授 / 博導

智能制造工程系主任

增材制造與智能裝備研究所所長

libo@ecust.edu.cn

上海市徐匯區(qū)梅隴路130號

工作經歷與教育背景:

1986年12月生，工學博士，中共黨員。2014年6月，博士畢業(yè)于南京航空航天大學、材料加工工程專業(yè)。

2014年6月~2018年6月，上海市特種設備監(jiān)督檢驗技術研究院、上海市特種設備事故調查中心，高級工程師。

2015年6月~2017年8月，華東理工大學、動力工程及工程熱物理專業(yè)，在職博士后。

2018年6月至今，華東理工大學77779193永利官網，副教授，智能制造工程系主任、上海高端裝備可靠性技術協(xié)同創(chuàng)新中心副主任、上海市機械工程學會工業(yè)智能制造技術專委會副主任委員。

入選上海市東方英才、江蘇省雙創(chuàng)人才、上海市青年科技啟明星計劃，等。

研究方向

主要研究方向（招生方向）：

（1）增材制造（3D打?。?/strong>

（2）智能制造與智能裝備

（3）結構完整性智能評價

歡迎機械、材料、智能制造專業(yè)背景學子加盟增材制造與智能裝備團隊攻讀學位！

承擔科研項目

國家自然科學基金面上項目“3D打印高熵合金多級構型強韌化設計與超低溫抗侵徹機理”，2022-2025，主持

國家自然科學基金青年項目“攪拌摩擦修復/改性對鋁合金深冷設備焊接結構完整性的影響機理”，2016-2018，主持

上海市“探索者”計劃項目“汽輪機葉片激光選區(qū)熔化增材制造的缺陷預測算法研究”，2024-2026，主持

上海市“青年科技啟明星”人才計劃項目“攪拌摩擦修復雙金屬復合板界面區(qū)缺陷愈合機理及結構完整性研究”，2016-2019，主持
上海市政府間國際科技合作項目“增材制造新一代核電裝備部件蠕變-疲勞失效機理及結構完整性技術”，2019-2022，主持

上海市自然科學基金面上項目“激光增材制造構型復合化高熵合金形性調控機理”，2020-2023，主持
中國博士后科學基金特別資助項目“攪拌摩擦增材制造層狀金屬復材的界面行為及結構完整性”，2016-2017，主持
中國博士后科學基金面上一等資助項目“TC4鈦合金攪拌摩擦加工表面合金化機理及性能”，2016-2017，主持
上海市質量技術監(jiān)督局科技計劃項目“應變強化不銹鋼深冷容器相變量無損檢測與力學性能評價方法”，2015-2017，主持 
中國航天科工集團“激光增材制造精密成型裝備開發(fā)”，2018-2019，主持

中國聯合重燃集團“先進重型燃機燃燒室復雜結構件構型技術研究”，2023-2024，子課題負責

中國航發(fā)集團“航空發(fā)動機XXX增材制造技術”，2024-2026，子課題負責

國防科工局民用航天項目“XXX異種材料XXX整體化增材制造技術”，2022-2024，子課題負責

國防項目“人工智能融合高性能激光增材制造XXX關鍵技術”，2021-2024，子課題負責

國家重點研發(fā)計劃“超強韌中熵合金構件增材/強化/減材復合制造”，2023-2025，子課題負責

國家重點研發(fā)計劃“大尺寸氮化鎵單晶制備用高溫超高壓反應釜設計制造技術”，2023-2025，子課題負責

國防項目“XXX激光增材制造控形控性”，2019-2024，子任務負責

國防項目“XXX電弧增材制造聲學監(jiān)測關鍵技術”，2019-2020，子任務負責

上海市科技支撐碳達峰碳中和專項“高效大功率堿性電解水制氫關鍵技術與裝備研發(fā)”，2021-2024，子課題負責

企業(yè)橫向合作項目若干（包括：磁屏蔽等功能型部件、輕量化航空航天部件、多功能過程裝備部件的3D打印，氫能源領域裝置智能監(jiān)測系統(tǒng)，高溫功能涂層技術，特種設備失效分析，疲勞壽命預測，等）

教學育人

本科教學：
先后主講《材料力學》《金屬先進成型技術》《增材制造原理》《增材制造（3D打印）技術賞析》《機械原理》《機械原理課程設計》《智能制造導論》《智能感知與信息處理》

研究生培養(yǎng)：
先后指導碩士研究生36人，博士研究生6人，多人次獲國家研究生獎學金、上海市/校級優(yōu)秀畢業(yè)生、優(yōu)秀畢業(yè)論文。

代表性著作

學術論文(一作/通訊*)：

高性能金屬基結構增材制造/3D打印方向：

研究增材制造高性能合金及金屬基復合材料的多尺度結構-強度-韌性-延性調控機制，探明嚴苛服役條件（高溫、深冷、疲勞、沖擊、腐蝕等）增材制造金屬構件及材料的觀動態(tài)演變機理，開發(fā)多材料一體化協(xié)同構筑、高精度微熱源精密構筑、高合金化原位冶金構筑等增材制造新裝備新方法，發(fā)展增材制造集成計算材料學，發(fā)掘適打印新型金屬結構材料及應用。

Guoqing Huang, Bo Li*, Jianrui Zhang, Fuzhen Xuan. Multi-material laser powder bed fusion additive manufacturing of dual-phase laminated heterostructure of Cantor high-entropy alloy and Martensitic steel for overcoming strength-ductility trade-off. Additive Manufacturing, 2024, 104618. (工程技術大類1區(qū), IF: 10.3)

Yinan Chen, Bo Li*, Bo Chen*, Fuzhen Xuan. High-cycle fatigue induced twinning in CoCrFeNi high-entropy alloy processed by laser powder bed fusion additive manufacturing. Additive Manufacturing, 2023, 61: 103319. (工程技術大類1區(qū), IF: 10.3)

Guoqing Huang, Tao Shen, Bo Li*. Microstructural evolution modeling and low-stress fatigue performance of bimodal-structured Al-Mg-Sc-Zr alloy produced by laser powder bed fusion additive manufacturing. Virtual and Physical Prototyping, 2024, 19: 2346287. (工程技術大類1區(qū), IF: 10.2)

Guoqing Huang, Bo Li*, Yinan Chen, Fuzhen Xuan. Nanotwining induced by tensile fatigue and dynamic impact of laser powder bed fusion additively manufactured CoCrFeNi high-entropy alloy. Journal of Materials Science and Technology, 2024, 183: 241-257. (材料科學大類1區(qū), IF: 11.2)

Bo Li*, Wei Zhang, Wangqi Fu, Fuzhen Xuan*. Laser powder bed fusion (L-PBF) 3D printing thin overhang walls of permalloy for a modified honeycomb magnetic-shield structure. Thin-Walled Structures, 2023, 182:110185. (工程技術大類1區(qū), IF: 5.7) 

Bo Li, Bo Qian, Yi Xu, Zhiyuan Liu, Jianrui Zhang, Fuzhen Xuan*. Additive manufacturing of ultrafine-grained austenitic stainless steel matrix composite via vanadium carbide reinforcement addition and selective laser melting: Formation mechanism and strengthening effect. Materials Science & Engineering A, 2019, 745: 495-508. (材料科學大類2區(qū), IF: 6.1) 

Bo Li*, Lei Zhang, Yi Xu*, Zhiyuan Liu, Bo Qian, Fuzhen Xuan*. Selective laser melting of CoCrFeNiMn high entropy alloy powder modified with nano-TiN particles for additive manufacturing and strength enhancement: Process, particle behavior and effects. Powder Technology, 2020, 360: 509-521. (工程技術大類2區(qū), IF: 4.5)

Bo Li*, Wei Zhang, Jianchao Shen, Fuzhen Xuan*. Micro-laminated CoCrFeMnNi?TiNp/CoCrFeMnNi high-entropy alloy matrix composite with bimodal grain structure via multi-material selective laser melting (MM-SLM) additive manufacturing. Composites Communications, 2022, 36: 101366. (材料科學大類2區(qū), IF: 6.5) 

Bo Li*, Lei Zhang, Bin Yang. Grain refinement and localized amorphization of additively manufactured high-entropy alloy matrix composites reinforced by nano ceramic particles via selective-laser-melting/remelting. Composites Communications, 2020, 19: 56-60. (材料科學大類2區(qū), IF: 6.5) 

Bin Chen, Zhenghua Huang, Bo Li*, Jianing Li*, Jianye Liu, Liuhui Niu. Heat treatment-induced microstructural transformations and strengthening mechanisms in laser powder bed fusioned 15-5PH stainless steel. Journal of Materials Research and Technology, 2024, 33: 9109-9122. (材料科學大類2區(qū), IF: 6.2)

Yajing Li, Hailong Dai*, Shuyao Zhang, Bo Li*, Yunran Ma, Chengyu Bao, Xu Chen, Fuzhen Xuan*.  The enhanced high-temperature oxidation resistance of additively manufactured GH4169 by adding small amounts of 304L. Journal of Materials Research and Technology, 2024, 30, 164-173. (材料科學大類2區(qū), IF: 6.2)

Tao Shen, Bo Li*. An integrated computation framework for predicting mechanical performance of single-phase alloys manufactured using laser powder bed fusion: A case study of CoCrFeMnNi high-entropy alloy. Materials Today Communications, 2024, 39: 109180.

Bo Li*, Lei Zhang, Wangqi Fu, Haisheng Xu. General Investigations on Manufacturing Quality of Permalloy via Selective Laser Melting for 3D Printing of Customized Magnetic Shields. JOM, 2020, 72: 2834-2844.

Liming Yan, Bo Li*. A bimodal and heterogeneous laminate structure with alternately distributed copper-base and nickel-base alloys via multi-material laser powder bed fusion (MM-LPBF) additive manufacturing. Materials Letters, 2024, 137494.

Bo Li, Bo Qian*, Yi Xu, Zhiyuan Liu, Fuzhen Xuan*. Fine-structured CoCrFeNiMn high-entropy alloy matrix composite with 12 wt% TiN particle reinforcements via selective laser melting assisted additive manufacturing. Materials Letters, 2019, 252: 88-91.

Jianrui Zhang, Yabin Yan*, Bo Li*. Selective Laser Melting (SLM) Additively Manufactured CoCrFeNiMn High-Entropy Alloy: Process Optimization, Microscale Mechanical Mechanism, and High-Cycle Fatigue Behavior. Materials, 2022, 15: 8560. 

Jianrui Zhang, Bo Li*. The Influence of Laser Powder Bed Fusion (L-PBF) Process Parameters on 3D-Printed Quality and Stress–Strain Behavior of High-Entropy Alloy (HEA) Rod-Lattices. Metals, 2022, 12: 2109.

人工智能技術融合增材制造/3D打印方向：

推動大數據機器學習目標預測、圖像識別與機器視覺、多模態(tài)信息融合等人工智能技術在增材制造3D/4D打印領域的深度融合，發(fā)展增材制造過程監(jiān)測多模態(tài)信息融合及高價值隱性目標決策方法、增材制造材料及結構力學性能與服役壽命的機器學習預測、復雜3D幾何構型智能設計、適打印新材料智能篩選、增材制造過程與材料的多尺度動態(tài)數字孿生體等技術及應用。

Tao Shen, Bo Li*, Jianrui Zhang, Fuzhen Xuan. Multi-source information fusion for enhanced in-process quality monitoring of laser powder bed fusion additive manufacturing. Additive Manufacturing, 2024, 104575. (工程技術大類1區(qū), IF: 10.3)

Haijie Wang, Bo Li*, Liming Lei, Fuzhen Xuan*. Multi-physics information-integrated neural network for fatigue life prediction of additively manufactured Hastelloy X superalloy. Virtual and Physical Prototyping, 2024, 19: 2368652. (工程技術大類1區(qū), IF: 10.2)

Tao Shen, Bo Li*, Jianrui Zhang, Fuzhen Xuan. Integrated computational materials engineering (ICME) for predicting tensile properties of additively manufactured defect-free single-phase high-entropy alloy. Virtual and Physical Prototyping, 2024. (工程技術大類1區(qū), IF: 10.2)

Haijie Wang, Bo Li*, Liming Lei*, Fuzhen Xuan. Uncertainty-aware fatigue-life prediction of additively manufactured Hastelloy X superalloy using a physics-informed probabilistic neural network. Reliability Engineering & System Safety, 2023, 109852. (工程技術大類1區(qū), IF: 9.4)

Haijie Wang, Bo Li*, Saifan Zhang, Fuzhen Xuan. Traditional machine learning and deep learning for predicting melt-pool cross-sectional morphology of laser powder bed fusion additive manufacturing with thermographic monitoring. Journal of Intelligent Manufacturing, 2024. (工程技術大類2區(qū), IF: 5.9)

Haijie Wang, Bo Li*, Fuzhen Xuan*. A dimensionally augmented and physics-informed machine learning for quality prediction of additively manufactured high-entropy alloy. Journal of Materials Processing Technology, 2022, 307: 117637. (材料科學大類2區(qū), IF: 6.7) 

Haijie Wang, Bo Li*, Fuzhen Xuan*. Fatigue-life prediction of additively manufactured metals by continuous damage mechanics (CDM)-informed machine learning with sensitive features. International Journal of Fatigue, 2022, 164: 107147. (材料科學大類2區(qū), IF: 5.7)

Liming Lei, Bo Li*, Haijie Wang, Guoqing Huang, Fuzhen Xuan. High-temperature high-cycle fatigue performance and machine learning-based fatigue life prediction of additively manufactured Hastelloy X. International Journal of Fatigue, 2023, 108012. (材料科學大類2區(qū), IF: 5.7)

Haijie Wang, Bo Li*, Wei Zhang, Fuzhen Xuan. Microstructural feature-driven machine learning for predicting mechanical tensile strength of laser powder bed fusion (L-PBF) additively manufactured Ti6Al4V alloy. Engineering Fracture Mechanics, 2024, 295: 109788. (工程技術大類2區(qū), IF: 4.7)

Haijie Wang, Bo Li*, Jianguo Gong, Fuzhen Xuan*. Machine learning-based fatigue life prediction of metal materials: Perspectives of physics-informed and data-driven hybrid methods. Engineering Fracture Mechanics, 2023, 284: 109242. (工程技術大類2區(qū), IF: 4.7) 

Tao Shen, Wei Zhang, Bo Li*. Machine learning-enabled predictions of as-built relative density and high-cycle fatigue life of Ti6Al4V alloy additively manufactured by laser powder bed fusion. Materials Today Communications, 2023, 107286.

Haijie Wang, Saifan Zhang, Bo Li*. Machine learning-assisted acoustic emission monitoring for track formability prediction of laser powder bed fusion. Materials Today Communications, 2024, 38: 108522.

Tao Shen, Bo Li*. Digital twins in additive manufacturing: A state-of-the-art review. International Journal of Advanced Manufacturing Technology, 2024, 131: 63-92. 

Bo Li*, Wei Zhang, Fuzhen Xuan. Machine-learning prediction of selective-laser-melting additively manufactured part density by feature-dimension ascended Bayesian Network model for process optimization. International Journal of Advanced Manufacturing Technology, 2022, 121: 4023-4038. 

Haijie Wang, Bo Li*, Fuzhen Xuan*. Acoustic emission for in-situ process monitoring of selective laser melting additive manufacturing based on machine learning and improved variational modal decomposition. International Journal of Advanced Manufacturing Technology, 2022, 122: 2277-2292.

Qimin Wu, Haijie Wang, Bo Li*. Predicting the fatigue life of additively manufactured AlSi10Mg alloy using a physics-informed neural network incorporating continuous damage mechanics. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2024, 09544054241290283.

Haijie Wang, Jianrui Zhang*, Bo Li*, Fuzhen Xuan. Machine learning-based fatigue life prediction of laser powder bed fusion additively manufactured Hastelloy X via nondestructively detected defects. International Journal of Structural Integrity, 2024.

張賽凡, 李博*, 軒福貞. 激光選區(qū)熔化過程聲發(fā)射信號的降噪與分類預測方法. 機械工程學報, 2024, 60, 163-176.

功能與結構一體化增材制造/3D打印方向：

創(chuàng)制3D/4D打印構筑的力學超材料以及具有熱/磁/傳感/催化/能源等理化功能結構或器件，發(fā)展多類型3D/4D打印新裝置新方法、混合增材制造（Hybrid 3D Printing）與多材料協(xié)同增材制造新理念、3D構筑過程原位復合化功能化新工藝，在混合柔性電子、新能源、換熱器、微反應器、輕量化與結構功能一體化等方面應用。

Bo Li*, Shenghua Zhang, Lei Zhang, Yang Gao, Fuzhen Xuan*. Strain sensing behavior of FDM 3D printed carbon black filled TPU with periodic configurations and flexible substrates. Journal of Manufacturing Processes, 2022, 74: 283-295. (工程技術大類1區(qū), IF: 6.1) 

Chuandong Li, Shuaishuai Yuan, Xinqi Yao, Xinhai Yu*, Bo Li*, Shan-Tung Tu. Structured nanoporous copper catalysts prepared by laser powder bed fusion and dealloying for on-board methanol steam reforming. Fuel, 2023, 347: 128367. (工程技術大類1區(qū), IF: 6.7) 

Zhiyang Guo, Zhengyu Lian, Bo Li*, Fuzhen Xuan*. Scalable and adaptable tactile sensor array with island-bridge-form sensing units for multi-directional stimuli recognition. Measurement, 2024, 238: 115382. (工程技術大類2區(qū), IF: 5.2)

Bo Li*, Wangqi Fu, Haisheng Xu, Bo Qian, Fuzhen Xuan*. Additively manufactured Ni-15Fe-5Mo Permalloy via selective laser melting and subsequent annealing for magnetic-shielding structures: Process, micro-structural and soft-magnetic characteristics. Journal of Magnetism and Magnetic Materials, 2020, 494: 165754. 

Bo Li*, Jianrui Zhang*, Tianxiang Deng, Facai Ren. Convertible Thermal Meta-Structures via Hybrid Manufacturing of Stereolithography Apparatus 3D Printing and Surface Metallization for Thermal Flow Manipulation. Polymers, 2023, 15: 174.

Bo Li*, Ciming Shen*. Solid stress-distribution-oriented design and topology optimization of 3D-printed heterogeneous lattice structures with light weight and high specific rigidity. Polymers, 2022, 14: 2807.

Bo Li*, Jiawei Shen, Hongyu Han, Jianrui Zhang*, Yang Gao*, Fuzhen Xuan. Design and 3D printing-assisted fabrication of microwave resonator-based passive wireless sensors for simultaneous measuring high temperatures and pressures. IEEE Sensors Journal, 2024. 

Bo Li*, Wen Liang, Lei Zhang, Facai Ren, Fuzhen Xuan*. TPU/CNTs flexible strain sensor with auxetic structure via a novel hybrid manufacturing process of fused deposition modeling 3D printing and ultrasonic cavitation-enabled treatment. Sensors and Actuators A: Physical, 2022, 340: 113526. 

Bo Li*, Wen Liang, Facai Ren. Electrohydrodynamic (EHD) inkjet printing flexible pressure sensors with a multilayer structure and periodically patterned Ag nanoparticles. Journal of Materials Science: Materials in Electronics, 2022, 33: 18734-18750. 

Bo Li*, Wen Liang, Facai Ren, Fuzhen Xuan. Structurally hierarchical flex-sensor of MWCNTs/TPU composite via mesh mould-based selective laser sintering (SLS) and ultrasonic cavitation-enabled treatment (UCT). Materials Letters, 2022, 324: 132764.

Cheng Qian, Ting Xiao, Yang Chen, Ning Wang*, Bo Li*, Yang Gao*. 3D Printed Reduced Graphene Oxide/Elastomer Resin Composite with Structural Modulated Sensitivity for Flexible Strain Sensor. Advanced Engineering Materials, 2021, 24: 117637.

Zhengji Zhong, Ciming Shen, Bo Li*. A non-uniform lattice design method for lightweight structuresin 3D printing. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2024, 09544054241245761.

Tianxiang Deng, Bo Li*, Fuzhen Xuan*. Additive manufactured thermal metamaterial devices for manipulating heat flow: Geometric configuration design and SLM-assisted fabrication. Engineering Research Express, 2021, 3: 025038.

Tao Shen, Bo Li*. Interpenetrating phase composites consisting of epoxy resin and 3D printed ceramic non-homogeneous lattice structure. Mechanics of Advanced Materials and Structures, 2024.

攪拌摩擦增材制造方向：

基于攪拌摩擦焊原理，發(fā)展攪拌摩擦增材制造構筑與攪拌摩擦表面改性工藝及裝置，開發(fā)異種金屬多材料一體化攪拌摩擦增材制造工藝，研究攪拌摩擦溫度場和粘塑性流場耦合作用下反復動態(tài)再結晶及原位合金化機制，設計優(yōu)化多功能和高性能的攪拌摩擦加工區(qū)域空間堆疊，探明并調控新結構新材料的構-性關系，推動攪拌摩擦增材制造及攪拌摩擦再制造修復等工程應用。

李博, 沈以赴*. TC4鈦合金表面攪拌摩擦加工制備Ti-Cu阻燃改性層. 中國有色金屬學報, 2018(03): 7-17.

Bo Li*, Yifu Shen*, Lei Luo, Weiye Hu. Effects of processing variables and heat treatments on Al/Ti-6Al-4V interface microstructure of bimetal clad-plate fabricated via a novel route employing friction stir lap welding. Journal of Alloys & Compounds, 2016, 658: 904-913.

Bo Li, Yifu Shen*, Lei Luo, Weiye Hu. Fabrication and evaluation of Ti3Alp/Ti-6Al-4V surface layer via additive friction-stir processing. Materials & Manufacturing Processes, 2014, 29: 412-417.

Bo Li, Zhenhua Zhang, Yifu Shen*, Weiye Hu, Lei Luo. Dissimilar friction stir welding of Ti-6Al-4V alloy and aluminum alloy employing a modified butt joint configuration: Influences of process variables on the weld interfaces and tensile properties. Materials & Design, 2014, 53: 838-848. 

Bo Li, Yifu Shen*, Lei Luo, Weiye Hu. Fabrication of TiCp/Ti-6Al-4V surface composite via friction stir processing (FSP): Process optimization, particle dispersion-refinement behavior and hardening mechanism. Materials Science & Engineering A, 2013, 574: 75-85. 

Bo Li, Yifu Shen*, Weiye Hu, Lei Luo. Surface modification of Ti-6Al-4V alloy via friction-stir processing: Microstructure evolution and dry sliding wear performance. Surface & Coatings Technology, 2014, 239: 160-170.

Bo Li, Yifu Shen*, Weiye Hu. Surface nitriding on Ti-6Al-4V alloy via friction stir processing method under nitrogen atmosphere. Applied Surface Science, 2013, 274: 356-364.

Bo Li, Yifu Shen*, Lei Luo, Weiye Hu, Zhenhua Zhang. Surface aluminizing on Ti-6Al-4V alloy via a novel multi-pass friction-stir lap welding method: Preparation process, oxidation behavior and interlayer evolution. Materials & Design, 2013, 49: 647-656. 

Bo Li, Rundong Ding, Yifu Shen*, Yongzhi Hu, Yan Guo. Preparation of Ti-Cr and Ti-Cu flame-retardant coatings on Ti-6Al-4V using a high-energy mechanical alloying method: A preliminary research. Materials & Design, 2012, 35: 25-36.

Bo Li, Yifu Shen*. The investigation of abnormal particle-coarsening phenomena in friction stir repair weld of 2219-T6 aluminum alloy. Materials & Design, 2011, 32:3796-3802.

Bo Li, Yifu Shen*, Weiye Hu. The study on defects in aluminum 2219-T6 thick butt friction stir welds with the application of multiple non-destructive testing methods. Materials & Design, 2011, 32: 2073-2084.

專利/軟件：

李博,宋智威,軒福貞,錢波. 一種用于SLM設備的粉末管理系統(tǒng). CN202010076631.7

李博,黃國慶,軒福貞. 一種多材料SLM打印機粉末管理機械裝置. CN202122160853.X

劉涑凡,李博,軒福貞,錢波. 一種用于大型SLM設備的工作臺轉移運輸系統(tǒng). CN202010076623.2

閆黎明,李博,軒福貞. 用于3D打印粗晶群微區(qū)-超細晶群微區(qū)排布的異質異構合金的方法與裝置. CN202211042122.8

閆黎明,李博,軒福貞. 一種聲發(fā)射信號監(jiān)測成形懸垂結構零部件的方法與系統(tǒng). CN202410363726.5.  

李博,韓宏宇,任發(fā)才,軒福貞. 用于無線溫度監(jiān)測的鍍鎳溫度傳感器貼片及其制備方法. CN202211574448.5

李博,梁雯,任發(fā)才,軒福貞. 一種纖維纏繞壓力容器的在線損傷檢測方法. CN202211575071.5

李博,宋智威,高陽,曲逸凡,馬慧佳. 一種多噴頭3D打印機. CN202120599198.5

任發(fā)才,李博,軒福貞. 用于監(jiān)測樹脂基復合材料老化程度的無線柔性微波傳感器. CN202211621342.6

黃國慶,李博,任發(fā)才,軒福貞. 一種壓力容器泄露感知報警系統(tǒng). CN202223306095.9

宋智威,李博,軒福貞,錢波. 一種用于SLM設備的雙成型缸裝置及其鋪粉系統(tǒng). CN202010074410.6

黃國慶,李博,任發(fā)才,軒福貞. 一種新型材料抗沖擊性能試驗機. CN202223083086.8

沈以赴,張盛海,周小衛(wèi),李博. 激光熔深焊接的能量耦合自洽模型建立方法. CN102608918A
張盛海,沈以赴,周小衛(wèi),李博. 體壓縮法控制等離子體的固定激光深熔焊接噴嘴及其控制方法. CN102601526A
沈以赴,高吉成,李博. 一種熱塑性塑料攪拌摩擦焊接裝置及焊接方法. CN103660282A
李博,湯曉英. 奧氏體不銹鋼形變誘發(fā)馬氏體檢測設備. CN206177877U
李博. 一種分體式銑削針型攪拌裝置. CN206335243U
李博. 一種用于板材的攪拌摩擦氮化試驗裝置. CN206143303U
李博. 一種用于攪拌摩擦加工表面改性攪拌區(qū)表面溫度監(jiān)測裝置. CN206440384U
李博. 一種用于攪拌摩擦加工表面改性的氣氛保護裝置. CN206356728U
李博. 一種手持硬度儀. CN206339456U
李博,湯曉英,左延田. 一種手持探傷儀. CN206339534U
李博. 便攜式手持化學成分檢測儀. CN206339535U
王少軍,孟乾,李博. 角接接頭多功能試快. CN304975612S
王少軍,李博. 便捷式磁粉探傷儀磁軛探頭. CN304757091S
王少軍,李博. 管道隧道沉降監(jiān)測儀. CN304757090S
浦哲,李博. 一種加強型壓力容器. CN208074156U
浦哲,李博. 一種壓力管道組合支架. CN208074288U
王少軍,孟乾,李博. 一種K型角接接頭試快. CN207824255U
王少軍,李博,孟乾. 一種穿越河流埋地金屬管道防腐層檢測裝置. CN207689335U
王少軍,李博,孟乾. 一種河川下埋地管道防腐層檢測設備. CN207687690U
湯曉英,舒文華,羅曉明,左延田,李博,司俊,黃奕昶. 一種用于模擬受火試驗的力學試驗裝置. CN207366351U
湯曉英,舒文華,左延田,李博,司俊,黃奕昶. 一種用于檢測涂層或電鍍層結合力的手持劃痕儀. CN206440560U
司俊,舒文華,湯曉英,羅曉明,左延田,李博,黃奕昶. 一種用于模擬受火試驗的火燒裝置. CN206441448U
左延田,舒文華,湯曉英,羅曉明,李博,司俊,黃奕昶. 一種用于模擬受火試驗的沖擊試驗裝置. CN206440537U
舒文華,湯曉英,左延田,李博,司俊,黃奕昶. 一種用于模擬火候感度的測試裝置. CN206096056U
舒文華,湯曉英,羅曉明,左延田,李博,司俊,黃奕昶. 一種用于模擬受火試驗的腐蝕試驗裝置. CN206057155U

軒福貞,高陽,凌小峰,汪楠,鞠寬,李博,肖飚,舒文華,林澤昊,張顥出,梅志宇. 基于特征提取和神經網絡的車輛隨機載荷模式識別系統(tǒng). CN113138005A

李博. 層狀金屬復材增材制造工藝數據庫專家系統(tǒng). 2019R0523673  

李博. 攪拌摩擦增材制造（3D打?。┿娤骷庸秃瞎に囍圃鞂＜铱刂葡到y(tǒng). 2019R0476922

李博. 攪拌摩擦修復工藝控制系統(tǒng). 2019R0477143

李博, 王海杰, 沈濤. 激光增材制造疲勞性能集成計算軟件. 2023SR1353421

李博, 王海杰, 沈濤. 激光增材制造疲勞壽命預測軟件. 2024SR0178558

李博, 王海杰, 沈濤. 激光增材制造結構材料疲勞壽命智能預測軟件. 2023SR1468499

李博, 閆黎明, 沈濤. 增材制造監(jiān)測數據傳輸管控平臺. 2024SR0841663

其他出版物/科技成果獲獎情況：
編譯《合于使用》（API579/ASME FFS中文版）上冊、下冊、工程案例集，中國質檢出版社，2017年6月出版（負責譯析第九章《ASSESSMENT OF CRACK-LIKE FLAWS裂紋型缺陷的評價》，審核第三、十二章和附錄A、H）

撰寫出版2015年度、2016年度、2017年度《警示錄——上海市特種設備事故技術案例分析》

博士論文《基于攪拌摩擦焊技術的TC4鈦合金表面改性研究》獲江蘇省百篇優(yōu)秀博士學位論文獎（2015）

“同質異構與異質異構激光選區(qū)熔化增材制造及壽命預測關鍵技術”獲2023年度中國發(fā)明協(xié)會“發(fā)明創(chuàng)新獎”（排名1/6）