姓名:冉松林 |
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所在系所:无机非金属材料系 |
职称:教授,博士生导师 |
邮箱:ransonglin@ahut.edu.cn |
课题组主页: |
教育背景
2005.09~2008.06 中国科学院上海硅酸盐研究所,材料物理与化学专业,博士
2002.09~2005.06 中国地质大学(武汉),岩石学、矿物学、矿床学专业,硕士
1998.09~2002.06 中国地质大学(武汉),材料科学与工程专业,本科
工作履历
2010.09至今 永利y18886官方网站永利y18886官方网站,副教授(2011.01),破格教授(2014.12),三级教授(2021.01)
2008.08~2010.08 比利时荷语鲁汶大学(KULeuven)冶金与材料系,博士后
课程教学
耐火材料工艺学;无机材料制备技术;材料工程基础;无机非金属材料学
研究领域
先进结构陶瓷(粉体合成,SPS烧结技术,复相陶瓷);结构功能一体化复合材料(导电陶瓷);固体废弃物材料化利用
学术成果
主持国家自然科学基金3项,以第一或通讯作者发表SCI论文50余篇,以第一发明人获授权中国发明专利13项,美国发明专利1项。国家科技专家库专家,教育部学位中心评审专家,国家自然科学基金评审专家,安徽省、浙江省、陕西省、江西省科技奖励或科技项目评审专家。担任《陶瓷学报》、《稀有金属》等期刊青年编委,SCI期刊materials客座编辑(Guest Editor),多种学术期刊审稿人,获The American Ceramic Society期刊Outstanding Journal Reviewer,Ceramics International期刊Outstanding Contribution in Reviewing。指导学生获研究生国家奖学金(3人次)、校长奖学金、优秀硕士论文(2人次)、“互联网+”大学生创新创业大赛安徽省铜奖(2人次)、安徽优秀毕业生(3人次)、校研究生高水平论文评选特等奖等。毕业研究生去向包括清华大学(攻读博士)、东华大学(攻读博士)、巴塞罗那自治大学(国家公派出国留学攻读博士)、中国科学院上海硅酸盐研究所、中国科学院固体物理研究所、中国电科第十六研究所、马钢集团、柳钢集团、青岛特钢、格力集团等。
主持科研项目情况
[1] 国家自然科学基金面上项目(52072003)
[2] 国家自然科学基金联合项目(U1860102)
[3] 国家自然科学基金青年项目(51302002)
[4] 安徽高校协同创新项目(GXXT-2019-015)
[5] 安徽省自然科学基金青年项目(1308085QE73)
[6] 安徽省教育厅自然科学研究重点项目(KJ2012A044)
主持人才类项目情况
[1] 永利y18886官方网站“佳山学者”(2023)
[2] 江西省吉安市首批“双百计划”(2020)
[3] 永利y18886官方网站首批青年拔尖人才“青年学者”(2018)
[4] 安徽省高校优秀青年人才支持计划(2017)
[5] 人社部/厅留学人员科技活动资助(2012)
[6] 永利y18886官方网站青年教师科研基金(2011)
[7] 永利y18886官方网站高层次人才启动基金(2010)
代表性论文:
[1] Jun Zhao, Zheyu Fang, Xing Jin, Dong Wang*, Xiang Ding, Songlin Ran*. B4C‒TiB2 composite with modified microstructure and enhanced properties from optimal size coupling of raw powders, Journal of the American Ceramic Society, 2023, 106 (8): 4911-4920.
[2] Jun Zhao, Dong Wang, Xing Jin, Xiang Ding, Jianhua Zhu, Songlin Ran*. Highly electro-conductive B4C–TiB2 composites with three-dimensional interconnected intergranular TiB2 network, Journal of Advanced Ceramics, 2023, 12 (1): 182-195.
[3] Jianhua Zhu, Xiaojun Yue, Dong Wang, Xing Jin, Songlin Ran*. Integrated high strength and high toughness induced by elongated TiB2 grains in reactive sintered TiB2–TiC–SiC ceramics, Journal of the American Ceramic Society, 2023(106): 10-16.
[4] Chenjun Tang, Zheyu Fang, Dong Wang*, Xing Jin, Songlin Ran*. Comparison of TiB2–h-BN composites prepared by reactive and conventional spark plasma sintering, Ceramics International, 2023, 49 (14): 23091-23098.
[5] Xing Jin, Songlin Ran*, Zheyu Fang, Hongli Xu, Pengfei Xing*. Recycling the diamond-wire saw silicon powder for preparing the regulable Si3N4 materials by non-catalytic nitridation, Journal of Cleaner Production, 2022, 133656.
[6] Jun Zhao, Chenjun Tang, Qinggui Li, Zetan Liu, Songlin Ran*. B4C–TiB2 composites fabricated by hot pressing TiC–B mixtures: The effect of B excess, Ceramics International, 2022, 48:11981-11987.
[7] Tingting Wei, Zetan Liu, Donglou Ren, Xiangong Deng*, Qihuang Deng, Qing Huang, Songlin Ran*. Low temperature synthesis of TaB2 nanorods by molten-salt assisted borothermal reduction, Journal of the American Ceramic Society. 2018, 101: 45-49.
[8] Zetan Liu, Dewen Wang, Jiamao Li, Qing Huang*, Songlin Ran*. Densification of high-strength B4C–TiB2 composites fabricated by pulsed electric current sintering of TiC–B mixture, Scripta Materialia. 2017, 135: 15-18.
[9] Dewen Wang, Songlin Ran*, Lu Shen, Huifeng Sun, Qing Huang*. Fast synthesis of B4C–TiB2 composite powders by pulsed electric current heating TiC–B mixture, Journal of the European Ceramic Society. 2015, 35: 1107-1112.
[10] Dewen Wang, Lu Shen, Songlin Ran*, Qing Huang*. Transparent alumina fabricated by SPS sintering with AlF3 doping, Scripta Materialia. 2014, 92: 31-34.
[11] Songlin Ran*, Huifeng Sun, Ya'nan Wei, Dewen Wang, Niming Zhou, Qing Huang*. Low-temperature synthesis of nanocrystalline NbB2 powders by borothermal reduction in molten salt, Journal of the American Ceramic Society. 2014, 97: 3384-3387.
[12] Songlin Ran*, Huifeng Sun, Kim Vanmeensel, Shuigen Huang, Jef Vleugels. Influence of ZrH2 addition on pulsed electric current sintered ZrB2–SiC composites, Scripta Materialia. 2014, 77: 41-44.
[13] Songlin Ran*, Shuigen Huang, Omer Van der Biest, Jef Vleugels*. High-strength ZrB2-based ceramics prepared by reactive pulsed electric current sintering of ZrB2–ZrH2 powders, Journal of the European Ceramic Society. 2012, 32: 2537-2543.
[14] Songlin Ran, Omer Van der Biest, Jef Vleugels*. In situ platelet-toughened TiB2–SiC composites prepared by reactive pulsed electric current sintering, Scripta Materialia. 2011, 64: 1145-1148.
[15] Songlin Ran, Omer Van der Biest, Jef Vleugels*. ZrB2 powders synthesis by borothermal reduction, Journal of the American Ceramic Society. 2010, 93: 1586-1590.
[16] Songlin Ran, Omer Van der Biest, Jef Vleugels*. ZrB2‒SiC composites prepared by reactive pulsed electric current sintering, Journal of the European Ceramic Society. 2010, 30: 2633-2642.
[17] Songlin Ran, Li Zhang, Omer Van der Biest, Jef Vleugels*. Pulsed electric current, in situ synthesis and sintering of textured TiB2 ceramics, Journal of the European Ceramic Society. 2010, 30: 1043-1047.
[18] Songlin Ran, Lian Gao*. Spark plasma sintering of nanocrystalline niobium nitride powders, Journal of the American Ceramic Society. 2008, 91: 599-602.
[19] Songlin Ran, Lian Gao*. Synthesis of New Nanocrystalline Titanium-Niobium Oxynitride Powders, Journal of the American Ceramic Society. 2008, 91: 2378-2381.
[20] Songlin Ran, Lian Gao*. Electroconductive Al2O3–NbN composites, Journal of the American Ceramic Society. 2007, 90: 2626-2629.