个人简介：1978.12 出生，籍贯：河北2014.01-至今 东南大学材料科学与工程学院，副教授。硕士生导师，博士生导师。主管学院研究生国际化教学。2012.10-2013.11 德国罗斯托克大学，机械制造与造船系，获得特许任教工学博士学位Doktor-Ingenieur habilitatus (Dr.-Ing Habil.)；期间曾在德国汉堡工业大学Technical University of Hamburg-Harburg, 材料物理与技术系，短期访问。2007.12-2013.07 德国罗斯托克大学(University of Rostock)，物理系，Wissenschaftlicher Mitarbeiter研究员（助教位置），从事科研与教学工作；2005.10-2007.11 中国科学院上海硅酸盐研究所，博士后；2002.08-2005.09 哈尔滨工业大学，材料科学与工程学院，工学博士学位；2000.08-2002.07 哈尔滨工业大学，材料科学与工程学院，工学硕士学位；1996.09-2000.07 河北科技大学，材料科学与工程系，工学学士学位；主要主持与参与的科研项目：(1) 国家自然科学基金NSFC-航天先进制造联合基金，航天用石墨烯增强钛基复合材料. 2018.01-2020.12，主持，在研.(2) 江苏省自然科学基金面上项目. 直流脉冲电场诱导纳米碳的相变机理研究。2016.8-2019.08, 主持，结题.(3) 2017创聚江宁创新创业项目，等离子烧结制备高纯稀有金属及其合金靶材及其产业化，主持，在研(4) 国家人力资源和社会保障部留学人员科技活动项目择优资助项目.放电等离子烧结合成金刚石新技术的研究。2016-2019.主持，在研(5) 国家教育部回国留学人员科研启动基金. 等离子烧结合成金刚石的机理.No. 2015-1098.主持.在研(6) 中国科学院上海硅酸盐研究所高性能陶瓷和超微结构国家重点实验室开放基金，纳米金刚石及其复合材料. SKL201603SIC. 2017.01-2018.12, 主持，在研. (7) 中南大学粉末冶金国家重点实验室开放课题优先资助项目，三维纳米多孔钛的制备与微结构调控机制，2014-2016，主持，在研。(8) 东南大学新进教师科研启动经费，批准号：3212004205，金属框架纳米碳三维多孔材料的制备、微结构与性能，2014.01-2015.11，主持，已结题。(9) 国家自然科学基金面上项目，冲击载荷作用下泡沫铝孔隙梯度优化设计. 2016-2019，在研，参加。(10) 国家自然科学基金面上项目，微纳尺度类金刚石碳膜动态力学性质及机理研究. 2015-2018，结题，参加。(11) 主持: Venture Cup 2011, MV. Diamantsynthese durch Spark-Plasma-Sinterung. UR 11 007 VC 2011.(12) 主持: DFG (Germany research foundation). Pulsed electric field Induced diamond synthesis and mechanisms. Grant No. BU 547/10-1.(13) 主持: DFG (Germany research foundation). Pulsed electric field Induced Phase transformation from Graphene. Grant No. BU 547/10-2.(14) 主持: DESY Project in Hamburg, Temperature and pressure induced phase transformation of carbon materials by synchrotron radiation. II-20090264.(15) 主持: DESY Project in Hamburg, Stability and phase transformations of graphene under extreme physical conditions. I-20110661.(16) 主持完成上海市博士后科研资助计划重点项目（B类），项目号06R214201，2006.01-2007.11.(17) 主持完成中国博士后基金项目，项目号20060390148, 2005.10-2007.11.学术兼职：(1) Lead guest editor in special issue of ‘Nanomaterials processing by spark plasma sintering’ Journal of Nanomaterials.(2) Editor board in ‘Chemical and Materials Engineering’ (http://www.hrpub.org/journals/jour_editorialboard.php?id=55) ;(3) 德国材料学会Deutsche Gesellschaft für Materialkunde, DGM 会员,Mitglieds-Nr. 167578;(4) 中国机械工程学会-工程陶瓷分会理事（2017-至今）(5) 中国材料研究学会-多孔材料分会第一届委员（2018-2021）(6) 中国材料研究学会，终身会员(7) 中国复合材料学会会员讲授的课程：(1) 材料分析技术（全英文），2学分必修-------材料学院大三学生，每学年秋季学期。(2) 工程金属材料，2学分必修------能源环境学院大三学生，每学年秋季学期。(3) 放电等离子烧结技术与机理（研讨课），1学分选修--------研一学生，每学年春节学期。(4) 材料制备技术实验课，选修--------大三学生，每学年秋季学期。获奖情况：(1) Venture Cup Winner in Mecklenburg-Vorpommern, Germany. (2012)(2) 哈工大优秀博士学位论文获得者（2007年）；(3) 哈工大十佳英才-科研先锋奖获得者（2005年）；出版论著及发表论文：书章节[1] Saba F., Zhang F., Sajjadi S.A., Haddad-Sabzevar M. (2019) Surface-Modified-CNTs/Al Matrix Nanocomposites Produced via Spark Plasma Sintering: Microstructures, Properties, and Formation Mechanism. In: Cavaliere P. (eds) Spark Plasma Sintering of Materials. Springer, Cham, 19 February 2019 Print ISBN 978-3-030-05326-0[2] E. Burkel, F. Zhang. Chapter: Diamond Formation in Graphene Nanoplatelets, Carbon Nanotubes and Fullerenes Under Spark Plasma Sintering. Encyclopedia of Nanotechnology. ISBN 978-94-007-6178-0, Springer Netherlands. 2016.02[3] F. Zhang, Y. Quan. R. Reich, O. Kessler, E. Burkel. Chapter 11: Sintering and heat treatment of titanium alloys by pulsed electric current sintering. In the Book 'Sintering Applications'. ISBN 978-953-51-0974-7, InTech. 02.2013.[4] F. Zhang, E. Burkel. Chapter 2: Synthesis of diamond using spark plasma sintering. In the book of “Sintering of ceramics-new emerging techniques”. ISBN 978-953-308-4-8. Published by InTech. 02.2012.[5] F. Zhang, E. Burkel. Chapter 9: Novel titanium manganese alloys and their macroporous foams for biomedical applications prepared by field assisted sintering. In the book of “Biomedical Engineering, Trends, Researches and Technologies” ISBN 978-953-7619. InTech. 02.2011.[6] Rott, G. A., Zhang, F., Haba, Y., Kruger, W. and Burkel E. Chapter 10. Dielectric Properties of Porous Calcium Titanate (CaTiO3), in Biomaterials Science-Processing, Properties, and Applications, 2011 John Wiley & Sons, Inc., Hoboken, NJ, USA.主要的SCI学术论文：2020年[1] Faming Zhang, Kuowei Fan, Farhad Saba, Jin Yu. Graphene reinforced-graphitized nanodiamonds matrix composites:Fabrication, microstructure, mechanical properties, thermal and electrical conductivity. Carbon, 169(2020)416-428.[2] Caiyun Shang, Faming Zhang, Bin Zhang, Feng Chen. Interface microstructure and strengthening mechanisms of multilayer graphene reinforced titanium alloy matrix nanocomposites with network architectures. Materials and Design, 2020, https://doi.org/10.1016/j.matdes.2020.109119[3] Caiyun Shang, Tengfei Liu, Faming Zhang, Feng Chen. Effect of network size on mechanical properties and wear resistance of titanium/nanodiamonds nanocomposites with network architecture. Composites Communications, 19 (2020) 74–81.[4] Kuowei Fan, Faming Zhang, Caiyun Shang, Farhad Saba, Jin Yu. Mechanical properties and strengthening mechanisms of titanium matrix nanocomposites reinforced with onion-like carbons. Composites Part A, 132 (2020) 105834.[5] Farhad Saba, Elham Garmroudi-Nezhad, Faming Zhang, Lili Wang. Fabrication, mechanical property and in vitro bioactivity of hierarchical macro-/micro-/nano-porous titanium and titanium molybdenum alloys. Journal of Materials Research, 2020,doi:10.1557/jmr.2020.12[6] Faming Zhang, Juan Wang, Tengfei Liu, Caiyun Shang. Enhanced mechanical properties of few-layer graphene reinforced titanium alloy matrix nanocomposites with a network architecture. Materials and Design, 186 (2020) 108330.[7] Faming Zhang, Maolong Du, Kuowei Fan, Can Ye, Bin Zhang. Fabrication and mechanical properties of network structured titanium alloy matrix composites reinforced with Ti2AlC particulates. Materials Science & Engineering A, 776 (2020) 139065.[8] Tao Wen, Kuowei Fan, Faming Zhang. High strength and high ductility in nickel matrix nanocomposites reinforced by carbon nanotubes and onion-like-carbon hybrid reinforcements. Journal of Alloys and Compounds, 814 (2020) 152303.2019年[9] Faming Zhang, Kuowei Fan, Jin Yu, Farhad Saba and Jing Sun. Pulsed direct current field-induced thermal stability and phase transformation of nanodiamonds to carbon onions. RSC Adv., 2019, 9, 14360[10] Farhad Saba, Faming Zhang, Suli Liu, Tengfei Liu. Reinforcement size dependence of mechanical properties and strengthening mechanisms in diamond reinforced titanium metal matrix composites, Composites B. 2019, 167:7-19.[11] Faming Zhang, Tengfei Liu. Nanodiamonds reinforced titanium matrix nanocomposites with network architecture. Composites B. 2019, 165:143-154. 2018年[12] Farhad Saba, Seyed Abdolkarim Sajjadi, Mohsen Haddad-Sabzevar, Faming Zhang. Exploring the reinforcing effect of TiC and CNT in dual-reinforced Al-matrix Composites. Diamond & Related Materials 89 (2018) 180–189.[13] Farhad Saba, Faming Zhang, Suli Liu, Tengfei Liu. Tribological properties, thermal conductivity and corrosion resistance of titanium/nanodiamond nanocomposites. Composites Communications. 2018, 10:57-63. [14] Faming Zhang, Peipei Zhao, Teifei Liu, Suli Liu, Zhang Peigen, Jin Yu, Jing Sun. In-situ synthesis of nanodiamonds reinforced iron-nickel matrix nanocomposites and their properties. Diamond and related Materials. 2018, 83:60-66.[15] Saba, Farhad; Sajjadi, Seyed Abdolkarim; Zhang, Faming. The effect of TiC: CNT mixing ratio and CNT content on the mechanical and tribological behaviors of TiC modified CNT-reinforced Al-matrix nanocomposites. Powder Technology, 2018, 331: 107-120. [16] Farhad Saba, Seyed Abdolkarim Sajjadi, Mohsen Haddad-Sabzevar, Faming Zhang. TiC-modified carbon nanotubes, TiC nanotubes and TiC nanorods: Synthesis and characterization. Ceramics International. 2018, 44:7949-7954. 2017年[17] Faming Zhang, Suli Liu, Peipei Zhao, Tengfei Liu, Jing Sun. Titanium/nanodiamond nanocomposites: Effect of nanodiamond on microstructure and mechanical properties of titanium. Materials and Design, 2017, 131:144-155[18] Faming Zhang, Ping Li, Jin Yu et al. Fabrication, formation mechanism and properties of three-dimensional nanoporous titanium dealloyed in metallic powders. Journal of Materials Research 2017, 32(8)1528-40.[19] Faming Zhang, Lili Wang, Ping Li, Suli Liu, Peipei Zhao, Ge Dai and Siyuan He. Preparation of Nano to Submicro-Porous TiMo Foams by Spark Plasma Sintering. Advanced Engineering Materials, 2017, 19(2):1-10. [20] Farhad Saba， Seyed A. Sajjadi，Mohsen Haddad-Sabzevar, Faming Zhang. Formation mechanism of nano titanium carbide on multi-walled carbon nanotube and influence of the nanocarbides on the load-bearing contribution of the nanotubes inner-walls in aluminum-matrix composites. Carbon, 2017, 115C: 720-729.2016年[21] Farhad Saba， Faming Zhang，Seyed A. Sajjadi，Mohsen Haddad-Sabzevar，Ping Li，Pulsed current field assisted surface modification of carbon nanotubes with nanocrystalline titanium carbide，Carbon，2016，101：261-271.[22] Faming Zhang，Ping Li，Ge Dai，Siyuan He，Fabrication and properties of three-dimensional nanoporous graphene foams with magnesium binder，Scripta Materialia，2016，111：89-93.2014年[23] F. Zhang, F. Essenhut, E. Burkel. Pulsed direct current field induced phase transformation in graphene nanoplatelets. Applied Physics Letters. 104, 253108 (2014).[24] Yujie Quan, Philipp Drescher, Faming Zhang, Eberhard Burkel, Hermann Seitz, Cellular Ti6Al4V with carbon nanotubelike structures fabricated by selective electron beam melting. Rapid Prototyping Journal, 2014,20(6):541 – 55[25] F. Zhang, M. Reich, O. Kessler, E. Burkel.  Potential of rapid cooling spark plasma sintering for metallic materials. Materials Today. 2013, 16(5): 192-195.2013年[26] F. Zhang, B. Basu, L. Wang, F. Izabel, E. Claude. Editorial: Nanomaterials Processed by Spark Plasma Sintering. Journal of Nanomaterials, 2013, doi:10.1155/2013/346952.[27] Y Quan, F. Zhang, H. Rebl, B. Nebe, O. Kessler, E. Burkel. Ti6Al4V foams fabricated by spark plasma sintering with post heat treatment. Materials Science & Engineering A. 2013, 565(118–125).2012年[28] F. Zhang, F. Ahmed, G. Holzhuter, E. Burkel. Growth of diamond from fullerene C60 by spark plasma sintering. Journal of Crystal Growth. 340 (2012) 1–5.[29] F. Zhang, F. Ahmed, J. Bednarcik, E. Burkel. Diamond synthesis through the generation of plasma during spark plasma sintering. Phys. Status Solidi A, 2012, 11: 2241–2246.[30] F. Zhang, A. Weidmann, J. B. Nebe, E. Burkel. Cell Response to Surface Modified Carbon Nanotubes. Materials Science and Engineering: C, 2012, 32(5): 1057–1061.2011年[31] F. Zhang, C. Mihoc, F. Ahmed, C. Latte, E. Burkel. Thermal stability of carbon nanotubes, fullerene and graphite under spark plasma sintering. Chemical Physics Letters 510 (2011) 109-114[32] F. Zhang, M. Adam, E. Otterstein, E. Burkel. Pulsed Electric Field Induced Diamond Synthesis from Carbon Nanotubes with Solvent Catalysts. Diamond and related Materials. 20 (2011) 853-858.[33] A. Ibrahim，F. Zhang, E. Otterstein, E. Burkel. Processing of Porous Ti and Ti5Mn Foams by Spark Plasma sintering. Materials and Design. 2011, 32: 146-153.2010年[34] F. Zhang, J. Chang, E. Burkel. Dissolution Process and Mechanisms of Poly (Vinyl Alcohol) Modified Carbon Nanotubes. New Carbon Materials. 2010, 25(4): 1-7.[35] F. Zhang, A. Weidmann, J. B. Nebe, U. Beck, E. Burkel. Preparation, Microstructures, Mechanical Properties and Cytocompatibility of TiMn Alloys for Biomedical Applications. Journal of Biomedical Materials Research B. 2010，94B: 406-413. [36] F. Zhang, E. Otterstein, E. Burkel. Spark plasma sintering, microstructures and mechanical properties of macroporous titanium foams. Advanced Engineering Materials. 2010, 12 (9): 863-872.2009年[37] F. Zhang, A. Weidmann, B. J. Nebe, E. Burkel. Preparation of TiMn alloy by mechanical alloying and spark plasma sintering for biomedical applications. Journal of Physics: Con. Series, 2009, 144:012007. [38] F. Zhang, J. Chang, J. Lu and C. Ning, Surface Modification of Beta-tricalcium Phosphate Scaffolds with Topological Nanoapatite Coatings. Materials Science and Engineering: C. 2009, 28(8): 1330-1339.2008年[39] Lihua Long, Faming Zhang, Lei Chen, Lidong Chen, Jiang Chang. Preparation and properties of β-CaSiO3/ZrO2 (3Y) nanocomposites. Journal of the European Ceramic Society, 2008, 28(15): 2883-2887.[40] F. Zhang, J. Chang, K. Lin and J. Lu, Preparation, mechanical properties and in vitro degradability of wollastonite/tricalcium phosphate macroporous scaffolds from nanocomposite powders, Journal of Materials Science: Materials in Medicine 2008,19(1): 167-173.[41] F. Zhang, K. Lin, J. Chang, J. Lu and C. Ning; Spark plasma sintering of macroporous calcium phosphate scaffolds from nanocrystalline powders. Journal of the European Ceramic Society, 2008, 28(3): 539-545.2007年[42] F. Zhang, J. Chang, J. Lu, K. Lin and C. Ning, Bioinspired structure of bioceramics for bone regeneration in load-bearing sites, Acta Biomaterialia, 2007, 3(6): 896-904.[43] Faming Zhang, Jiang Chang, Jianxi Lu, Kaili Lin. Fabrication and Mechanical Properties of Dense/Porous β-Tricalcium Phosphate Bioceramics. Key Engineering Materials, Vols. 2007, 330-332: 907-910.2006年[44] F. Zhang, J. Shen, J. Sun, D.G. McCartney. Direct Synthesis of Diamond from Low Purity Carbon Nanotubes. Carbon. 44 (2006) 3136-3138.[45] J. Shen, F. M. Zhang, J. F. Sun, Y. Q. Zhu and G. McCartney. Spark plasma sintering assisted Diamond Formation from Carbon Nanotubes at very Low Pressure. Nanotechnology. 17 (2006) 2187-2191.2005年[46] F. Zhang, J. Shen, J. Sun, Y. Q. Zhu, G. Wang and G.  McCartney. Conversion of Carbon Nanotubes to Diamond by a spark plasma sintering, Carbon. 2005, 43 (6): 1254-1258.[47] Jun Shen, Faming Zhang, Jianfei Sun. Processing and Mechanical Properties of Spark Plasma Sintered WC-Co-Al2O3 Nanocomposites. Transactions of Nonferrous Metals Society of China. 2005.1:102-109.[48] F. Zhang, J. Sun, J. Shen. Effects of Carbon Nanotubes Incorporation on the Grain growth of Nanocrystalline WC-Co cermets. Material Science Forum. 475-479 (2005): 989-992.2004年[49] F. Zhang, J. Shen, J. Sun. Processing and Properties of Carbon Nanotubes-Nano-WC-Co composites. Materials Science & Engineering A. 381（2004）91-96.[50] F. Zhang, J. Shen, J. Sun. The Effect of Phosphorus additions on Densification, Grain growth and Properties of nanocrystalline WC/Co composites. Journal of Alloys and Compounds. 2004, 385(1-2): 96-103. [51] Jun Shen, Jianfei Sun and Faming Zhang. Synthesis and Characterizations of Nanocrystalline WC-Co Composite Powders by a Unique Ball Milling Process. Journal of Materials Science and Technology. 2004, 20(1): 7-10.2003年[52] J. Sun, F. Zhang, J. Shen. Characterization of ball-milled nanocrystalline WC-Co composite powders and subsequently rapid hot pressing sintered cermets. Materials Letters, 57(2003)3140-3148.发明专利[1] 张法明，李萍，一种三维纳米多孔钛及其合金的制备方法，中国发明专利. CN201510158395.2。(授权).[2] 张法明，刘苏丽，一种纳米金刚石增强钛基复合材料及其制备方法和应用,中国发明专利. CN201610302137.7 (授权).[3] 赵佩佩，李萍，张法明，王利利. 一种钛或钛合金表面纳米多孔的制备方法, 中国发明专利. CN201610345100.7 (授权).[4] 张法明，赵佩佩，刘腾飞一种原位合成纳米金刚石增强铁镍基复合材料的方法及其所得材料和应用.  中国发明专利. CN201710906498.1 （授权）[5] 张法明，王娟.一种三维网络状分布的石墨烯增强钛基复合材料及其制备方法和应用.中国发明专利.CN201810801698.5 (授权)[6] 范阔威，张法明. 一种纳米洋葱碳增强钛基复合材料及其制备方法. 中国发明专利.CN 201810946906.0 (授权)[7] 张法明，杜茂龙. 一种Ti2AlC增强钛基复合材料及其制备方法和应用. 中国发明专利201811201329.0 (已申请)。[8] 张法明，范阔威，于金. 一种纳米洋葱碳多孔块体材料及其制备方法, 中国发明专利，201910598025.9 (已申请)[9] 张法明，张彬，一种纳米TiC修饰石墨烯增强钛基复合材料及其制备方法和应用，中国发明专利，201910748096.2 (已申请)[10] 张法明，叶灿, 一种异构结构的钛基复合材料及其制备方法和应用，中国发明专利，202010818263.9(已申请)[11] Faming Zhang, Eberhard Burkel, Gunnar Rott. Verfahren zur Synthese von Diamanten. Deutsches Patent, DE 10 2011 014 204 A1. (已授权).学术会议报告（2014年回国后）[1] 王娟， 张法明. 三维网状结构石墨烯增强钛基复合材料的制备与力学性能. 第四届中国国际复合材料科技大会（CCCM-4）, 2019, 11,28-30, 珠海，（口头报告）[2] 张法明， 王娟， 范阔威， 杜茂龙. 石墨烯、纳米金刚石、纳米洋葱碳及碳纳米管增强金属基复合材料的研究新进展, 中国材料大会2019，成都2019.07.10-14 （邀请报告）[3] 范阔威，张法明，于金. 纳米洋葱碳增强钛基复合材料的制备与性能。中国材料大会2019,成都2019.07.10-14 （口头报告）[4] 张法明，王娟.航天用石墨烯增强钛基复合材料制备与性能. 第十七届全国钛及钛合金学术交流会, 2019.04.11-18, 南京. (口头报告).[5] Faming Zhang, Siyuan He. Fabrication and properties of porous titanium and titanium aluminum carbide (Ti3AlC2). WorldPM2018. Beijing, 9.16-20,2018 (Invited lecture)[6] 张法明，刘腾飞，王娟，杜茂龙，范阔威. 纳米碳增强金属基复合材料的新进展.中国有色金属青年会议.长春，2018.08 （邀请报告）[7] 张法明，刘腾飞，刘苏丽，王娟. 纳米碳增强钛基复合材料的微观组织调控与性能. 中国材料大会2018，厦门，2018.7.12-15（邀请报告）.[8] 张法明，刘苏丽，刘腾飞. 纳米金刚石增强钛基复合材料. 第三届中国国际复合材料大会（CCCM-3）. 2017.10. 杭州. （邀请报告）[9] Faming Zhang. Porous Titanium from Macroporous to Nanoporous structures. 10th International conference on Porous Metals and Metallic Foams (Metfoam 2017). 2017.9.14-17, Nanjing, China. (Keynotes Lecture).[10] Faming Zhang, Suli Liu. Preparation and properties of titanium metal matrix nanocomposites reinforced with carbon nanotubes, graphene and nanodiamonds. 21st International Conference on Composites Materials (ICCM-21). 2017.8.20-25, Xian, China. (Oral presentation).[11] 张法明，纳米多孔钛的制备与功能性能. 中国材料大会 2017----纳米多孔金属材料分会场. 2017.07，银川（邀请报告）[12] 赵佩佩，张法明. 原位自生纳米金刚石增强镍铁基复合材料. 中国超硬材料及金刚石材料大会2017. 广西北海. 2017.08.28-09.01 (口头报告).[13] 张法明. 纳米碳材料在直流脉冲电场作用下的相变机理. 中国机械工程学会工程陶瓷分化会议暨工程陶瓷理事会会议. 2017.05. 上海，(分会主席)。[14] 张法明，第二届全国有色金属结构材料制备/加工及应用技术交流会. 2016.3.29-4.1. 洛阳.[15] 张法明，刘苏丽.生物医用纳米碳增强钛基复合材料的制备、组织结构与性能. 第三届全国复合材料创新应用科技大会. 2016.09.23-25. 常州. (口头报告)[16] 张法明,王利利,李萍,刘苏丽,赵佩佩，戴戈，何思渊.纳米多孔钛及其合金的制备、组织调控与性能及其生物医学应用. 国家自然基金委纳米多孔金属战略研讨会. 2016.10.14-16 天津. (海报)[17] 张法明，王利利，李萍，刘苏丽，赵佩佩.多孔钛及钛合金：从宏观大孔到微纳米孔.特种粉末冶金及复合材料制备/加工第一届学术会议.2016.11.11-13. 长沙. (口头报告)[18] 张法明，李萍. 放电等离子烧结技术制备三维纳米多孔钛及其微观结构.中国材料大会 2015----纳米金属材料分会场， 2015.07.10-14.贵阳. (口头报告).[19] Faming Zhang. Preparation of graphene-magnesium nanoporous foams by spark plasma sintering. The Fifteenth International Conference on Rapidly Quenched and Metastable Materials (RQ15), Aug. 24-28, 2014, Shanghai. (Oral Presentation).[20] 张法明. 放电等离子烧结技术合成金刚石的现状与展望. 第 8 届中国金刚石相关材料及应用学术会议. 2014.09.13-18, 桂林. (口头报告).培养的学生：Farhad Saba, 工学博士，中国-伊朗合作培养（2015-2018）（2019.9-上海交大金属基复合材料国家重点实验室博士后）；李萍，工学硕士，2014.07-2017.04 国家奖学金获得者，工作去向：台积电（昆山）；王利利，工学硕士，2014.07-2017.06 苏州工业园奖学金，工作去向：泰州民企；刘苏丽，工学硕士，2015.07-2018.05 国家奖学金获得者，工作去向：德国罗伯特.博世集团（南京）；赵佩佩，工程硕士，2015.07-2018.06 光华奖学金，工作去向：美国森萨塔SENSATA ，中芯国际；刘腾飞，工学硕士，2016.07-2019.06 工作去向：昆山汽车零部件企业（昆山）；王娟，工学硕士，2017.07-2020.06 工作去向：江苏时代新能源公司；杜茂龙，工学硕士，2017.07-2020.03 工作去向：安徽民企；范阔威，工程硕士，2017.07-2020.03 工作去向：迈瑞医疗南京分公司。目前在读博士生2人（商彩云，熊义峰），硕士研究生3人（张彬，叶灿，张瀚琳）。欢迎对纳米材料，复合材料，多孔材料、等离子体技术等感兴趣的同学报考。