科研项目
主持和参与科研项目:
一汽铸造有限公司,“高导热灰铸铁材料开发”,201609-201711
云南钛业股份有限公司,国家重点研发计划项目2016YFB0301202“低成本高耐蚀钛及钛合金管材与高品质钛带制造技术开发及应用”子课题,“高品质超长耐蚀钛及钛合金铸锭制备关键技术研究及应用”,201607-202006
北京市科委-北京市科技计划(No. Z161100002616025),“基于藕状多孔铜材料的CPU散热器中试研发及示范应用”,201607-201712
浙江拓卡斯机械科技有限公司,“多孔泡沫金属成形制造技术”,201604-201812
中核四零四有限公司,“感应加热XF熔炼样机”,201508-201611
荣阳铝业(中国)有限公司,“泡沫铝制备与吸声降噪应用”,201507-201612
教育部清华大学自主科研计划,“超轻镁锂二元共晶合金的定向凝固”,201510-201809
宁波勋辉电器有限公司,“铜微通道材料的制备及液态金属散热技术开发”,201501-2017.12
国家自然科学基金(51371104),“定向凝固后脱合金制备微-纳双尺度复合多孔金属”,201401-201712
科技部国际合作项目,“定向凝固多孔金属微通道热沉技术的联合研发”,201304-201503
国家自然科学基金青年基金(51101092),“用于高热流密度散热的藕状规则多孔金属微通道热沉技术研究”,201201-201412
清华大学自主科研,“规则微-纳复合多孔金属的制备及其流动换热特性”,201007-201306
辽宁融达新材料科技有限公司,“定向凝固多孔金属材料制备及应用技术”,201012-201212
辽宁融达新材料科技有限公司,“大块泡沫铝批量生产技术”,201111-201212
中国空间技术研究院CAST创新基金,“基于藕状规则多孔结构的微通道散热技术”,201201-201212
国防科工局民用航天十二五预研项目,“基于藕状规则多孔结构的高热流密度散热技术”,201101-201312
国家自然科学基金-云南联合基金(U0837603),“多孔铜基材料结构控制及其力学和热学性能基础研究”,200901-201212
北京市自然科学基金(2092017),“藕状多孔Cu热沉材料的GASAR工艺制备及导热性能”,200901-201112
国家自然科学基金(50764061),“固/气共晶二维定向共生制备放射状规则多孔金属基础研究”,200701-200912
科技部重大基础研究973计划(2006CB601204子项),“藕状多孔金属消声材料的制备”,200611-200810
国家自然科学基金(50404002),“金属/气体定向共生制备藕状规则多孔金属的研究”,200501-200712
科技部重大基础研究973计划前期研究专项(2004CCA05100),“金属/气体定向共生制备藕状规则多孔金属的基础研究”,200501-200612
航天技术创新基金(03200310101),“金属/气体共晶定向凝固制备液体火箭发动机燃油喷注器”,200401-200512
教育部博士点基金(20020003086),“金属/气体共晶定向凝固理论研究”,200301-200512
发明专利
[1] 刘源, 卓伟佳, 张华伟, 李言祥. 藕状多孔金属的制备装置和制备方法. 中国发明专利, CN103898347A, 2016-7-6.
代表性论文
[1]Liu D, Zhang HW@, Li YX, Chen X, Liu Y. Effects of Composition and Growth Rate on the Microstructure Transformation of β-Rods / Lamellae / α-Rods in Directionally Solidified Mg-Li Alloy. Materials & Design, 2017, 119: 199-207. (SCI, EI)
[2]Du M1, Zhang HW1, Li YX, Liu Y, Chen X, He Y, Cheng Y. Fabrication of a Hierarchical Trimodal Structure with Nano-Cellular Cu2O, Nano-Porous Cu and Micro-Porous Gasar Cu. Materials Letters, 2016, 164: 583-586. (SCI, EI)
[3]Du M1, Zhang HW1, Li YX, Liu Y, Chen X, He Y. Synthesis of a Bimodal Porous Cu with Nanopores on the Inner Surface of Gasar Pores: Influences of Preparation Conditions. Applied Surface Science, 2016, 360: 148-156. (SCI, EI)
[4]Zhang HW, Li YX, Liu Y, Chen X, Chen LT, He Y, Du M. Heat Transfer Performance of Directional Solidified Gasar Cu Heat Sink. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain. Poster.
[5]Du M, Zhang HW, Li YX, Liu Y, Chen X, He Y. Fabrication and Wettability of Monolithic Bimodal Porous Cu with Gasar Macro-Pores and Dealloying Nano-Pores. Applied Surface Science, 2015, 353: 804-810. (SCI, EI)
[6]Du M, Zhang HW@, Li YX@, Liu Y, Chen X, He Y. Depositing and Alloying on the Inner Surface of Gasar Cu Pores by Plating and Annealing Treatment. Applied Surface Science, 2015, 342: 69-75. (SCI, EI)
[7]Liu Y, Zhang HW, Li YX. Effect of Melt Superheat on Structural Uniformity of Lotus-Type Porous Metals Prepared by Unidirectional Solidification. Transactions of Nonferrous Metals Society of China, 2015, 25(3): 1004-1010. (SCI, EI)
[8]Du M, Zhang HW, Li YX. Inner Surface Alloying on Pores of Lotus-Type Porous Copper through Electroless Plating with Supersonic Vibration and Annealing Treatment. Surface and Coatings Technology, 2015, 261: 1-6. (SCI, EI)
[9]陈刘涛, 张华伟, 刘源, 李言祥. 定向凝固多孔铜热沉传热性能的分段强化. 清华大学学报(自然科学版 ), 2014, 54(9): 1250-1254. (CSCD)
[10]Zhang XM, Zhang HW, Li YX. Hybrid Porous Metal of Nano-Micro Double Size and Regular-Random Bimodal. TMS 2014, 16-20 February 2014, San Diego, California, USA. Poster. EPD Congress 2014, 2014, : 367-374. (EI)
[11]Chen LT, Zhang HW, Liu Y, Li YX. Simulation on Heat Transfer Performance of Directionally Solidified Porous Copper Heat Sink. ICAMMS 2012 (International Conference on Advanced Material and Manufacturing Science), Dec. 20-21, 2012, Beijing, China. Advanced Materials Research, 2014, 875-877: 1095-1100. (ISTP, EI)
[12]Zhang HW, Chen LT, Liu Y, Li YX. Experimental Study on Heat Transfer Performance of Lotus-Type Porous Copper Heat Sink. International Journal of Heat and Mass Transfer, 2013, 56(1-2): 172-180. (SCI, EI)
[13]陈刘涛, 张华伟, 刘源, 李言祥. 定向凝固多孔Cu热沉传热性能的理论分析. 金属学报, 2012, 48(11): 1374-1380. (SCI, EI)
[14]陈刘涛, 张华伟, 刘源, 李言祥. 定向凝固多孔Cu热沉传热性能的实验研究. 金属学报, 2012, 48(3): 329-333. (SCI, EI)
[15]Tzamtzis S, Zhang HW, Xia MX, Babu N Hari, Fan ZY. Recycling of High Grade Die Casting AM Series Magnesium Scrap with the Melt Conditioned High Pressure Die Casting (MC-HPDC) Process. Materials Science and Engineering A, 2011, 528(6): 2664-2669. (SCI, EI)
[16]Liang SM, Zhang HW, Xia MX, Chen RS, Han EH, Fan ZY. Microstructure and Mechanical Properties of Melt-Conditioned High-Pressure Die-Cast Mg-Al-Ca Alloy. Transactions of Nonferrous Metals Society of China, 2010, 20(7): 1205-1211. (SCI, EI)
[17]Tzamtzis S, Zhang HW, Babu N Hari, Fan ZY. Microstructural Refinement of AZ91D Die-cast Alloy by Intensive Shearing. Materials Science and Engineering A, 2010, 527(12): 2929-2934. (SCI, EI)
[18]Tzamtzis S, Zhang HW, Liu GJ, Wang Y, Babu N Hari, Fan ZY. Melt Conditioned High Pressure Die Casting (MC-HPDC) of Mg-Alloys. In: EricNyberg, Sean Agnew, Neale Neelameggham, and Mihriban Pekguleryuz, eds. Magnesium Technology 2009, Proceedings of the 2009 TMS Annual Meeting & Exhibition. 15-19 February, 2009, San Francisco, USA: TMS (The Minerals, Metals & Materials Society), 2009, : 91-96.
[19]Patel JB, Zhang HW, Liu GJ, Fan ZY. Melt Conditioned High Pressure Die Casting (MC-HPDC) Process for High Quality Aluminium Components. In: Jürgen Hirsch, Birgit Skrotzki and Günter Gottstein, eds. Aluminium Alloys - Their Physical and Mechanical Properties, Proceedings of the 11th International Conference on Aluminium Alloys (ICAA11). 22-26 September, 2008, Aachen, Germany: DGM (Deutsche Gesellschaft für Materialkunde e.V.), 2008, : 510-516.
[20]Zhang HW, Cao LJ, Bian Z, I. Bayandorian, Fan ZY. Melt Conditioned Twin Roll Casting (MC-TRC) Process for Wrought Aluminium Alloy Strips. In: Jürgen Hirsch, Birgit Skrotzki and Günter Gottstein, eds. Aluminium Alloys - Their Physical and Mechanical Properties, Proceedings of the 11th International Conference on Aluminium Alloys (ICAA11). 22-26 September, 2008, Aachen, Germany: DGM (Deutsche Gesellschaft für Materialkunde e.V.), 2008, : 421-426.
[21]Li YX, Zhang HW, Liu Y. Directional Solidification of Metal-Gas Eutectics for Fabrication of Aligned Porous Metals. In: Lefebvre L P, Banhart J, Dunand D, eds. MetFoam 2007-Proceedings of the 5th International Conference on Porous Metals and Metallic Foams. 5-7 September, 2007, Montreal, Canada: DEStech Publications, Inc., 2008, : 209-212. (ISTP, EI)
[22]张华伟, 李言祥. 金属熔体中气泡形核的理论分析. 物理学报, 2007, 56(8): 544-551. (SCI, EI)
[23]张华伟, 李言祥, 刘源. 固/气共晶定向凝固中的工艺判据. 金属学报, 2007, 43(6): 589-594. (SCI, EI)
[24]张华伟, 李言祥, 刘源. 氢在Gasar工艺常用纯金属中的溶解度. 金属学报, 2007, 43(2): 113-118. (SCI, EI)
[25]张华伟, 李言祥, 刘源. Al-H系定向凝固制备多孔Al. 金属学报, 2007, 43(1): 11-16. (SCI, EI)
[26]张华伟, 李言祥, 刘源. Gasar 工艺获得均匀藕状多孔结构的气压选择. 金属学报, 2006, 42(11): 1171-1176. (SCI, EI)
[27]张华伟, 李言祥, 刘源. 藕状规则多孔Cu气孔率的理论预测. 金属学报, 2006, 42(11): 1165-1170. (SCI, EI)
[28]张华伟, 李言祥, 刘源. Gasar 工艺下难以制得藕状多孔Al的原因分析. 见: 中国材料研究学会, 编. 2006年材料科学与工程新进展. 北京: 化学工业出版社, 2007, : 572-576.
[29]Liu Y, Zhang HW, Chen X, Li YX. Directional Solidification of Metal-Gas Eutectic and Fabrication of Regular Porous Metals. China Foundry, 2005, 2(3): 184-187. (获2006 年中国机械工程学会铸造专业优秀论文银奖)
[30]张华伟, 李言祥, 刘源. Gasar 工艺中金属-氢二元相图的研究. 金属学报, 2005, 41(1): 55-59. (SCI, EI)
[31]刘源, 李言祥, 张华伟. 藕状多孔金属Mg的Gasar工艺制备. 金属学报, 2004, 40(11): 1121-1126. (SCI, EI)
[32]李言祥, 刘源, 张华伟. GASAR和Gasarite研究进展. 特种铸造及有色合金, 2004, 136(1): 9-11. (CSCD)