張培磊,上海工程技術大學教授,上海市雷射先進制造技術協同創新中心首席研究員。一直致力於雷射與材料相互作用、雷射智慧型製造系統、非晶合金凝固過程、微觀組織演變與數值模擬的研究。已在雷射智慧型製造、材料結構表征與性能評價等領域的知名國際期刊上發表 SCI、EI 收錄論文100餘篇,申請國家各類專利30餘項,獲得國家發明專利授權8項、實用新型專利授權4項。受邀為Additive Manufacturing, Surface and Coatings Technology,Materials Science and Engineering A, Applied Surface Science, Journal of Alloysand Compounds 等多家國際期刊的審稿人。作為項目負責人已完成國家自然科學基金、總裝備部預研項目、上海市自然科學基金、上海市科委地方高校專項基金、上海市科委先進制造研究項目、新疆維吾爾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。還承擔了上海電站設備有限公司、上海核電設備有限公司、上海振華重工有限公司、上海外高橋造船有限公司、通快(中國)有限公司等企業委託技術開發課題的研究,獲得2015年上海市科技進步一等獎 。
基本介紹
教育經歷,工作經歷,研究方向,學術兼職,教授課程,指導學生項目,科研成果,代表性論文,已授權專利,榮譽和獎勵,
教育經歷
[2] 2003.09-2006.03,畢業於江蘇科技大學,獲材料加工工程專業碩士學位(焊接專業)
[3] 1999.09-2003.06,畢業於華東船舶工業學院,獲材料成型與控制工程學士學位(焊接專業)
工作經歷
[1] 2010年,上海工程技術大學,材料工程學院,講師、副教授
[2] 2017年,上海市雷射先進制造技術協同創新中心,首席研究員
[3] 2014.09-2015.07,中南大學,訪問學者
[4] 2019.10-2020.09,德國Fraunhofer Institute for Laser Technology ILT,訪問學者
研究方向
[1] 新材料焊接及其物理冶金
[2] 機器人智慧型化焊接製造
[4] 超快雷射表面微納結構製造及功能設計
學術兼職
[1] 上海市焊接學會理事
[2] 上海市焊接協會行業規劃委員會委員
[3] 中國機械工程學會高級會員
[4] 中國光學學會高級會員
[5] 國家自然科學基金通訊評議專家(面地青)
[6] 教育部學位論文通訊評議專家
[7] SVOA Materials Science & Technology雜誌編委
教授課程
[1] 電力電子技術,本科生
[2] 控制理論基礎,本科生
[3] 材料成型課程設計,本科生
[4] 焊接傳熱學,本科生
[5] 焊接數值模擬,研究生
[6] 焊接物理,研究生
[7] 高能束製造技術,研究生
指導學生項目
[1] 研究生創新項目(2013年、2014年、2015年、2016年),研究生
[2] 上海市大學生創新活動計畫(2011年、2013年、2017年、2018年),本科生
[3] 重點科研平台大學生創新訓練計畫項目(2014年、2016年),本科生
[4] 國家級大學創新訓練計畫項目(201910856020),2019.04~2020.04,本科生
科研成果
[1] 國家自然科學基金面上項目(52075317),2021.01-2024.12,主持
[2] 國家自然科學基金青年項目(51605276),2017.01-2019.12,主持
[3] 上海市自然科學基金(12ZR1444500),2012.10-2015.09,主持
[4] 上海市科委地方高校能力建設項目(13160501200),2013.06-2016.06,主持
[5] 上海市教委創新項目(14YZ139) ,2014.01-2016.12,主持
[6] 新疆維吾爾自治區區域協同創新專項(科技援疆計畫)(2019E0235),2019.01-2020.12,主持
[7] 克拉瑪依市2018年重大專項(2018ZD002B),2018.02-2020.11,主持
[8] 裝備部預先研究項目(2018No.3),2017.01-2020.12,主持
[9] 上海市2019年度“科技創新行動計畫”高新技術領域項目(19511106402), 2019.09-2021.08,主持
[10] 上海電氣電站設備有限公司,2017.04-2018.06,主持
[11] 上海振華重工(集團)股份有限公司,2019.6-2020.6&2018.10-2019.06,主持
[12] 上海電氣核電設備有限公司,2019.07-2019.12,主持
[13] 通快(中國)有限公司,2019.09-2019.12,主持
[14] 上海外高橋造船有限公司,2019.10-2019.12,主持
代表性論文
[1] 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. (2022) 117490.
[2] 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.
[3] 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.
[4] 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.
[5] 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.
[6] 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.
[7] 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.
[8] 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.
[9] 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.
[10]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.
[11]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.
[12]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.
[13]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.
[14]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.
[15]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.
[16]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. (2021) 1–14.
[17]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.
[18]W.-S. Lei*, Z. Yu*, P. Zhang*(張培磊), G. Qian, Standardized Weibull statistics of ceramic strength, Ceram. Int. (2020).
[19]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.
[20]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.
[21]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.
[22]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.
[23]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.
[24]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.
[25]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.
[26]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.
[27]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.
[28]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.
[29]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.
[30]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.
[31]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.
[32]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.
[33]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).
[34]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.
[35]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.
[36]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.
[37]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.
[38]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.
[39]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).
[40]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.
[41]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.
[42]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.
[43]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.
[44]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.
[45]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.
[46]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.
[47]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.
[48]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.
[49]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.
[50]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.
[51]蔣旗, 張培磊*, 劉志強, 於治水, 史海川, 冷金屬過渡加脈衝電弧增材製造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.
[52]吳希, 張培磊*, 唐滿, 李明川, 於治水, 李紹偉, 銅-鋁異種箔片納秒雷射掃描點焊成形及組織特徵, 中國雷射. v.46;No.50 (2019) 75–82.
[53]李明川, 張培磊*, 於治水, 閆華, 葉欣, 李紹偉, 雷射熔覆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).
[54]何珊珊, 於治水*, 張培磊*, 李明川, 閆華, 李紹偉, 亞微米TiC/B4C顆粒對雷射熔覆Stellite塗層組織及性能影響, 中國雷射. 46 (2019) 302010–302011.
[55]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.
已授權專利
[1] 張培磊,馬凱,盧雲龍,閆華,(發明專利號:ZL 201310143397.5)
[2] 張培磊,盧雲龍,閆華,丁敏, (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, (發明專利號:ZL 201410836658.6)
[4] 張培磊,於治水,李國進,(發明專利號:ZL 201510136545.X)
[5] 聶雲鵬,張培磊,莊喬喬,李雷,(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,(發明專利號: ZL 201710013893.7)
[7] 張培磊,於治水,閆華,吳希,(實用新型專利號:ZL 201820338820.5)
[8] 張培磊,褚振濤,楊橄生,馬凱,(發明專利號:ZL 201410012392.3)
[9] 李雷,於治水,張培磊,(發明專利號:ZL 201710131174.5)
[10] 李明川,張培磊,莊喬喬,劉曉鵬, (發明專利號:201710095635.8)
[11] 張培磊,蔣旗,盧慶華,史海川,於治水,(實用新型專利號:ZL 201920616639.0)
[12] 張培磊,談傑,李紹偉,於治水,閆華,吳頔,(實用新型專利號:ZL 201920616613.6)
榮譽和獎勵
[1] 上海市科技進步獎一等獎(2015)
[2] 上海工程技術大學優秀青年教師(2014、2018)
[3] 上海工程技術大學騰飛學者(2017)
