姓名:張培磊 職稱🎎:教授🚶🏻➡️,研究生導師
指導研究方向:激光先進製造技術與工程
通訊地址🪷:上海市松江區龍騰路333號
電子郵箱🛞:peilei@sues.edu.cn
聯系電話:021-67791412
教育經歷:
1999-2003 華東船舶工業意昂体育4 焊接技術與工程 學士
2003-2006 江蘇科技大學 材料加工與工程 碩士
2006-2010 上海交通大學 材料加工與工程 博士/博士後
工作經歷:
2010-至今 意昂体育4平台 教師
2014-2015 中南大學 訪問學者
2019-2020 德國弗朗霍夫ILT激光技術研究所 高級訪問學者
2020-2024 上海交通大學/江蘇新揚子江造船有限公司 博士後
研究方向🛁:
[1] 新材料焊接及其物理冶金
[2] 非晶合金的激光增材製備
[3] 機器人智能化激光焊接裝備及製造技術
[4] 超快激光微/納米尺度精密加工及應用
研究情況:
一直致力於激光與材料相互作用🧑🏻🌾、激光智能製造系統、非晶合金凝固及斷裂過程、微觀組織演變與數值模擬的研究。目前已在激光智能製造🧑🎄、材料結構表征與性能評價等領域的國際知名期刊發表 SCI🍆、EI 收錄論文180余篇,申請國家各類專利50余項,獲得國家發明專利授權20余項、實用新型專利授權5項。指導完成國家級、上海市等大學生創新訓練計劃項目12項👩🏽🔧,指導學生獲國家獎學金6人次、上海市大學生新材料創新創意大賽一等獎。擔任SVOA Materials Science & Technology期刊編委、Coatings期刊特刊編輯、Frontiers in Metals and Alloys期刊評論編輯、焊接雜誌社青年編委、《金屬加工(熱加工)》編委,榮格工業傳媒“激光加工行業—榮格技術創新獎”評審專家組成員,“大東時代•卡恩獎新能源領域系列獎項”評委,受邀為Materials Today、ACS Applied Nano Materials、Materials Science and Engineering A, Applied Surface Science, Journal of Alloys and Compounds 等多家國際著名期刊審稿人🔣👞。目前為中國機械工程學會焊接分會委員🏃🏻♀️🚴🏻♀️、中國機械工業教育協會焊接技術與工程專業教學委員會委員、上海市焊接學會理事、中國光學學會激光加工專業委員會委員😒,擔任上海市激光先進製造技術協同創新中心首席研究員。作為項目負責人已完成國家自然科學基金、中央軍委總裝備部預研項目、上海市自然科學基金🧑🏻💻、上海市科委重點研發項目、上海市高新技術領域重點項目👳🏽、新疆自治區科技援疆專項、克拉瑪依市重大專項等多項國家、省市級課題的研究🤾🏽♀️。還承擔了上海電氣電站設備有限公司⛹🏿♀️、上海電氣核電設備有限公司、上海振華重工有限公司、上海外高橋造船有限公司🙍♂️👩🏿✈️、中國科意昂体育4合肥物質科學研究院🛼、中車青島四方機車車輛股份有限公司、通快(中國)有限公司等企業委托技術開發課題的研究,獲全國博士後創新創業總決賽銅獎(全國優秀博士後)、上海科技進步一等獎📖、新疆機械電子工業科學技術進步獎一等獎、國際焊接學會會刊《Welding in The World》年度最佳論文獎,入選美國斯坦福大學和愛思唯爾(Elsevier)發布的《2022年度全球前2%頂尖科學家榜單》,入選江蘇省“雙創人才”🙆♂️。
學術/社會兼職🧑🏻🎓:
[1] 上海市焊接學會理事(第十屆、第十一屆)
[2] 《SVOA Materials Science & Technology》雜誌編委
[3] 焊接雜誌社青年編委會委員
[4] 《金屬加工(熱加工)》編輯委員會委員
[5] 《Coatings》期刊特刊編輯(2次)
[6] 《Frontiers in Metals and Alloys》期刊評論編輯
[7] 中國機械工業教育協會焊接技術與工程專業教學委員會委員(第四屆)
[8] 中國機械工程學會焊接分會委員(第十一屆)
[9] 中國機械工程學會高級會員
[10] 中國光學學會激光加工專業委員會委員
[11] 國家自然科學基金通訊評議專家(面、地、青)
[12] 教育部學位論文通訊評議專家
[13]大東時代•卡恩獎新能源領域系列獎項評委
[14]“激光加工行業—榮格技術創新獎”評審專家組成員
獲獎情況🪶:
[1]意昂体育4平台優秀青年教師(2014👫🏻、2018)
[2]上海市科技進步獎一等獎(2015)
[3]上海市大學生新材料創新創意大賽 “優秀指導教師”稱號(2022)
[4]新疆機械電子工業科學技術進步獎一等獎(2022)
[5]國際焊接學會會刊《Welding in The World》年度最佳論文獎(2022)
[6]第二屆全國博士後創新創業大賽總決賽銅牌(2023)
[7]第二屆全國博士後創新創業大賽優秀博士後(2023)
[8]美國斯坦福大學和愛思唯爾(Elsevier)發布的《2022年度全球前2%頂尖科學家榜單》(World’s Top 2% Scientists)(2023)
主持縱向項目:
[1]國家自然科學基金面上項目(52075317),2021.1-2024.12;
[2]國家自然科學基金青年項目(51605276)🎪🏘,2017.1-2019.12;
[3]上海市自然科學基金(12ZR1444500)🀄️,2012.10~2015.09💅🏻;
[4]上海市科委地方高校能力建設項目(13160501200)⛹🏻,2013.6~2016.6;
[5]上海高校青年教師培養資助計劃(shgcjs003)👩🏽🍳,2012.01~2013.12;
[6]上海市教委創新項目(14YZ139) 🏄🏼♂️,2014.1~2016.12;
[9]新疆自治區區域協同創新專項(科技援疆計劃)(2019E0235)🧘🏼,2019.01-2020.12,疆外合作單位負責人;
[10]裝備預先研究項目合作項目(2018No.3),2017.01-2020.12;
[11]上海市2019年度“科技創新行動計劃”高新技術領域項目(19511106402), 2019.9-2022.8;
代表論文信息(*——通訊作者)👨🏻🦰:
[1] B. Liu, P. Zhang*(張培磊), H. Yan, Q. Lu, H. Shi, Z. Liu, D. Wu, T. Sun, R. Li, Q. Wang, A Review on Manufacturing Pure Refractory Metals by Selective Laser Melting, J. Mater. Eng. Perform. (2024).
[2] K. Jiang, P. Zhang*(張培磊), S. Song, T. Sun, Y. Chen, H. Shi, H. Yan, Q. Lu, G. Chen, A review of ultra-short pulse laser micromachining of wide bandgap semiconductor materials: SiC and GaN, Mater. Sci. Semicond. Process. 180 (2024) 108559.
[3] B. Liu, P. Zhang*(張培磊), Z. Liu, D. Wu, Q. Jiang, T. Sun, C. Liu, H. Yan, H. Shi, S. Ma, R. Li, Preparation of Zr-based metallic glasses gradient composites with designable amorphous fraction by laser powder bed fusion, J. Manuf. Process. 120 (2024) 506–516.
[4] W.S. Lei*, G. Qian, P. Zhang*(張培磊), Validation of local approach-based statistical models for cleavage fracture of ferritic steels in uniaxial tension, Fatigue Fract. Eng. Mater. Struct. 47 (2024) 1807–1814.
[5] W.S. Lei*, G. Qian, P. Zhang*(張培磊), Statistical characterization of specimen size and temperature dependence of cleavage fracture toughness of ferritic steels, Fatigue Fract. Eng. Mater. Struct. 47 (2024) 2243–2250.
[6] X. Bi, R. Li*, Z. Yuan, J. Cheng, D. Guan, P. Zhang(張培磊), Laser-directed energy deposition of a high performance additively manufactured (CoCrNi)94(TiAl)6 medium-entropy alloy with a novel core-shell structured strengthening phase, Addit. Manuf. 80 (2024) 103971.
[7] P. Lei, P. Zhang*(張培磊), S. Song, Z. Liu, H. Yan, T. Sun, Q. Lu, Y. Chen, V. Gromov, H. Shi, Research status of laser surface texturing on tribological and wetting properties of materials: A review, Optik (Stuttg). 298 (2024) 171581.
[8] K. Yu, H. Shi*, P. Zhang*(張培磊), Z. Yu, H. Yan, Q. Lu, Nanosecond Laser Fabrication of Novel Micro-/Nanostructured Metal Surfaces: A Dual-Functional Supersurface Combining Antireflectivity and Superhydrophobic Properties, ACS Appl. Mater. Interfaces. 16 (2024) 2984–2996.
[9] K. Yu, H. Shi*, P. Zhang*(張培磊), Z. Yu, H. Yan, Q. Lu, Micro/nanoengineering of functionalized metal surfaces based on short/ultra-short-pulsed lasers: a review, J. Mater. Sci. 59 (2024) 1819–1866.
[10] Q. Liu, D. Wu*, Q. Wang, P. Zhang*(張培磊), H. Yan, T. Sun, R. Li, Progress and perspectives of joints defects of laser-arc hybrid welding: a review, Int. J. Adv. Manuf. Technol. 130 (2024) 111–146.
[11] Q. Yang, P. Zhang*(張培磊), Q. Lu, H. Yan, H. Shi, Z. Yu, T. Sun, R. Li, Q. Wang, Y. Wu, J. Chen, Application and development of blue and green laser in industrial manufacturing: A review, Opt. Laser Technol. 170 (2024) 110202.
[12] T. Sun*, C. Liu, P. Franciosa, N. Ferguson, G. Gibbons, D. Ceglarek, E. Mogire, P. Zhang(張培磊), Effect of placement configuration on the microstructure, porosity and mechanical performance of dissimilar remote laser welding of additive manufactured AlSi10Mg alloy and conventionally manufactured 1050 aluminium sheet, J. Mater. Res. Technol. 27 (2023) 5639–5650.
[13] Z. Li, H. Shi*, P. Zhang(張培磊), Z. Yu, Q. Lu, H. Yan, T. Sun, Progress, applications, and perspectives of titanium-based braze filler metal: a review, J. Mater. Sci. 58 (2023) 14945–14996.
[14] H. Shi*, Z. Li, Y. Zhao, J. Gu, P. Zhang(張培磊), Z. Yu, Q. Lu, H. Yan, T. Sun, Microstructure, mechanical properties and fracture behavior of GH3535 alloy joints brazed with Au–18Ni filler metal, J. Mater. Res. Technol. 26 (2023) 9024–9038.
[15] S. Xu, Q. Lu*, Y. Ou, P. Zhang(張培磊), H. Yan, T. Sun, S. Ma, Z. Luo, Y. Tian, Effect of Heat Treatment on the Anisotropic Mechanical Properties of AlSi10Mg Fabricated by Selective Laser Melting, J. Mater. Eng. Perform. (2023) 1–14.
[16] Z. Liu, P. Zhang*(張培磊), Q. Jiang, X. Zhang, H. Yan, H. Shi, Z. Yu, Y. Tian, S. Ma, T. Sun, Enhancing catalytic performance of Fe-based metallic glasses by selective laser melting and electrochemical dealloying, J. Manuf. Process. 103 (2023) 274–286.
[17] Q. Liu, D. Wu*, Q. Wang, P. Zhang*(張培磊), H. Yan, T. Sun, M. Yan, J. Zeng, Z. Liu, J. Feng, R. Li, Influencing mechanism of high speed on the droplet transfer and process stability during high-power laser-arc hybrid welding, Int. J. Adv. Manuf. Technol. 128 (2023) 4427–4442.
[18] L. Wang, C. Shen*, P. Zhang(張培磊), Y. Zhang, X. Hua, F. Li, L. Wang, W. Zhou, K. Wu, G. Ruan, Effect of in-situ generated Fe3AlC0.5 on the microstructure and mechanical property of twin-wire directed energy deposition-arc fabricated Fe3Al based iron aluminide, Mater. Charact. 205 (2023) 113271.
[19] S. Song, P. Zhang*(張培磊), Q. Lu*, D. Wu, H. Shi, H. Yan, Z. Liu, T. Sun, H. Huang, R. Li, Q. Wang, Formation and modulation of multi-pulse femtosecond laser-induced periodic surface structures by electromagnetic and partial differential equation simulations, Opt. Lett. 48 (2023) 4570.
[20] J. Feng, P. Zhang*(張培磊), H. Yan, H. Shi, Q. Lu, Z. Liu, D. Wu, T. Sun, R. Li, Q. Wang, Application of Laser Welding in Electric Vehicle Battery Manufacturing: A Review, Coatings. 13 (2023) 1313.
[21] W. Zhang, P. Zhang*(張培磊), H. Yan, R. Li, H. Shi, D. Wu, T. Sun, Z. Luo, Y. Tian, Research status of femtosecond lasers and nanosecond lasers processing on bulk metallic glasses (BMGs), Opt. Laser Technol. 167 (2023) 109812.
[22] Z. Xia, H. Yan*, P. Zhang(張培磊), Q. Lu, H. Shi, J. Liu, Z. Liu, Z. Li, Fabrication and Tribological Properties of Nickel-Based Cellular Structure Self-Lubricating Composites by Selective Laser Melting and Metal Infiltration, Tribol. Trans. 66 (2023) 670–682.
[23] Z. Luo, D. Wu*, P. Zhang(張培磊), X. Ye, H. Shi, X. Cai, Y. Tian, Laser Welding Penetration Monitoring Based on Time-Frequency Characterization of Acoustic Emission and CNN-LSTM Hybrid Network, Materials (Basel). 16 (2023) 1614.
[24] P. Jiang, R. Li, Y. Zhao, X. Zhang, P. Zhang(張培磊), Effect of rotating magnetic field on microstructure and tribological properties of laser cladded nickel-based coatings, J. Mater. Res. Technol. 24 (2023) 1335–1343.
[25] S. Song, Q. Lu*, P. Zhang*(張培磊), H. Yan, H. Shi, Z. Yu, T. Sun, Z. Luo, Y. Tian, A critical review on the simulation of ultra-short pulse laser-metal interactions based on a two-temperature model (TTM), Opt. Laser Technol. 159 (2023) 109001.
[26] X. Bi, R. Li*, T. Li, B. Liu, Y. Yuan, P. Zhang(張培磊), K. Feng, Anisotropic microstructure, properties and molecular dynamics simulation of CoCrNi medium entropy alloy fabricated by laser directed energy deposition, Mater. Sci. Eng. A. 871 (2023) 144834.
[27] Z. Li, H. Shi*, Y. Zhao, J. Gu, P. Zhang(張培磊), Z. Yu, B. Wang, N. Song, T. Sun, Microstructure and mechanical properties of vacuum brazed joints of TC4 waveform structure fabricated by 3D printed technology, Weld. World. 67 (2023) 2049–2065.
[28] L. Wang, C. Shen*, P. Zhang(張培磊), X. Hua, Y. Zhang, F. Li, J. Xin, K. Wu, Fabrication of Fe–30Al alloy using plasma arc welding powered twin-wire directed energy deposition-arc process: Droplet transfer, microstructure, and mechanical property investigation, Intermetallics. 161 (2023) 107961.
[29] Q. Liu, D. Wu*, Q. Wang, P. Zhang*(張培磊), H. Yan, T. Sun, J. Zeng, M. Yan, Z. Liu, R. Li, Research Status of Stability in Dynamic Process of Laser-Arc Hybrid Welding Based on Droplet Transfer Behavior: A Review, Coatings. 13 (2023) 205.
[30] B. Wang, H. Shi*, Z. Yu, P. Zhang(張培磊), Q. Cheng, N. Song, H. Yan, Study on the microstructure and mechanical properties of Ti-Zr-Cu-Ni amorphous filler brazed Inconel 718 and 3D printed TC4 alloy, Weld. World. 67 (2023) 455–471.
[31] J. Feng, D. Wei, P. Zhang*(張培磊), Z. Yu, C. Liu, W. Lu, K. Wang, H. Yan, L. Zhang, L. Wang, Preparation of TiNbTaZrMo high-entropy alloy with tunable Young’s modulus by selective laser melting, J. Manuf. Process. 85 (2023) 160–165.
[32] Q. Lu, Y. Ou, P. Zhang(張培磊), H. Yan, Fatigue performance and material characteristics of SiC/AlSi10Mg composites by selective laser melting, Mater. Sci. Eng. A. 858 (2022) 144163.
[33] J. Feng, Y. Tang, J. Liu, P. Zhang*(張培磊), C. Liu, L. Wang*, Bio-high entropy alloys: Progress, challenges, and opportunities, Front. Bioeng. Biotechnol. 10 (2022) 1–26.
[34] H. Huang, P. Zhang*(張培磊), M. Tang, L. Shen, Z. Yu, H. Shi, Y. Tian, Biocompatibility of micro/nano structures on the surface of Ti6Al4V and Ti-based bulk metallic glasses induced by femtosecond laser, Biomater. Adv. 139 (2022) 212998.
[35] S. Liu, D. Wu*, Z. Luo, P. Zhang(張培磊), X. Ye, Z. Yu, Measurement of pulsed laser welding penetration based on keyhole dynamics and deep learning approach, Measurement. 199 (2022) 111579.
[36] H. Yan*, G. Zhu, H. Shi, P. Zhang(張培磊), H. Li, Q. Lu, Z. Li, Microstructure and mechanical properties of K438 alloy processed by selective laser melting and subsequent heat treatment, Mater. Charact. 191 (2022) 112116.
[37] H. Huang, P. Zhang*(張培磊), Z. Yu, X. Zhang, L. Shen, H. Shi, H. Yan, L. Wang, Y. Tian, Effects of periodic surface structures induced by femtosecond laser irradiation on the antibacterial properties of Zr-based amorphous material, Optik (Stuttg). 268 (2022) 169760.
[38] J. Shi, S. Ma, J.P. Best, M. Stolpe, S. Wei, P. Zhang(張培磊), B. Markert, Gradient-enhanced modelling of deformation-induced anisotropic damage in metallic glasses, J. Mech. Phys. Solids. 167 (2022) 105020.
[39] Q. Cheng, H. Shi*, Q. Jiang, Z. Yu, P. Zhang(張培磊), X. Ye, Effect of phase composition on microstructure and wear resistance of (Al16.80Co20.74Cr20.49Fe21.28Ni20.70)99.5Ti0.5 high-entropy alloy coatings, Mater. Today Commun. 31 (2022) 103765.
[40] R. Tang, X. Xia, X. Zhang, H. Jiang, B. Wang, P. Zhang(張培磊), Y. Zhang, Y. Tang, Y. Zhou, Synergistic function of Au NPs/GeO2 nanozymes with enhanced peroxidase-like activity and SERS effect to detect choline iodide, Spectrochim. Acta Part A Mol. Biomol. Spectrosc. 266 (2022) 120467.
[41] X. Wen, D. Wu*, P. Zhang(張培磊), S. Liu, Z. Luo, Z. Jia, X. Ye, H. Shi, Z. Yu, Influence mechanism of the keyhole behavior on penetration depth by in-situ monitoring in pulsed laser welding of aluminum alloy, Optik (Stuttg). 246 (2021) 167812.
[42] L. Wang, Y. Zhang, X. Hua, C. Shen*, F. Li, Y. Huang, Y. Ding, P. Zhang(張培磊), Q. Lu, T. Zhang, J. Shang, Twin-wire plasma arc additive manufacturing of the Ti–45Al titanium aluminide: Processing, microstructures and mechanical properties, Intermetallics. 136 (2021) 107277.
[43] C. Shen, X. Hua, F. Li, T. Zhang, Y. Li, Y. Zhang, L. Wang, Y. Ding, P. Zhang(張培磊), Q. Lu, Composition-induced microcrack defect formation in the twin-wire plasma arc additive manufacturing of binary TiAl alloy: An X-ray computed tomography-based investigation, J. Mater. Res. 36 (2021) 4974–4985.
[44] Q. Lu, J. Jin, P. Zhang(張培磊), H. Yan, H. Shi, J. Zhao, Performance of Vibration-Assisted Laser Welded Joints Based on Orthogonal Experiment Design, J. Mater. Eng. Perform. 31 (2022) 2147–2158.
[45] J. Wang, J. Chen*, Z. Zhang, P. Zhang(張培磊), Z. Yu, S. Zhang, Effects of doping trace Ni element on interfacial behavior of Sn/Ni (polycrystal/single-crystal) joints, Solder. Surf. Mt. Technol. 34 (2022) 124–133.
[46] X. Zhang, Q. Lu*, P. Zhang(張培磊), Z. Yu, C. Shen, L. Wang, X. Hua, Microstructure and Fatigue Properties of Ti-48Al Alloy Fabricated by the Twin-Wire Plasma Arc Additive Manufacturing, J. Mater. Eng. Perform. 31 (2022) 8250–8260.
[47] X. Hou, X. Ye*, X. Qian, X. Zhang, P. Zhang(張培磊), Q. Lu, Z. Yu, C. Shen, L. Wang, X. Hua, Heat Accumulation, Microstructure Evolution, and Stress Distribution of Ti–Al Alloy Manufactured by Twin-Wire Plasma Arc Additive, Adv. Eng. Mater. 24 (2022) 2101151.
[48] X. Hou, X. Ye*, X. Qian, H. Jing, P. Zhang(張培磊), Z. Yu, D. Wu, K. Fu, The Effects of Different Gaps on the Weld Morphology, Microstructure and Residual Stress of AH36 Steel were Studied by Laser Arc Hybrid Welding, in: J. Phys. Conf. Ser., 2022: p. 012039.
[49] H. Jing, X. Ye*, X. Hou, X. Qian, P. Zhang(張培磊), Z. Yu, D. Wu, K. Fu, The Influence of Laser Power and Butt Gap on the Droplet Transfer and Weld Formation of Laser Arc Hybrid Welding, in: J. Phys. Conf. Ser., 2021: p. 012009.
[50] X. Qian, X. Ye*, X. Hou, H. Jing, P. Zhang(張培磊), Z. Yu, D. Wu, K. Fu, Research on Residual Stress Distribution in Different Areas of Laser-MAG Arc Hybrid Welding by Numerical Simulation, in: J. Phys. Conf. Ser., 2022: p. 012026.
[51] D. Wu*, M. Hu, Y. Huang, P. Zhang(張培磊), Z. Yu, In situ monitoring and penetration prediction of plasma arc welding based on welder intelligence-enhanced deep random forest fusion, J. Manuf. Process. 66 (2021) 153–165.
[52] D. Wu*, P. Zhang(張培磊), Z. Yu, Y. Gao, H. Zhang, H. Chen, S. Chen, Y.T. Tian, Progress and perspectives of in-situ optical monitoring in laser beam welding: Sensing, characterization and modeling, J. Manuf. Process. 75 (2022) 767–791.
[53] N. Song, H. Shi*, P. Zhang(張培磊), Z. Yu, B. Wang, Q. Cheng, Z. Li, Microstructure and Properties of Vacuum-Brazed Joints of 3D-Structured Ni718 High-Temperature Alloy Prepared by Selective Laser Melting, J. Mater. Eng. Perform. 31 (2022) 7921–7934.
[54] B. Wang, H. Shi*, P. Zhang(張培磊), Z. Yu, H. Yan, Q. Cheng, N. Song, Microstructure and properties of TLPB joints of IN718 with 3D waveform structure prepared by SLM, Weld. World. 66 (2022) 1009–1023.
[55] Q. Cheng, P. Zhang*(張培磊), H. Shi, Z. Yu, Study on Microstructure and Mechanical Properties of Aluminum–Copper Dissimilar Metals Joints by Nanosecond Laser Spiral Welding, Trans. Indian Inst. Met. 75 (2022) 2517–2528.
[56] J. Feng, P. Zhang*(張培磊), Z. Jia, Z. Yu, C. Fang, H. Yan, H. Shi, Y. Tian, F. Xie, Laser additive manufacturing and post-heat treatment on microstructure and mechanical properties of 9Cr steel, Int. J. Press. Vessel. Pip. 198 (2022) 104681.
[57] Z. Liu, P. Zhang*(張培磊), M. Yan, Z. Yu, Y. Tian, D. Wu, Study of mode transition in three-dimensional laser beam oscillating welding of aluminum alloy, J. Mater. Process. Technol. 303 (2022) 117490.
[58] Q. Jiang, P. Zhang*(張培磊), J. Tan, Z. Yu, Y. Tian, S. Ma, D. Wu, Influence of the microstructure on mechanical properties of SLM additive manufacturing Fe-based bulk metallic glasses, J. Alloys Compd. 894 (2022) 162525.
[59] H. Huang, P. Zhang*(張培磊), Z. Yu, L. Shen, H. Shi, Y. Tian, Femtosecond laser-induced transformation mechanism from 1D groove structure to 2D microholes structure on the surface of Zr-based metallic glasses, Opt. Laser Technol. 146 (2022) 107555.
[60] J. Feng, P. Zhang*(張培磊), Z. Jia, Z. Yu, C. Fang, H. Yan, H. Shi, Y. Tian, Microstructures and mechanical properties of reduced activation ferritic/martensitic steel fabricated by laser melting deposition, Fusion Eng. Des. 173 (2021) 112865.
[61] Q. Jiang, P. Zhang*(張培磊), Z. Yu, Y. Tian, S. Ma, AlCoCrFeNi high entropy alloy fabricated via selective laser melting reinforced by Fe-based metallic glass, Mater. Lett. 307 (2022) 130994.
[62] P. Zhang*(張培磊), J. Tan, Y. Tian, H. Yan, Z. Yu, Research progress on selective laser melting (SLM) of bulk metallic glasses (BMGs): a review, Int. J. Adv. Manuf. Technol. (2021) 1–41.
[63] J. Wang, P. Zhang*(張培磊), L. Shen, Z. Yu, H. Shi, Y. Tian, The femtosecond laser induced Zr64.13Cu15.75Ni10.12Al10 amorphous periodic surface structure, J. Manuf. Process. 69 (2021) 613–620.
[64] Q. Jiang, P. Zhang*(張培磊), Z. Yu, H. Shi, D. Wu, H. Yan, X. Ye, Q. Lu, Y. Tian, A review on additive manufacturing of pure copper, Coatings. 11 (2021) 740.
[65] W. Xiong, P. Zhang*(張培磊), Z. Yu, H. Yan, D. Wu, Q. Lu, Y. Tian, Weld zone porosity elimination process of galvanized steel zero-gap lap joints in remote laser spiral welding, Mater. Res. Express. 8 (2021) 066502.
[66] P. Zhang*(張培磊), Z. Jia, H. Yan, Z. Yu, D. Wu, H. Shi, F. Wang, Y. Tian, S. Ma, W. Lei, Effect of deposition rate on microstructure and mechanical properties of wire arc additive manufacturing of Ti-6Al-4V components, J. Cent. South Univ. 28 (2021) 1100–1110.
[67] Z. Jia, P. Zhang*(張培磊), Z. Yu, D. Wu, Y. Tian, H. Yan, Evidence of solidification crack propagation in pulsed laser welding of aluminum alloy, Opt. Express. 29 (2021) 18495.
[68] P. Zhang*(張培磊), Z. Jia, Z. Yu, H. Shi, S. Li, D. Wu, H. Yan, X. Ye, J. Chen, F. Wang, Y. Tian, A review on the effect of laser pulse shaping on the microstructure and hot cracking behavior in the welding of alloys, Opt. Laser Technol. 140 (2021) 107094.
[69] Man Tang, P. Zhang*(張培磊), Z. Yu, H. Shi, S. Li, D. Wu, H. Yan, X. Ye, F. Wang, Y. Tian, Study on Ultrasound Welding Process of Aluminum/Copper Dissimilar Metals, Phys. Met. Metallogr. 121 (2020) 1400–1410.
[70] W.-S. Lei*, G. Qian*, Z. Yu, P. Zhang*(張培磊), Weibull Modulus of Cleavage Fracture Toughness of Ferritic Steels, Metall. Mater. Trans. A. (2021) 1–13.
[71] X. Wei, P. Zhang*(張培磊), Z. Yu, H. Yan, D. Wu, H. Shi, J. Chen, Q. Lu, Y. Tian, S. Ma, W. Lei, Effect of phase transformation on mechanical properties of Al16.80Co20.74Cr20.49Fe21.28Ni20.70 high entropy alloy coatings processed by laser cladding, J. Alloys Compd. 862 (2021) 158563.
[72] P. Zhang*(張培磊), Z. Liu, H. Yan, Z. Yu, Effect of Longitudinal Magnetic Field on CMT Welding of Al-Alloy, Met. Mater. Int. 27 (2021) 5285–5298.
[73] W.-S. Lei*, P. Zhang*(張培磊), Z. Yu, G. Qian, Statistics of ceramic strength: Use ordinary Weibull distribution function or Weibull statistical fracture theory?, Ceram. Int. 46 (2020) 20751–20768.
[74] W.-S. Lei*, Z. Yu*, P. Zhang*(張培磊), G. Qian, Standardized Weibull statistics of ceramic strength, Ceram. Int. (2020).
[75] P. Zhang*(張培磊), H. Shi, Y. Tian, Z. Yu, D. Wu, Effect of zinc on the fracture behavior of galvanized steel/6061 aluminum alloy by laser brazing, Weld. World. 65 (2021) 13–22.
[76] P. Zhang*(張培磊), Q. Zhang, H. Yan, Z. Yu, J. Yang, J. Chen, D. Wu, H. Shi, Y. Tian, S. Ma, W. Lei, Fabrication, microstructure and micromechanical properties of Fe-based metallic glass coating manufactured by laser, Surf. Coatings Technol. 405 (2021) 126726.
[77] Q. Zhang, P. Zhang*(張培磊), Z. Yu, H. Yan, H. Shi, D. Wu, S. Li, Y. Tian, Microstructure and Properties of an Al 6061/Galvanized Plate Fabricated by CMT Welding, J. Wuhan Univ. Technol. Sci. Ed. 35 (2020) 937–945.
[78] Z. Jia, P. Zhang*(張培磊), Z. Yu, H. Shi, H. Liu, D. Wu, X. Ye, F. Wang, Y. Tian, Effect of pulse shaping on solidification process and crack in 5083 aluminum alloy by pulsed laser welding, Opt. Laser Technol. 134 (2021) 106608.
[79] Q. Jiang, P. Zhang*(張培磊), Z. Yu, H. Shi, S. Li, D. Wu, H. Yan, X. Ye, J. Chen, Microstructure and Mechanical Properties of Thick‐Walled Inconel 625 Alloy Manufactured by Wire Arc Additive Manufacture with Different Torch Paths, Adv. Eng. Mater. 23 (2021) 2000728.
[80] H. Huang, P. Zhang*(張培磊), H. Yan, Z. Liu, Z. Yu, D. Wu, H. Shi, Y. Tian, Research on weld formation mechanism of laser-MIG arc hybrid welding with butt gap, Opt. Laser Technol. 133 (2021) 106530.
[81] J. Tan, H. Liu, P. Zhang*(張培磊), Z. Yu, H. Shi, S. Li, D. Wu, H. Yan, X. Ye, F. Wang, X. Wei, Q. Jiang, J. Deng, A Study on the 2060-T8/2099-T83 Aluminum-Lithium Alloys T-Joints Welded by Double-Sided Laser Beam Welding, J. Mater. Eng. Perform. 29 (2020) 4295–4309.
[82] Z. qiang Liu, P. lei Zhang*(張培磊), S. wei Li, D. Wu, Z. shui Yu, Wire and arc additive manufacturing of 4043 Al alloy using a cold metal transfer method, Int. J. Miner. Metall. Mater. 27 (2020) 783–791.
[83] Q. Zhang, P. Zhang*(張培磊), H. Yan, Z. Yu, D. Wu, H. Shi, S. Li, Y. Tian, Magnetic-field-assisted laser cladding in the preparation of a crack-free Fe-Cr-Mo-C-Y-B amorphous coating on steel, Philos. Mag. Lett. 100 (2020) 86–93.
[84] Q. Cheng, H. Shi*, P. Zhang*(張培磊), Z. Yu, D. Wu, S. He, Y. Tian, Microstructure, oxidation resistance and mechanical properties of stellite 12 composite coating doped with submicron TiC/B4C by laser cladding, Surf. Coatings Technol. 395 (2020) 125810.
[85] R. Zhu, P. Zhang*(張培磊), Z. Yu, H. Yan, S. Li, D. Wu, H. Shi, Y. Tian, Microstructure and wide temperature range self-lubricating properties of laser cladding NiCrAlY/Ag2O/Ta2O5 composite coating, Surf. Coatings Technol. 383 (2020) 125248.
[86] P. Zhang*(張培磊), G. Li, H. Yan, Y. Tian, Effect of positive/negative electrode ratio on cold metal transfer welding of 6061 aluminum alloy, Int. J. Adv. Manuf. Technol. 106 (2020) 1453–1464.
[87] P. Zhang*(張培磊), M. Li, H. Yan, J. Chen, Z. Yu, X. Ye, Microstructure evolution of Ni-Mo-Fe-Si quaternary metal silicide alloy composite coatings by laser cladding on pure Ni, J. Alloys Compd. 785 (2019) 984–1000.
[88] P.L. Zhang*(張培磊), Z.S. Yu, H. Yan, Q.H. Lu, Microstructural and mechanical characterization of a fibre laser welded T-joint in high strength steel, Lasers Eng. 42 (2019) 99–112.
[89] Z. Peilei*(張培磊), G. Siyuan, L. Zhengjun, Y. Zhishui, Study on the hybrid laser-arc welding of 3 mm thick high-strength steel with high speed, Mater. Res. Express. 6 (2019).
[90] P. Zhang*(張培磊), M. Li, Z. Yu, Microstructures Evolution and Micromechanics Features of Ni-Cr-Si Coatings Deposited on Copper by Laser Cladding, Materials (Basel). 11 (2018) 875.
[91] G. Li, P. Zhang*(張培磊), H. Shi, Z. Yu, Microstructure and properties of Cr18-Ni8 steel joints brazed with BNi7+3%Cu composite solder, Vacuum. 148 (2018) 303–311.
[92] L. Guojin, Z. Peilei*(張培磊), W. Xi, N. Yunpeng, Y. Zhishui, Y. Hua, L. Qinghua, Gap bridging of 6061 aluminum alloy joints welded by variable-polarity cold metal transfer, J. Mater. Process. Technol. 255 (2018) 927–935.
[93] Y. Nie, P. Zhang*(張培磊), X. Wu, G. Li, H. Yan, Z. Yu, Rapid prototyping of 4043 Al-alloy parts by cold metal transfer, Sci. Technol. Weld. Join. 23 (2018) 527–535.
[94] P. Zhang*(張培磊), X. Liu, H. Yan, Phase composition, microstructure evolution and wear behavior of Ni-Mn-Si coatings on copper by laser cladding, Surf. Coatings Technol. 332 (2017) 504–510.
[95] Q. Zhuang, P. Zhang*(張培磊), M. Li, H. Yan, Z. Yu, Q. Lu, Microstructure, wear resistance and oxidation behavior of Ni-Ti-Si coatings fabricated on Ti6Al4V by laser cladding, Materials (Basel). 10 (2017).
[96] L. Shaowei, Y. Zhishui*, Z. Peilei*(張培磊), L. Xiaoliang, Q. Dingding, L. Xiaopeng, Numerical simulation and parameters optimization of laser brazing of galvanized steel, ISIJ Int. 56 (2016) 639–646.
[97] Z. Peilei*(張培磊), L. Xiaopeng, L. Yunlong, Y. Hua, Y. Zhishui, L. Chonggui, L. Qinghua, Microstructure and wear behavior of Cu-Mo-Si coatings by laser cladding, Appl. Surf. Sci. 311 (2014) 709–714.
[98] M. Kai, Y. Zhishui*, Z. Peilei*(張培磊), L. Yunlong, Y. Hua, L. Chonggui, L. Xiaopeng, Influence of wire feeding speed on laser brazing zinc-coated steel with Cu-based filler metal, Int. J. Adv. Manuf. Technol. 76 (2014) 1333–1342.
[99] P.L. Zhang*(張培磊), H. Yan, P.Q. Xu, Z.S. Yu, C.G. Li, Q.H. Lu, Effect of laser surface hardening on the microstructure, hardness, wear resistance and softening of a low carbon steel, Lasers Eng. 28 (2014) 135–149.
[100] Z. Peilei*(張培磊), L. Yunlong, Y. Hua, M. Kai, X. Peiquan, Y. Zhishui, C. Yingying, D. Min, Effect of Nb addition on Fe-Ni-B-Si amorphous and crystalline composite coatings by laser processing, Surf. Coatings Technol. 236 (2013) 84–90.
[101] P. Zhang*(張培磊), H. Yan, P. Xu, Q. Lu, C. Li, Z. Yu, Influence of different annealing temperatures and cooling rates on amorphous and crystalline composite coating, Surf. Coatings Technol. 206 (2012) 4981–4987.
[102] P. Zhang*(張培磊), H. Yan, C. Yao, Z. Li, Z. Yu, P. Xu, Synthesis of Fe-Ni-B-Si-Nb amorphous and crystalline composite coatings by laser cladding and remelting, Surf. Coatings Technol. 206 (2011) 1229–1236.
[103] P. Zhang*(張培磊), H. Yan, C. Yao, Z. Li, Z. Yu, P. Xu, Relationship between the γ and some parameters of Fe-based bulk metallic glasses, Int. J. Mater. Res. 103 (2012) 336–340.
[104] P. Zhang*(張培磊), H. Yan, P. Xu, Z. Yu, C. Li, Microstructure and tribological behavior of amorphous and crystalline composite coatings using laser melting, Appl. Surf. Sci. 258 (2012) 6902–6908.
[105] P.L. Zhang*(張培磊), Z.G. Li, C.W. Yao, Z.S. Yu, H. Yan, Microstructure evolution in a Fe 36Ni 36B 19.2Si 4.8Nb 4 bulk amorphous alloy irradiated by a CO 2 laser beam, Lasers Eng. 23 (2012) 221–230.
[106] P.L. Zhang*(張培磊), S. Yao, M. Ding, F.G. Lu, S.N. Lou, Microstructural analysis in the vacuum brazing of copper to copper using a phosphor-copper brazing filler metal, Int. J. Mater. Res. 101 (2010) 1436–1440.
[107] 蔣旗, 張培磊*, 劉誌強, 於治水, 史海川, 冷金屬過渡加脈沖電弧增材製造4043鋁合金薄壁件的組織與拉伸性能, 機械工程材料. v.44;No.37 (2020) 57–61.
[108] 吳希, 張培磊*, 唐滿, 李明川, 於治水, 李紹偉, 銅-鋁異種箔片納秒激光掃描點焊成形及組織特征, 中國激光. v.46;No.50 (2019) 75–82.
[109] 李明川, 張培磊*, 於治水, 閆華, 葉欣, 李紹偉, 激光熔覆Ni-Ti-Si合金的組織及微觀力學性能, 稀有金屬材料與工程. (2019).
[110] 何珊珊, 於治水*, 張培磊*, 李明川, 閆華, 李紹偉, 亞微米TiC/B4C顆粒對激光熔覆Stellite塗層組織及性能影響, 中國激光. 46 (2019) 302010–302011.
[111] 聶雲鵬, 張培磊*, 莊喬喬, 李雷, 4043鋁合金冷金屬過渡薄壁構件電弧快速成形, 焊接學報. v.39 (2018) 58-62+131.
[112] 劉政君, 顧思遠, 張培磊*, 於治水*, 葉欣, 顧勇. 高強鋼激光-MIG復合焊對接間隙下的焊縫成形機理. 中國激光, 2019, 46(9): 0902006
[113] 李雷,於治水*,張培磊*,莊喬喬,聶雲鵬. TC4 鈦合金電弧增材製造疊層組織特征. 焊接學報🕵🏽♂️,2018👡🙅🏻♂️,(39)12:37-43.
[114] 顧思遠,劉政君,張培磊*,於治水*,葉欣🤸♀️,顧勇. 高速激光電弧復合焊接高強鋼焊縫的形貌及成形機理. 中國激光,2018,(45)12:1202007-1.
[115] 盧雲龍,張培磊*,馬凱👩🦯,於治水👊,閆華🛀,李崇桂. 激光合金化Ni-W-Si塗層的組織與性能研究.稀有金屬材料與工程,2016🫲📕,45(2)🧛🏻♀️:375-380.
[116] 莊喬喬,張培磊*,李明川⚙️,閆華👟,於治水. 銅合金表面激光熔覆Ni-Ti-Si塗層組織及耐磨性研究. 中國激光🫅🏿🫸🏻,2017,44(11):1102002-1~7.
[117] 李明川,張培磊*🧳,莊喬喬,閆華,於治水. 銅板表面激光熔覆 Ni-Mo-Si塗層的組織和微觀力學性能. 中國激光,2017,44(12)🩼:1202004-1~8.
[118] 劉曉鵬, 張培磊*,盧雲龍. 激光熔覆矽化物塗層強化相的研究進展.材料導報,2015,29(1):72.75.
[119] 劉曉鵬🧜🏽♀️,張培磊*,盧雲龍. 純銅表面激光熔覆 Ni基矽化物塗層摩擦學性能研究. 中國激光,2015,42(9):0906005-1~7.
[120] 褚振濤🚣🏼♀️,於治水,張培磊*,盧慶華,李紹偉,馬凱. 基於響應面分析的T型接頭激光深熔焊焊縫形貌預測及工藝參數優化. 中國激光,2015,42(2):0203006.1~9.
[121] 馬凱,於治水,張培磊*🎿,盧雲龍,褚振濤,史海川. 送絲速度對鍍鋅鋼激光釬焊接頭性能影響研究. 中國激光,2014,40(10):1003003.1~5.
[122] 張培磊*👩🏼🚀🦷,李鑄國,姚成武🗳,於治水,閆華. 激光製備Fe.Ni基非晶復合塗層及退火性能研究. 焊接學報,2011(32),4:13.16.
[123] 張培磊*,李鑄國,於治水,閆華🈚️,徐培全. 激光熔覆+重熔製備Fe.Ni.B.Si.Nb系非晶納米晶復合塗層研究. 中國有色金屬學報,2011,21(11):2846.2851.
[124] 張培磊*,姚舜,於治水,丁敏, 徐培全. 亞共晶釬縫組織分析與冷卻速率對其形態的影響. 材料工程,2011,4:25.28.
專利著作👰:
[1]張培磊,馬凱🍋,盧雲龍,閆華,一種基於激光同步送粉焊接鍍鋅鋼板與鎂合金的合金粉末和方法. (發明專利號𓀄:ZL 201310143397.5)
[2]張培磊💙🕵🏼♂️,盧雲龍🙊,閆華👍🏼,丁敏,一種用於填充點焊不銹鋼高熵合金粉末和一種高熵合金粉末填充點焊不銹鋼的工藝方法. (發明專利號:ZL 201310142899.6)
[3]張培磊🏃➡️,劉曉鵬😀,盧雲龍🪇,聞倩藝,莊喬喬,聶雲鵬,李雷,一種耐磨激光熔覆層材料及其製備方法. (發明專利號:ZL 201410836658.6)
[4]張培磊,於治水,李國進,一種907A高強鋼T型接頭激光焊接加工方法.(發明專利號🥅:ZL 201510136545.X)
[5]聶雲鵬👮🏿♀️,張培磊,莊喬喬💇🏽♀️,李雷,一種用於焊接機器人電弧焊槍與傳感器之間的隨行夾具. (實用新型專利號:ZL 201720022512.7)
[6]聶雲鵬,張培磊⏩,莊喬喬👰,李雷,於治水,一種用於焊槍與傳感器的隨行焊接夾具. (發明專利號: ZL 201710013893.7)
[7]張培磊,於治水🎅🏽,閆華,吳希👮🏻♀️🍼,一種用於焊縫跟蹤傳感器的固定裝置. (實用新型專利號:ZL 201820338820.5)
[8]張培磊,褚振濤,楊橄生⚜️,馬凱♾,一種激光深熔焊熱源模型的建模方法. (發明專利號:ZL 201410012392.3)
[9] 李雷,於治水,張培磊,一種固定於焊槍的鈦合金堆焊氣體保護罩. (發明專利號:ZL 201710131174.5)
[10] 李明川,張培磊,莊喬喬,劉曉鵬,一種用於銅基體表面的激光熔覆材料及其應用. (發明專利號🧑🏻💼:201710095635.8)
[11] 張培磊,蔣旗🤷,盧慶華,史海川,於治水,一種用於對接及搭接工件裝配的焊接夾具(實用新型專利號🛢:ZL 201920616639.0)🍄:
[12] 張培磊,魏杏茹👇,吳頔👨🏿🏫🪒,李紹偉,盧慶華,閆華,於治水👩💼,一種超高硬度激光熔覆復合塗層材料及其製備方法✔️,(發明專利號:ZL 201910257153.7)
[13] 張培磊🏈📀,熊汪濤,一種鐵基非晶激光熔覆塗層材料及其製備方法. (發明專利號:ZL 201910870590.6)
[14] 張培磊🧓🏻、吳希、何珊珊𓀕、李紹偉 、盧慶華、 閆華🍡、 於治水. 弧焊機器人直線對接焊縫的軸向跟蹤系統及方法,(發明專利號:ZL 201910289396.9)
[15] 張培磊,劉振宇🙅🏻♀️,熊汪濤🚔,於治水🔻,閆華💗,盧慶華,一種用於鍍鋅鋼的激光焊接方法.(發明專利號:ZL 202110709702.7)
研究生培養情況🧒:
1、學生競賽&獲獎
[1] 上海市優秀畢業生(2023年——鳳軍毅)👧🏻;
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[4] 意昂体育4平台優秀畢業生(2023年——鳳軍毅);
[5] 全國大學生英語翻譯大賽三等獎(2021年——王力)👨🦼🧘🏼;
[6] 第四屆上海市智慧城市創意設計大賽省級二等獎(2022年——張微林)
[7] 第九屆中國國際 “互聯網+”大學生創新創業大賽校級二等獎(2023年——張微林)
[8] 全國大學生英語詞匯挑戰賽二等獎(2022年——劉慶永);
2🤲🏿、研究生國家獎學金
[1] 劉曉鵬,2015年;
[2] 莊喬喬,2017年;
[3] 李國進,2018年;
[4] 蔣旗,2021年;
[5] 鳳軍毅,2022年🛏;(聯合培養/指導)
[6] 宋世傑,2023年;(聯合指導)
3👩🎨、研究生讀博深造
[1] 劉曉鵬,上海大學;
[2] 聶雲鵬,南京航空航天大學;
[3] 李明川🤦🏻,哈爾濱工業大學😕🧛🏿♀️;
[4] 何珊珊,韓國釜山大學🦻;(聯合指導)
[5] 黃瀚軒,復旦大學;
[6] 蔣旗,華南理工大學;
[7] 鳳軍毅🚶♀️🤎,華中科技大學;(聯合培養/指導)
[8] 賈誌遠🔆,東南大學;
[9] 王力,上海交通大學;(聯合培養/指導)
[10] 劉慶永,華中科技大學;(聯合指導)
