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Oxidation Resistance of Isotropic Pitch-based Carbon Fiber
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作者 JI Zhen QIAN Lu +1 位作者 ZHANG Chongfang YU Zongsen (Applied Science School, USTB, Beijing 100083, China) 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 1997年第2期47-50,共4页
The oxidation resistance of isotropic pitch-based carbon fibers are sudied by thermogravimetric analysis,scanning electron microscope and mechanical propefties measure. The change of weight loss,microtextule and mecha... The oxidation resistance of isotropic pitch-based carbon fibers are sudied by thermogravimetric analysis,scanning electron microscope and mechanical propefties measure. The change of weight loss,microtextule and mechanical properties on condition of thermostatical oxidation and nonisothermal oxidation are separately mainly discussed.The results during isothermic oxidation at 316℃ showed that the weight loss of isotropic pitch-based carbon fiber increased and the strength, module rapidly decreased with prolongation of time, but the surface of carbon fiber is smoother and has not surface such as etching pits etc. The weight of isotropic pitch-based carbon fiber decreased more rapidly during the experiment of thermo-variable weight loss after 500℃ than before 500℃. 展开更多
关键词 isotropic pitch-based carbon fibers oxidation resistance MICROTEXTURE
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Control of Fracture Behavior of Carbon Fiber/Pitch-based CarbonMatrix Composites with Microspace Modification Concept
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作者 Shiushichi Kimura(Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi University, 7 Miyamae, Kofu, Yamanashi 400, JapanKouichi Yasuda and Yohtaro Mitsuo) To whom correspondence should be addressedE-mail: kyasuda@o.cc.titech.ac.jp(Departmen 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1999年第5期393-399,共7页
Theoretical consideration was conducted on a relation between pore diameter and interfacialarea between pores and fibers when pores uniforinly distribute in C/C composites. It was shownthat bonding at the fiber/matrix... Theoretical consideration was conducted on a relation between pore diameter and interfacialarea between pores and fibers when pores uniforinly distribute in C/C composites. It was shownthat bonding at the fiber/matrix interface apparently decreased with decreasing a pore diameter,and consequently a new idea of microspace modification concept was proposed for controllingfracture behavior of C/C composites. Four types of C/C composites with various pore structureswere fabricated by hot-pressing, and their fracture behavior was investigated by three pointbending tests. The fracture behavior of the C/C composites was changed from brittle one topseudo ductile one with decreasing the pore diameter. This result supported the validity of themicrospace modification concept proposed in this paper. 展开更多
关键词 Control of Fracture Behavior of carbon fiber/pitch-based carbonMatrix Composites with Microspace Modification Concept
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Thermal conductivity and bending strength of SiC composites reinforced by pitch-based carbon fibers 被引量:4
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作者 Liyang CAO Yongsheng LIU +5 位作者 Yunhai ZHANG Yejie CAO Jingxin LI Jie CHEN Lu ZHANG Zheng QI 《Journal of Advanced Ceramics》 SCIE EI CAS CSCD 2022年第2期247-262,共16页
In this work,pitch-based carbon fibers were utilized to reinforce silicon carbide(SiC)composites via reaction melting infiltration(RMI)method by controlling the reaction temperature and resin carbon content.Thermal co... In this work,pitch-based carbon fibers were utilized to reinforce silicon carbide(SiC)composites via reaction melting infiltration(RMI)method by controlling the reaction temperature and resin carbon content.Thermal conductivities and bending strengths of composites obtained under different preparation conditions were characterized by various analytical methods.Results showed the formation of SiC whiskers(SiC_(w))during RMI process according to vapor–solid(VS)mechanism.SiC_(w) played an important role in toughening the C_(pf)/SiC composites due to crack bridging,crack deflection,and SiC_(w) pull-out.Increase in reaction temperature during RMI process led to an initial increase in thermal conductivity along in-plane and thickness directions of composites,followed by a decline.At reaction temperature of 1600℃,thermal conductivities along the in-plane and thickness directions were estimated to be 203.00 and 39.59 W/(m×K),respectively.Under these conditions,bending strength was recorded as 186.15±3.95 MPa.Increase in resin carbon content before RMI process led to the generation of more SiC matrix.Thermal conductivities along in-plane and thickness directions remained stable with desirable values of 175.79 and 38.86 W/(m×K),respectively.By comparison,optimal bending strength improved to 244.62±3.07 MPa.In sum,these findings look promising for future application of pitch-based carbon fibers for reinforcement of SiC ceramic composites. 展开更多
关键词 pitch-based carbon fiber continuous carbon fiber reinforced silicon carbide matrix composites(C/SiC) thermal conductivity bending strength
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纺丝工艺对带形中间相沥青基石墨纤维取向结构及热导率的影响 被引量:19
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作者 马兆昆 刘朗 刘杰 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2010年第9期989-993,共5页
中间相沥青经熔融纺丝、不熔化、炭化石墨化制备了带状高导热石墨纤维.鉴于纺丝工艺对中间相分子的轴向和截面取向度的重要影响,研究了喷丝板结构和纺丝温度对中间相沥青基石墨纤维(MPGF)的取向结构和传导性能的影响.结果表明:对矩形截... 中间相沥青经熔融纺丝、不熔化、炭化石墨化制备了带状高导热石墨纤维.鉴于纺丝工艺对中间相分子的轴向和截面取向度的重要影响,研究了喷丝板结构和纺丝温度对中间相沥青基石墨纤维(MPGF)的取向结构和传导性能的影响.结果表明:对矩形截面喷丝的微孔,在最佳的纺丝温度下,截面长宽比越大,初生纤维内分子的取向度越高,MPGF的传导性越好.当长宽比和纺丝温度分别为9:1和305℃时,MPGF的取向度较高(97.8%),热导率达到894W/(m.K);长宽比继续增大时,更高的剪切作用致使纤维内应力较大,纺丝稳定性变差. 展开更多
关键词 中间相沥青基石墨纤维 取向结构 热导率
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