Influence of fiber content on C/C-SiC brake materials fabricated by compression molding and hot sintering

Tang Chen; Dang Alei; Li Tiehu; Zhao Tingkai; Li Hao; Jiao Shasha

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Influence of fiber content on C/C-SiC brake materials fabricated by compression molding and hot sintering

机译：纤维含量对压缩成型和热烧结制造的C / C-SiC制动材料的影响

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In this work, short carbon fibers were utilized as reinforcing materials to incorporate with C-SiC ceramics. C-f/C-SiC composites containing diverse fiber contents were fabricated by combining compression molding and hot sintering. Mechanical and tribological properties were carefully investigated. The result indicates that 30 vol% fiber content composite shows the highest flexural strength (201.42 MPa) and shear strength (116.68 MPa). The reinforcing mechanisms are summarized as fiber pulling-out, fiber debonding and fiber bridging, as well as crack deflection. Tribological testing reveals that 30% fiber content composite shows the strongest wear resistance (3.95 x 10(-6)mm(3)/N.m) and cyclic performances (COF of 0.27 after 50 cycles). The friction mechanisms are divided into abrasive wear, adhesion wear and oxidation wear by different wear stages.

机译：在这项工作中，使用短碳纤维作为增强材料，以掺入C-SiC陶瓷。通过组合压缩成型和热烧结来制造含有各种纤维内容物的C-F / C-SiC复合材料。仔细研究了机械和摩擦学特性。结果表明，30 Vol％纤维含量复合材料显示出最高的弯曲强度（201.42MPa）和剪切强度（116.68MPa）。增强机构总结为纤维拉出，光纤剥离和纤维桥接以及裂缝偏转。摩擦学检测显示，30％纤维含量复合材料显示出最强的耐磨性（3.95×10（-6）mm（3）/ n）和环状性能（50次循环后0.27的COF）。通过不同的磨损阶段分为磨损机制分为磨料磨损，粘附磨损和氧化磨损。

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来源
《Tribology International》 |2019年第2019期|共8页
作者
Tang Chen; Dang Alei; Li Tiehu; Zhao Tingkai; Li Hao; Jiao Shasha;
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作者单位

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sch Mat Sci &

Engn State Key Lab Solidificat Proc Xian 710072 Shaanxi Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Carbon fibers; C-SiC matrices; Mechanical properties; Tribological behaviors;

机译：碳纤维;C-SIC矩阵;机械性能;摩擦学行为;

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1. Influence of fiber content on C/C-SiC brake materials fabricated by compression molding and hot sintering [J] . Tang Chen, Dang Alei, Li Tiehu, Tribology International . 2019,第期

机译：纤维含量对压缩成型和热烧结制造的C / C-SiC制动材料的影响
2. Effect of Braking Speed on Frictional Properties of Short Fiber C/C-SiC Brake Materials and Grey Cast Iron [J] . SHANGWU FAN, JUANLI DENG, XINGYA XU, Tribology Transactions . 2013,第4期

机译：制动速度对短纤维C / C-SiC制动材料和灰口铸铁摩擦性能的影响
3. Effect of pyrolytic carbon content on microstructure and tribological properties of C/C-SiC brake composites fabricated by isothermal chemical vapor infiltration [J] . Qilong Shi, Peng Xiao Solid state sciences . 2012,第1期

机译：热解碳含量对等温化学气相渗透法制备C / C-SiC制动复合材料组织和摩擦学性能的影响
4. Study on Machinability of Laser Sintered Materials Fabricated By Layered Manufacturing System: Influence of Different Hardness of Sintered Materials [C] . Mohd Sanusi Abdul Aziz, Takashi Ueda, Tatsuaki Furumoto, CIRP Conference on Process Machine Interactions . 2012

机译：分层制造系统制造的激光烧结材料的可加工性研究：烧结材料不同硬度的影响
5. Computer modelling and analysis of anisotropic material flow in compression molding of short-fiber-reinforced composite material. [D] . Kim, Junil. 1990

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8. Tension-Compression Fatigue Behavior of a Carbon Fiber/Epoxy (IM7/EPON 862) Composite Fabricated Using Vacuum Assisted Resin Transfer Molding Process [R] . Katwyk, D. W. 2007

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Influence of fiber content on C/C-SiC brake materials fabricated by compression molding and hot sintering

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