Densification,microstructure,and fracture behavior of TiC/Si_3N_4 composites by spark plasma sintering 被引量：1

Densification,microstructure,and fracture behavior of TiC/Si_3N_4 composites by spark plasma sintering

下载PDF

导出

摘要 TiC/Si3N4 composites were prepared using the β-Si3N4 powder synthesized by self-propagating high-temperature synthesis （SHS） and 35 wt.% TiC by spark plasma sintering. Y2O3 and Al2O3 were added as sintering additives. The almost full sintered density and the highest fracture toughness （8.48 MPa·m1/2） values of Si3N4-based ceramics could be achieved at 1550℃. No interfacial interactions were noticeable between TiC and Si3N4. The toughening mechanisms in TiC/Si3N4 composites were attributed to crack deflection, microcrack toughening, and crack impedance by the periodic compressive stress in the Si3N4 matrix. However, increasing microcracks easily led to excessive connection of microcracks, which would not be beneficial to the strength. TiC/Si3N4 composites were prepared using the β-Si3N4 powder synthesized by self-propagating high-temperature synthesis （SHS） and 35 wt.% TiC by spark plasma sintering. Y2O3 and Al2O3 were added as sintering additives. The almost full sintered density and the highest fracture toughness （8.48 MPa·m1/2） values of Si3N4-based ceramics could be achieved at 1550℃. No interfacial interactions were noticeable between TiC and Si3N4. The toughening mechanisms in TiC/Si3N4 composites were attributed to crack deflection, microcrack toughening, and crack impedance by the periodic compressive stress in the Si3N4 matrix. However, increasing microcracks easily led to excessive connection of microcracks, which would not be beneficial to the strength.

作者 BAI Ling GE Changchun SHEN Weiping MAO Xiaodong ZHANG Ke

机构地区 Laboratory of Special Ceramics and Powder Metallurgy

出处《Rare Metals》 SCIE EI CAS CSCD 2008年第3期315-319,共5页 稀有金属（英文版）

关键词 silicon nitride titanium carbide spark plasma sintering （SPS） MICROSTRUCTURE fracture behavior silicon nitride titanium carbide spark plasma sintering （SPS） microstructure fracture behavior

分类号 O64 [理学—物理化学]

引文网络
相关文献

参考文献14

1Tokita M., Trends in advanced SPS spark plasma sintering systems and technology, J. Soc. Powder Technol. Jpn., 1993, 30: 790.
2Chen W., Anselmi-Tamburini U., Garay J.E., Groza J.R., and Munir Z.A., Fundamental investigations on the spark plasma sintering/synthesis process Ⅰ. Effect of dc pulsing on reactivity, Mater. Sci. Eng. A, 2005, 394: 132.
3Anselmi-Tamburini U., Garay J.E., and Munir Z.A., Fundamental investigations on the spark plasma sintering/synthesis process Ⅲ. Current effect on reactivity, Mater. Sci. Eng. A, 2005, 407: 24.
4Wan J.W. and Duan R.G., Mukherjee A.K., Spark plasma sintering of silicon nitride/ silicon carbide nanocomposites with reduced additive amounts, Scripta. Mater., 2005, 53: 663.
5Gao L., Hong J.S., Miyamoto H., and Torre S.D.D.L., Bending strength and microstructure of Al2O3 ceramics densified by spark plasma sintering, J. Eur. Ceram. Soc., 2000, 20: 2149.
6Shen Z.J., Zhao Z., Peng H., Nygren M., Formation of tough interlocking microstructures in silicon nitride ceramics by dynamic ripening, Nature, 2002, 417: 266.
7Zhou F. and Li Z.Z., TiC particle reinforced silicon nitride composite joined with Y2O3-Al2O3-SiO2 mixture, J. Wuhan Univ. Technol. Mater. Sci. Ed., 2001, 16: 13.
8Zhao J., Ai X., and Lu Z.J., Preparation and characterization of Si3N4/TiC nanocomposite ceramics, Mater. Lett., 2006, 60: 2810.
9Ge C.C., Li J.T., and Xia Y.L., On the mechanism of self-propagating high-temperature synthesis (SHS) of Si3N4, Int. J. SHS, 1996, 5: 107.
10Peillo F.C. and Thevenot F., Microstructural designing of silicon nitride related to toughness, J. Eur. Ceram. Soc., 2002, 22: 271.

同被引文献1

1张玲,林德松.我国稀有金属资源现状分析[J].地质与勘探,2004,40(1):26-30. 被引量：43

引证文献1

1MA Beiyue YU Jingkun.Influence of processing parameters on the phase composition of ZrN-Si_3N_4 synthesized from zircon[J].Rare Metals,2009,28(4):367-371. 被引量：10

二级引证文献10

1YU Renhong FU Yadong ZHANG Mengmeng WANG Lizhi HONG Quanquan ZHANG Ruohua.Effects of Technological Parameters on Carbothermal Reduction and Nitridation of Zircon[J].China's Refractories,2011,20(1):6-10. 被引量：3
2马北越,厉英,崔绍刚,翟玉春.Preparation and sintering properties of zirconia-mullite-corundum composites using fly ash and zircon[J].Transactions of Nonferrous Metals Society of China,2010,20(12):2331-2335. 被引量：17
3张萌萌,于仁红,周宁生.工艺参数对锆英石碳热还原氮化反应速率及物相组成的影响[J].耐火材料,2011,45(5):350-352. 被引量：2
4马北越,孙明刚,丁玉石,闫晨,厉英.Fabrication of β-Sialon/ZrN/ZrON composites using fly ash and zircon[J].Transactions of Nonferrous Metals Society of China,2013,23(9):2638-2643. 被引量：6
5于仁红,周宁生,张菲菲.Zr-Si-C-N-O系复相材料的制备及热力学分析（英文）[J].稀有金属材料与工程,2014,43(2):301-305. 被引量：1
6马北越,厉英,卢忠鑫,于景坤.常压烧结制备ZrN(ZrON)-SiAlON复合陶瓷[J].耐火材料,2014,48(3):166-169. 被引量：5
7MA Beiyue,LI Ying,LU Zhongxin,YU Jingkun.Preparation of ZrN(ZrON)-SiAION Composite Ceramics via a Pressureless Sintering Process[J].China's Refractories,2014,23(4):45-48. 被引量：2
8郭伟明,古尚贤,苏国康,李景曦,林华泰,伍尚华.导电Si_3N_4基复相陶瓷研究进展[J].现代技术陶瓷,2016,37(2):94-106. 被引量：4
9高陟,马北越,任鑫明,于景坤.锆英石制备非氧化物复合材料新进展[J].耐火材料,2020,54(2):177-181. 被引量：2
10唐艳东,马北越.氮化硅陶瓷烧结致密化的研究进展[J].耐火与石灰,2021,46(5):35-38. 被引量：3

1LIU Xiangqing LIN Tao Shao Huiping GUO Zhimeng LUO Ji HAO Junjie.Consolidation and properties of ultrafine binderless cemented carbide by spark plasma sintering[J].Rare Metals,2008,27(3):320-323. 被引量：2
2杨梅君.Synthesis and Sintering of Mg_2Si Thermoelectric Generator by Spark Plasma Sintering[J].Journal of Wuhan University of Technology(Materials Science),2008,23(6):870-873. 被引量：2
3Wang Chenggang Zhao Qinsheng (Department of Nonferrous Metallurgy, Central South University of Technology,Changsha 410083, China).STUDY ON DENSIFICATION OF CHEMICAL MANGANESE DIOXIDE FOR BATTERIES[J].Journal of Central South University,1998,10(2):20-22.
4Hao WANG,T.S.YEN,Hanrui ZHUANG and Weiying SUN (State Key Lab. on High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics,Chinese Academy of Sciences, Shanghai, 200050, China).Densification and Sintering Kinetics of Rare Earth(α′+β′)-Sialon Composites[J].Journal of Materials Science & Technology,1995,11(2):137-140.
5Cheng ZHANG,Danyu JIANG,Qiang LI and Weiying SUN (Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China).Densification and Microstructure of β-sialon/Nano-size SiC Composites[J].Journal of Materials Science & Technology,1997,13(4):339-341.
6李劼,张刚,赖延清,张勇,田忠良.Densification and sintering dynamics of 10NiO-NiFe_2O_4 composites doped with CaO[J].Journal of Central South University of Technology,2007,14(5):629-632. 被引量：4
7Jafar Mirazimi,Parvin Abachi,Kazem Purazrang.Spark Plasma Sintering of Ultrafine YSZ Reinforced Cu Matrix Functionally Graded Composite[J].Acta Metallurgica Sinica(English Letters),2016,29(12):1169-1176.
8宋晓艳,贺将韬,周媛媛,刘泉宏.纳米晶Li_7Si_3合金的制备与性能表征[J].北京工业大学学报,2014,40(9):1432-1435. 被引量：1
9李良超,仇海珍,王育萍,蒋静,徐烽.Preparation and magnetic properties of Cu_(0.4)Zn_(0.6)Cr_(0.5)Sm_(0.06)Fe_(1.44)O_4/ polyaniline nanocomposites[J].Journal of Rare Earths,2008,26(4):558-562.
10Kiranmala Laishram,Rekha Mann,Neelam Malhan.Microwave gel combustion synthesis and sinterability of Nd:GGG nanopowders[J].Journal of Rare Earths,2014,32(6):521-525. 被引量：1

Rare Metals

2008年第3期

浏览历史

内容加载中请稍等...

Densification,microstructure,and fracture behavior of TiC/Si_3N_4 composites by spark plasma sintering 被引量：1

参考文献14

同被引文献1

引证文献1

二级引证文献10

相关作者

相关机构

相关主题

浏览历史