SiC Components via SLS Combined with Reaction Sintering

China Mechanical Engineering

Previous Articles Next Articles

SiC Components via SLS Combined with Reaction Sintering

FU Minhui1;LIU Kai2;LIU Jie1;TAN Yuanliang2

1.State Key Laboratory of Materials Processing and Die & Mould Technology,Huazhong University of Science and Technology,Wuhan,430074
2.School of Materials Science and Engineering,Wuhan University of Technology,Wuhan,430070

Online:2018-09-10 Published:2018-09-04
Supported by:
National Science and Technology Major Project No. 2013ZX02104001－002）

碳化硅零件的激光选区烧结及反应烧结工艺

付旻慧1;刘凯2;刘洁1;谭沅良

1.华中科技大学材料成形及模具技术国家重点实验室,武汉,430074
2.武汉理工大学材料科学与工程学院,武汉,430070

基金资助:
国家科技重大专项（2013ZX02104001－002）
National Science and Technology Major Project No. 2013ZX02104001－002）

Abstract

Abstract: In order to obtain high density, high performance, complex structures of SiC ceramic parts, a mechanical mixing method was proposed to prepare the SiC composite powder which contained phenolic resin binder and curing agent urotropine. The composite powders in SLS formed the ceramic billets, and the ceramic billet sintering atmosphere and siliconizing processing, making it react with matrix sintering, eventually forming a complex ceramic profiled. When the laser power, scanning velocity, scanning spacing, layer thickness are 8 W, 2 000 mm/s,0.1 mm,0.15 mm respectively, the SLS parts have the highest relative density and strength. SLS specimen were degreased and high temperature siliconizing processed reasonably, the bending strength of SiC ceramics sintered parts reached 81 MPa,and the relative density is greater than 86% after high temperature siliconizing process.

Key words: selective laser sintering（SLS）, silicon carbide（SiC）, phenolic resin, reaction sintering

摘要： 为了获得高密度、高性能、复杂结构的碳化硅陶瓷件,提出采用机械混合法制备含有黏结剂和乌洛托品固化剂的碳化硅复合粉体,对复合粉体进行激光选区烧结（SLS）形成陶瓷素坯,并对素坯进行气氛烧结和渗硅处理,使其与基体发生反应烧结,最终形成复杂陶瓷异形件。实验证明：若激光功率为8.0 W、扫描速率为2 000 mm/s、扫描间距为0.1 mm、单层厚度为0.15 mm,获得的 SLS 陶瓷样品密度和强度最好。对SLS试样进行合理的中温碳化和高温渗硅,所得碳化硅陶瓷烧结体的抗弯强度最高可达 81 MPa,相对密度大于86%。

关键词: 激光选区烧结, 碳化硅, 酚醛树脂, 反应烧结

CLC Number:

TQ174.75

FU Minhui1;LIU Kai2;LIU Jie1;TAN Yuanliang2. SiC Components via SLS Combined with Reaction Sintering[J]. China Mechanical Engineering.

付旻慧1;刘凯2;刘洁1;谭沅良. 碳化硅零件的激光选区烧结及反应烧结工艺[J]. 中国机械工程.

References

[1]史玉升, 程迪, 刘锦辉, 等. 选择性激光烧结 Al2O3/SiO2复相陶瓷零件性能的研究[J]. 华中科技大学学报（自然科学版）, 2007, 35（11）： 20-23.
SHI Yusheng, CHENG Di, LIU Jinhui. Al2O3/SiO2 Composite Ceramic Parts by Selective Laser Sintering[J]. Journal of Huazhong University of Science and Technology（Nature Science Edition）, 2007, 35（11）： 20-23.
[2]NASLAIN R. Design, Preparation and Properties of Non-oxide CMCs for Application in Engines and Nuclear Reactors： an Overview[J]. Compos. Sci. Technol., 2004, 64（2）： 155-170.
[3]GUO D, LI L, CAI K, et al. Rapid Prototyping of Piezoelectric Ceramics via Selective Laser Sintering and Gel-casting[J]. Journal of the American Ceramic Society, 2004, 87： 17-22.
[4]佘继红, 江东亮. 碳化硅陶瓷的发展与应用[J]. 陶瓷工程, 1998（3）： 3-11.
SHE Jihong, JIANG Dongliang. Development and Application of Silicon Carbide Ceramics[J]. Ceramics Engineering, 1998（3）： 3-11.
[5]刘秀梅, 徐志锋, 余欢. 颗粒尺寸及组合对SLS碳化硅预制体精度的影响[J]. 中国机械工程, 2013, 24（13）： 1826-1830.
LIU Xiumei, XU Zhifeng, YU Huan. Influences of Particle Size and Combination on Forming Accuracy of SLS Silicon Carbide Preforms[J].China Mechanical Engineering, 2013, 24（13）： 1826-1830.
[6]FRIEDEL T. Fabrication of Polymer Derived Ceramic Parts by Selective Laser Curing[J]. Journal of the European Ceramic Society, 2005, 25： 193-197.
[7]YAN C, SHI Y, YANG J, et al. Preparation and Selective Laser Sintering of Nylon-12 Coated Metal Powders and Post Processing[J]. Journal of Materials Processing Technology, 2009, 209： 5785-5792.
[8]HO H, GIBSON I, CHEUNG W L. Effects of Energy Density on Morphology and Properties of Selective Laser Sintered Polycarbonate[J]. Journal of Materials Processing Technology, 1999, 89/90（99）： 204-210.
[9]徐大鹏, 周建忠, 郭华荣, 等. 覆膜陶瓷粉末的选择性激光烧结工艺研究及参数优化[J]. 航空精密制造技术, 2006, 42（6）： 33-35.
XU Dapeng, ZHOU Jianzhong, GUO Huarong. Study of Selective Laser Sintering Technology of Polymer-coated Ceramic Powder and theoptimization of Processing Parameters[J]. Aviation Precision Manufacturing Technology,2006,42（6）：33-35．
[10]邓明进. 高性能反应烧结碳化硅陶瓷材料制备及其性能研究[D].武汉：武汉理工大学, 2010.
DENG Mingjin. Study on Pre-paration and Pro-perties of High Performance Reaetion Bonded SiC Ceramics[D]. Wuhan：Wuhan University of Technology, 2010.
[11]武七德, 鄢永高,赵修建,等. 纯碳坯渗硅制备反应烧结碳化硅的研究[J]. 武汉理工大学学报, 2003, 25（6）： 1-3.
WU Qide,YAN Yongbo,ZHAO Xiujian,et al. Research on the Sintering of Reaction Bonded Silicon Carbide with Pure Carbonaceous Preform[J]. Journal of Wuhan University of Technology, 2003, 25（6）： 1-3.
[12]魏明坤, 张广军,张丽鹏,等. 渗硅碳化硅材料结构与性能关系的研究[J]. 硅酸盐学报, 2002, 30（2）： 254-257.
WEI Mingkun, ZHANG Guangjun,ZHANG Lipeng,et al. Study on the Structure and Properties of Meli-infiltrated Silicon Carbide[J]. Journal of the Chinese Ceramic Society,2002,30（2）：254-257.
[13]LIM C, ISEKI T. Strength Variations of Reaction-sintered SiC Heterogeneously containing fine-grained/β-SiC[J]. J. Materials Science, 1988, 23： 3248-3253.
[14]CHAKRABARTI O P,DAS P K, MUKERJI J. Growth of SiC Particles in Reaction Sintered SiC[J]. Materials Chemistry and Physics, 2001, 67： 199-202.

SiC Components via SLS Combined with Reaction Sintering

碳化硅零件的激光选区烧结及反应烧结工艺

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 6

Recommended Articles

Metrics

[1]	LIN Kesheng;LIU Jie;ZHANG Yuanling;YAN Chunze. Study on Process Optimization and Properties of PLA/HA Composites by SLS [J]. China Mechanical Engineering, 2020, 31(19): 2355-2362，2370.
[2]	FU Hua;ZHU Wei;ZHENG Shenwei;YAN Chunze. Effects of Load on Friction and Wear Properties of Cf/SiC Composites Prepared by SLS [J]. China Mechanical Engineering, 2019, 30(21): 2604-2610.
[3]	Peng Wei1;Guan Jiju1,2;Huang Yishen1;Li Wei1;Xu Xuefeng1. Self-lubricating Performance of Phenolic Resin Bond Abrasive Tools Filled with Inclusion Complex of β-CD and Oleic Acid [J]. China Mechanical Engineering, 2014, 25(13): 1766-1772.
[4]	LIU Xiu-Mei-1, 2, XU Zhi-Feng-1, TU Huan-1. Influences of Particle Size and Combination on Forming Accuracy of SLS Silicon Carbide Preforms [J]. China Mechanical Engineering, 2013, 24(13): 1826-1830.
[5]	SONG Shou-Hu, HU Jian, DAN Lei, YANG Xue-Feng. Research on Recycling Technology of Waste Thermosetting Phenolic Resins Based on Mechanical Physical Method [J]. China Mechanical Engineering, 2013, 24(1): 29-34.
[6]	Li Dong;Wang Shujie;Wang Chao. Rapid Manufacture Method for Tidal Stream Turbine Blade Testing Model [J]. J4, 2009, 20(21): 0-2627.