Spark Plasma Sintering Properties of Ultrafine Ti(C,N)-based Cermet 被引量：2

Spark Plasma Sintering Properties of Ultrafine Ti(C,N)-based Cermet

下载PDF

导出

摘要 Ultrafine Ti(C,N)-based cermet was sintered by SPS from 1050℃ to 1450℃ and its sintering properties,such as porosity,mechanical properties and phase transformation,were investigated by optical microscopy (OM),scanning electron microscopy (SEM),X-ray diffraction (XRD),and differential scanning calorimeter (DSC).It is found that the spark plasma sintering properties of Ti(C,N)-based cermet differ from those of conventional vacuum sintering.The liquid phase appearance is at least lower by 150℃ than that in vacuum sintering.The porosity decreases sharply below 1 200℃ and reaches minimum at 1 200℃,and afterwards it almost keeps invariable and no longer increases.SPS remarkably accelerates the phase transformation of Ti(C,N)-based cermet and it has a powerful ability to remove oxides in Ti(C,N)-based cermets.Above 1 350℃,denitrification occurred.Fresh graphite phase formed above 1 430℃.Both the porosity and graphite are responsible for the poor TRS. Ultrafine Ti(C,N)-based cermet was sintered by SPS from 1050℃ to 1450℃ and its sintering properties,such as porosity,mechanical properties and phase transformation,were investigated by optical microscopy (OM),scanning electron microscopy (SEM),X-ray diffraction (XRD),and differential scanning calorimeter (DSC).It is found that the spark plasma sintering properties of Ti(C,N)-based cermet differ from those of conventional vacuum sintering.The liquid phase appearance is at least lower by 150℃ than that in vacuum sintering.The porosity decreases sharply below 1 200℃ and reaches minimum at 1 200℃,and afterwards it almost keeps invariable and no longer increases.SPS remarkably accelerates the phase transformation of Ti(C,N)-based cermet and it has a powerful ability to remove oxides in Ti(C,N)-based cermets.Above 1 350℃,denitrification occurred.Fresh graphite phase formed above 1 430℃.Both the porosity and graphite are responsible for the poor TRS.

作者丰平

机构地区 Huazhong University of Science and Technology

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2004年第1期69-72,共4页 武汉理工大学学报（材料科学英文版）

基金 FundedbytheNationalNaturalScienceFoundationofChi na (No .5 0 0 74 0 17)andStateKeyLaboratoryofAdvancedTechnol ogyforMaterialsSynthesisandProcessingofWuhanUniversityofTechnology

关键词 Ti(C N)-based cermets ultrafine cermet spark plasma sintering (SPS) SINTERABILITY densification deoxidation denitrification Ti(C,N)-based cermets ultrafine cermet spark plasma sintering (SPS) sinterability densification deoxidation denitrification

分类号 TG148 [金属学及工艺—金属材料]

引文网络
相关文献

参考文献1

1高濂,宫本大树.放电等离子烧结技术[J].无机材料学报,1997,12(2):129-133. 被引量：117

二级参考文献1

1T. Nishimura,M. Mitomo,H. Hirotsuru,M. Kawahara. Fabrication of silicon nitride nano-ceramics by spark plasma sintering[J] 1995,Journal of Materials Science Letters(15):1046～1047

共引文献116

1周敬,沈强,罗国强,张联盟.Mg-W复合材料的SPS制备及其力学性能[J].武汉理工大学学报,2008,30(4):5-8. 被引量：1
2张利民,张波萍,李敬锋,张海龙,王轲.Na0.5K0.5NbO3无铅压电陶瓷放电等离子烧结的制备工艺[J].稀有金属材料与工程,2005,34(z2):994-997. 被引量：5
3姜子晗,汪涛.SPS制备ZrB_2基超高温陶瓷的研究进展[J].航空精密制造技术,2011,47(2):34-37. 被引量：2
4陈艳林,梅炳初.Al对等离子放电烧结法合成Ti_3SiC_2的影响研究[J].现代技术陶瓷,2004,25(2):9-12. 被引量：2
5沈彩,刘庆峰,刘茜.脉冲电流烧结掺杂Ba_(0.5)Sr_(0.5)TiO_3陶瓷介电性能的研究[J].无机材料学报,2004,19(6):1339-1344.
6JIAChengchang LIZhigang HEYuntao QUXuanhui.Spark plasma sintering on mechanically activated W-Cu powders[J].Rare Metals,2004,23(3):269-273. 被引量：7
7齐艳华,刘宝昌.孕镶金刚石复合材料用纳米级胎体粉末的脉冲电流烧结试验[J].世界地质,2005,24(1):97-101.
8樊希安,杨君友,陈柔刚,朱文,鲍思前.等离子体活化烧结在热电材料制备中的应用[J].新技术新工艺,2005(6):58-60.
9杜大明,李养良,李永志,宋士华.放电等离子烧结Si_3N_4陶瓷[J].佛山陶瓷,2005,15(6):7-10. 被引量：4
10艾桃桃,于成龙.无机生物涂层材料研究进展及应用[J].陶瓷,2005(11):38-43. 被引量：6

同被引文献18

1王洪涛,熊惟皓.细晶粒Ti(C,N)基金属陶瓷制备技术与性能[J].硬质合金,2005,22(4):241-244. 被引量：8
2王洪涛,熊惟皓.Ti(C,N)基金属陶瓷合金成分与性能研究进展[J].粉末冶金工业,2006,16(4):36-41. 被引量：11
3丁燕鸿,刘建文.SiC晶须增韧Ti(C,N)基金属陶瓷复合材料的研究[J].粉末冶金技术,2007,25(4):256-258. 被引量：8
4杨天恩,熊计,郭智兴,陈建中,熊素建.Ti(C,N)基金属陶瓷芯/环结构的研究进展[J].硬质合金,2010,27(1):55-64. 被引量：19
5贺从训,夏志华,汪有明,赵伯琅,唐群,毛昌辉,余明.Ti(C,N)基金属陶瓷的研究[J].稀有金属,1999,23(1):4-12. 被引量：43
6王艳坤.HSC Chemistry软件在高校化学科研中的应用[J].河南教育学院学报（自然科学版）,2013,22(2):28-30. 被引量：19
7孙万昌,佘晓林,张磊,李攀,侯冠群,张佩.Ti(C,N)基金属陶瓷材料的强韧化研究进展[J].热加工工艺,2014,43(18):17-20. 被引量：16
8吴文鸿,李玉新,白培康,吴文鹏.Ti(C,N)基金属陶瓷复合材料的研究进展[J].热加工工艺,2016,45(6):12-13. 被引量：8
9吴悦梅,周黎明,熊计,叶俊镠,文斌.WC和Mo_2C的添加对Ti(C,N)基金属陶瓷高温显微硬度的影响[J].机械工程材料,2017,41(7):24-28. 被引量：6
10叶旋,涂华锦,钟燕辉,何政浩.金属陶瓷粘结剂的研究进展[J].热加工工艺,2017,46(24):14-19. 被引量：3

引证文献2

1岳洋,杜勇,吕健,刘宜强,谭凯铭,李亚军,王忠华.Ti(C,N)-TaC-Ni金属陶瓷真空烧结过程的微观结构演变与性能的研究[J].硬质合金,2022,39(1):1-11.
2黄梓键,罗展鹏,张展,张岩,郭伟明,林华泰.Ni-Mo黏结剂含量对放电等离子烧结TiC_(0.7)N_(0.3)基金属陶瓷力学性能的影响[J].机械工程材料,2022,46(8):105-108.

1刘宁,周凤云,胡镇华,崔昆.Ti(C,N)基金属陶瓷中η相的组织研究[J].硬质合金,1996,13(3):138-141. 被引量：4
2熊惟皓.Ti（C，N）基金属陶瓷相界面结合机理的研究[J].华中理工大学学报,1995,23(12):28-32. 被引量：8
3熊惟皓,周凤云,李国安,崔.粉末粒度对Ti（C，N）基金属陶瓷组织与性能的影响[J].华中理工大学学报,1995,23(12):37-41. 被引量：19
4N.Saheb,A.S.Hakeem,A.Khalil,N.Al-Aqeeli,T.Laoui.Synthesis and spark plasma sintering of Al-Mg-Zr alloys[J].Journal of Central South University,2013,20(1):7-14. 被引量：2
5刘宁.Ti（C，N）基金属陶瓷的疲劳裂纹扩展速率[J].华中理工大学学报,1995,23(12):33-36. 被引量：1
6S.Q. Zhou,W. Zhao,W.H. Xiong,Y.N. Zhou.EFFECT OF Mo AND Mo_2C ON THE MICROSTRUCTURE AND PROPERTIES OF THE CERMETS BASED ON Ti(C,N)[J].Acta Metallurgica Sinica(English Letters),2008,21(3):211-219. 被引量：12
7LI ErDong SONG XiaoYan ZHANG JiuXing LU NianDuan.Preparation and mechanism study of bulk pure rare-earth metals with amorphous and nanocrystalline structures[J].Chinese Science Bulletin,2007,52(3):418-422. 被引量：1
8Liu, N,Hu, ZH,Cui, K,Liu, CL.MECHANICAL PROPERTIES AND MICROSTRUCTURES OF Ti(C,N) BASED CERMETS[J].中国有色金属学会会刊：英文版,1996,6(4):117-121. 被引量：1
9王赛玉,熊惟皓.Microstructure and mechanical properties of Ti(C, N)-based cermets with different molybdenum contents[J].中国有色金属学会会刊：英文版,2005,15(S3):148-152.
10WANG Xingqing,XIE Yingfang,GUO Hailiang,O.Van der Biest,J.Vleugels.Sintering of WC-Co powder with nanocrystalline WC by spark plasma sintering[J].Rare Metals,2006,25(3):246-252. 被引量：7

Journal of Wuhan University of Technology(Materials Science)

2004年第1期

浏览历史

内容加载中请稍等...