张小立，女，甘肃人，中国国民党革命委员会会员，目前为中原工学院教授及复合材料学会教授级高工，硕士生导师，郑州市第九届巾帼科技带头人，国家公派美国Virginia Tech访问学者、国家公派高级研究学者，河南省高层次国际化人才、西安交通大学优秀博士后,一等博士后基金获得者，曾获部级科技进步二等奖，河南省科技进步三等奖等，是中国机械工程学会工程陶瓷专业委员会理事、复合材料学会会员 、河南省塑料协会会员，曾在清华大学、北京大学进行访问学者研究，郑州万达重工有限公司进行博士服务工作。

研究领域：

主要从事低成本制备包括低温烧结、反应熔渗、闪烧等及高温陶瓷复合材料、电池陶瓷等功能陶瓷、环境陶瓷材料等的研究与开发，目前主持完成省部级及横向课题11项，发表一作论文88篇、授权发明专利27项，出版独著1部，参编本科专业英语教材1部。

教育和工作经历：

2004/11-至今 中原工学院，材料与化工学院/材料电子与储能学院，教师，副教授，教授

2000/9-2004/11 西安交通大学，材料与工程学院，博士

1992/9-1995/03 东北大学，材料科学与工程系，硕士

1988/9-1992/06  兰州大学，材料科学系，理学学士

1989/9-1992/06  兰州大学，经济系，经济学双学士

主持科研项目：

近年来主持代表性的科研项目有：高温稳定强韧 Mo(Si,Al)₂-CBN 陶瓷基超硬复合材料的开发研究；2022年度河南省国际化人才资助项目，农林弃物能源化和陶瓷化利用；横向课题，复合材料性能研究；陶瓷基复合材料模具研发；辅助碳源增强MoSi₂-SiC复合材料的纳米强化机理；高性能MoSi₂-SiC-MoB三相复合陶瓷的研制；SiC制品的增韧途径等。

发表论文：

[1]. The preparation of in-situ MoSi₂-SiC-MoB three-phase composite completely eliminating the PEST phenomena.Materials Chemistry and PHYSICS, VOLUME 235,2019,121730, ISSN 0254-0584.

[2]. In-situ preparation of nano MoSi₂-SiC composite by melt infiltration of silicon method.Materials Chemistry and PHYSICS, VOLUME 200,2017, PAGES 287-294, ISSN 0254-0584.

[3]. ELECTRICAL RESISTIVITY AND MICROSTRUCTURE PREDICTION OF PRESSURELESS REACTIVE SINTERED MOSI₂-SIC COMPOSITE.Materials Chemistry and Physics.Volume 86, Issue 1,2004, PAGES 16-20, ISSN 0254-0584.

[4]. Effect of effective grain size and grain boundary of large misorientation on upper shelf energy in pipeline steels.J. WUHAN Univ. Technol.-Mat. Sci. Edit. 31, 606–610 (2016).

[5]. Applying Melt Infiltration Process In Preparing MO (SI, AL)₂-SiC Composite With High Bending Strength.Materials Technology, 2006,21:2, 88-90.

[6]. The Microstructures and Mechanical Properties of Molybdenum Disilicide Preforms Infiltrated by Aluminum.Key Engineering Materials, vol. 317–318, Trans Tech Publications, Ltd., Aug. 2006, pp. 331–334.

[7]. THE THERMAL STABILITY OF MO (AL, SI)₂ PHASE.Key Engineering Materials, vol. 280–283, Trans Tech Publications, Ltd., 15 Feb. 2007, pp. 1475–1478.

[8]. The Study on the Orderliness of Change of Microstructure and Mechanical Properties in Simulating the Heating Process of Bending of X80 Pipeline Steels.Advanced Materials Research, vol. 476–478, Trans Tech Publications, Ltd., Feb. 2012, pp. 174–178.

[9]. The influence of technical factor and ingredient design on crystallization behavior of MgO-SiO₂-Al₂O₃-B₂O₃-KF glass-CERAMICS.Advanced Materials Research, vol. 446–449, Trans Tech Publications, Ltd., Jan. 2012, pp. 1054–1058.

[10]. The Optimum Microstructure of Reheated X80 Bend Pipes.Advanced Materials Research, vol. 476–478, Trans Tech Publications, Ltd., Feb. 2012, pp. 179–182.

[11]. Preparation of High Strength MO (Si, Al)₂-SiC Composite by Melt Infiltration Process.Proceedings of the ASME 2009 Pressure Vessels and Piping Conference. Volume 6: Materials and Fabrication, Parts A and B. Prague, Czech Republic. July 26–30, 2009. pp. 1751-1754.

[12]. The Toughness Index of X80 Mother Linepipe Steel and Its Optimum Microstructure.Proceedings of the ASME 2008 Pressure Vessels and Piping Conference. Volume 1: Codes and Standards. Chicago, Illinois, USA. July 27–31, 2008. pp. 669-673.

[13]. The Researches on Toughness Index of Reheated High Grade Linepipe Bend Pipes.Proceedings of the ASME 2007 Pressure Vessels and Piping Conference. Volume 6: Materials and Fabrication. San Antonio, Texas, USA. July 22–26, 2007. pp. 671-676.

[14]. The Micro Structural Characteristic Parameters of HIGH-GRADE Pipeline Steel and its Mechanical Properties.Proceedings of the 2006 International Pipeline Conference. Volume 3: Materials and Joining; Pipeline Automation and Measurement; Risk and Reliability, Parts A and B. Calgary, Alberta, Canada. September 25–29, 2006. pp. 251-259.

[15]. The Micro Structural Characteristic Parameters of HIGH-GRADE Pipeline Steel and its Mechanical Properties.Proceedings of the 2006 International Pipeline Conference. Volume 3: Materials and Joining; Pipeline Automation and Measurement; Risk and Reliability, Parts A and B. Calgary, Alberta, Canada. September 25–29, 2006. pp. 251-259.

[16]. The preparation of silicon carbide and its corresponding properties for electronic packaging applications.Proc. SPIE 12553, Fourth International Conference on Optoelectronic Science and Materials (ICOSM 2022), 125530J (6 March 2023).

[17]. THE PREPARATION OF LI7LA3ZR2O12(LLZO) BATTERY CERAMIC AND ITS         CONDUCTIVITY.Journal of Physics: Conference Series, Volume 2079, 2021 International Conference on Materials Genetic Engineering and Information Science (MGEIS 2021) 3-5 September 2021, Beijing, China.

[18]. The process for preparing MX₂ (M=MO, W; X=SE, S) single crystal.Journal of Physics: Conference Series, Volume 2079, 2021 International Conference on Materials Genetic Engineering and Information Science (MGEIS 2021) 3-5 September 2021, Beijing, China.

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