材料科学与工程学院教师(叶国田教授)

2017年05月22日 16:10

教师信息(叶国田教授)

个人概况:

    名:叶国田

    别:男


出生年月:195811

从事专业:耐火材料

最高学历:博士

    称:教授

社会兼职:《耐火材料》编委、《China’s Refractories》编委

联系方式:0371-67739225 (o); 18638018633; gtye@zzu.edu.cn;

gtyezzu@qq.com

通信地址:河南郑州科学大道100号郑州大学材料馆314

个人简历:

1978.01 - 1982.02   武汉钢铁学院化学工程系,获学士学位

1982.02 - 1985.04   武汉钢铁学院材料工程系/洛阳耐火材料研究院,获硕士学位

2001.05– 2005.08  University of British Columbia  材料工程系,获博士学位

1985.04 - 1987.12   武汉钢铁学院材料工程系, 助教

1988.01 –2001.05  洛阳理工学院材料系,讲师、副教授、教授

1993.10 - 1994.10   英国Hepworth Refractories技术中心,访问学者

1997.11 - 1998.11   新加坡 National University of Singapore, 访问学者

2005.09 - 2007.04   University of British Columbia 材料工程系,博士后,研究员

2007.05 - 2007.08   加拿大MIV Therapeutics,研究工程师

2007.08 –          郑州大学材料科学与工程学院,教授

教学情况

先后承担材料科学与工程基础无机材料热力学、“耐火材料工艺学”的讲授

科研领域

铝酸盐水泥的水化、CACHA结合浇注料的结构与性能、不水化镁钙砂的物相和性能、低维隔热材料的组成和结构、浇注料在管道输送中的流变行为、

1)      参加国家自然科学基金联合基金重点项目“低阶煤气化用关键耐火材料的损毁机理及组成、结构和性能调控研究”(U16042522017.01-2020.12

2)      主持承担国家自然科学基金项目“浇注料在管道输送过程中柱塞流和润滑层稳定性的研究”(515722442016.01-2019.12

3)      主持承担国家自然科学基金项目“硅溶胶结合浇注料在养护过程中溶胶粒子间键变化的研究”(513722302014.01-2017.12

4)      承担科技部国际科技合作项目(郑州大学项目负责人)“低维超微孔隔热耐火材料的联合开发”(2010DFB503502010.05.-2012.4.

5)      主持承担国家高技术研究发展计划(863计划)课题“低维隔热耐火材料” 2009AA0325032009.5-2011.12.

6)      主持承担国家自然科学基金项目“复合氧化物前驱物在机械活化过程中键重组的研究”(508721252009.1-2011.12

研究梯队:朱玲玲博士、陈留刚博士

发表的部分代表性论文:

1)      Xuejun Shang, Guotian Ye, Pengtao Zhai, Qingfeng Wang, Chuanyin Zhang, Hydration Behavior of Calcium Alumina Cements with Different Amounts of Impurities”,Interceram, 2016, 65(6-7) 250-254.

2)      Xuejun Shang, Guotian Ye, Yaqian Zhang, Huanhuan Li, Dan Hou, “Effect of micro-sized alumina powder on the hydration products of calcium aluminate cement at 40°C”, Ceramics International, 42 (2016), pp. 14391-14394

3)      Zhang Chuanyin, Ye Guotian, Shang Xuejun, Zhai Pengtao, Li Hongxia, Chen Liugang, “Effect of B2O3 on Hydration Behavior of Calcium Aluminate Cement”, J. of Chinese Ceram. Society, 2016, 44 (8) 1161-1165.

4)      C. Zhang, Y. Wang, B. Guo, X. Shang, Q. Wang, G. Ye, “Effect of Particle Size Distribution on the Hydration Behavior of Calcium Aluminate Cements”, Refractories Worldforum, 2016, 8(1):75-78.

5)      Liugang Chen, Guotian Ye, Wenhui Zhou, Jan Dijkmans, Bert Sels, Annelies Malfliet, Muxing Guo “Influence of MgO precursors on mechanically activated forsterite synthesis”, Ceramics International, 201541 [10] 12651-12657 ISSN0272-8842

6)      L. Chen, G. Ye, A. Malfliet, J. Dijkmans, B. Sels, B. Blanpain, M. Guo, “Mg-O-Si Chemical Bond Formation in Light Burned Magnesia and Fumed Silica Mixture During Mechanical Activation”,  Interceram,  64[3] 90-93 (2015).

7)      Qingfeng Wang, Guotian Ye, Yajuan Wang, Anping Fu, Chuanyin Zhang, Xuejun Shang, Effect of micro-sized calcium carbonate addition on volumetric stability and strength of corundum-based castables, Int. J. Appl. Ceram. Technol., 12 [S2] E166–E171 (2015).

8)      Liugang Chen, Guotian Ye, Qingfeng Wang, Bart Blanpain, Annelies Malfliet, Muxing Guo “Low temperature synthesis of forsterite from hydromagnesite and fumed silica mixture”, Ceramics International, 41 [2] (2015) 2234-2239.

9)      Liugang Chen, Guotian Ye, Kunpeng Li, Qingfeng Wang, Dayan Xu, Muxing Guo, “Al–O–Si chemical bond formation in boehmite-fumed silica mixture during mechanochemical activation”, Interceram, 2014, 63 (7)372-375.

10)  Qingfeng Wang, Guotian Ye, Chuanyin Zhang, Lingling Zhu, Xiujuan Song and Juan Ma. Chemical bonding and interlocking between hydratable alumina and microsilica after drying at 110°C and firing at 800°C. J Mater Sci., 2014, 49 (9): 3331-3336.

11)  Liugang Chen, Guotian Ye, Dayan Xu, Lingling Zhu, Zhanling Lu, Lin Dong, Ying Liu, “Chemical bond change of gibbsite and fumed silica mixture during mechanical activation”, Materials Letters 85 (2012) 91–94.

12)  Guotian Ye, Junli Shang, Dongrui Zhang, Min Liang, Yaosheng Chen, “Synthesis and Oxidation Behavior of MgAlON Prepared from Different Starting Materials”, J. Am. Ceram. Soc., 93 [2] 322-325 (2010).

13)  G. Ye and T. Troczynski, “Hydroxyapatite Coatings by Pulsed Ultrasonic Spray Pyrolysis”, Ceramics International, 34, 511-516 (2008).

14)  G. Ye and T. Troczynski, “Mechanochemical Activation Assisted Low Temperature Synthesis of CaZrO3”, J. Am. Ceram. Soc., 90 [1]287-290 (2007).

15)  G. Ye and T. Troczynski, “Hydration of Hydratable Alumina in the Presence of Various Forms of MgO”, Ceramics International, 32, 257-262 (2006).

16)  G. Ye, G. Oprea and T. Troczynski, “Synthesis of MgAl2O4 Spinel Powder by Combination of Sol-Gel and Precipitation Processes”, J. Am. Ceram. Soc., 88, 3241-3244 (2005).

17)  G. Ye and T. Troczynski, “Mechanical Activation of a Heterogeneous Sol-Gel Precursor for Synthesis of MgAl2O4 Spinel”, J. Am. Ceram. Soc., 88, 2970-2974 (2005).

18)  G. Ye and T. Troczynski, “Effect of magnesia on strength of hydratable alumina-bonded castable refractories”, Journal of Materials Science, 40, 3921-3926 (2005).