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Microstructure and interface thermal stability of C/Mo double-coated SiC fiber reinforced γ-TiAl matrix composites 被引量:5
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作者 罗贤 李超 +4 位作者 杨延清 许海嫚 李晓宇 刘帅 李鹏涛 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2016年第5期1317-1325,共9页
C/Mo duplex coating interfacially modified SiC fiber-reinforced γ-TiAl matrix composite (SiCf/C/Mo/γ-TiA1) was prepared by foil-fiber-foil method to investigate its interfacial modification effect. SiCf/C/TiAl com... C/Mo duplex coating interfacially modified SiC fiber-reinforced γ-TiAl matrix composite (SiCf/C/Mo/γ-TiA1) was prepared by foil-fiber-foil method to investigate its interfacial modification effect. SiCf/C/TiAl composites were also prepared under the same processing condition for comparision. Both kinds of the composites were thermally exposed in vacuum at 800 and 900℃ for different durations in order to study thermal stability of the interfacial zone. With the aids of scanning electron microscope (SEM) and energy dispersive spectrometer (EDS), the interracial microstructures of the composites were investigated. The results reveal that, although adding the Mo coating, the interfacial reaction product of the SiCf/C/Mo/TiAl composite is the same with that of the SiCf/C/TiA1 composite, which is TiC/Ti2AlC between the coating and the matrix. However, C/Mo duplex coating is more efficient in hindering interfacial reaction than C single coating at 900 ℃ and below. In addition, a new layer of interfacial reaction product was found between Ti2AlC and the matrix after 900 ℃, 200 h thermal exposure, which is rich in V and close to the chemical composition of B2 phase. 展开更多
关键词 Mo coating TiAl alloy sic fiber titanium matrix composite interracial reaction thermal stability
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Effects of Nitridation on Properties of SiC Fiber and Interface of Ti Matrix Composite 被引量:1
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作者 NanlinSHI Z.X.Guo 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2002年第6期563-565,共3页
Prenitridation of the TiBx coating surface of the Sigma SM1240 SiC fiber can form more stable compounds at the surface and obstruct the release of boron atoms into the Ti-based alloy matrix. The effect of nitridation ... Prenitridation of the TiBx coating surface of the Sigma SM1240 SiC fiber can form more stable compounds at the surface and obstruct the release of boron atoms into the Ti-based alloy matrix. The effect of nitridation on the tensile strength of the fiber was investigated in this work. Nitridation could degrade the tensile strength of the SiC fiber if the treating temperature and time are not optimized. The chemical reaction between the W core and SiC and the modification of fiber microstructure during the nitridation are responsible for the degradation in strength. The strength can be maintained by further optimization of the treating temperature and time. Therefore, stabilizing the surface of TiBx coating and hence the interface of the SiCf/Ti composite by the nitridation of the SiC fiber is a feasible technique for practical applications. 展开更多
关键词 sic fiber Surface coating NITRIDATION Tensile strength INTERFACE
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Microstructure Characterization of Long W Core SiC Fiber 被引量:1
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作者 Changyou GUO Caibei ZHANG +2 位作者 Lianlong HE Baohong JIN Nanlin SHI 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2007年第5期677-684,共8页
Microstructure of SiC fiber manufactured by chemical vapor deposition (CVD) onto tungsten (W) wire core was investigated by analytical electron microscopy (AEM). The results reveal that the fiber consists of W c... Microstructure of SiC fiber manufactured by chemical vapor deposition (CVD) onto tungsten (W) wire core was investigated by analytical electron microscopy (AEM). The results reveal that the fiber consists of W core, SiC sheath and C-coating. SiC sheath could be subdivided into two parts according to whether containing C rich stripe, or not. An emphasis was put on W/SiC interfacial reaction products and the transition zone between sub-layers in SiC sheath. The W/SiC interface consists of three layers of reaction production, namely, W2C, W5Si3 and WC. And there are amounts of facet faults existing in (100) face of WC crystalline and two classes of stack faults in WC have been revealed. The formation essence of different sublayers in SiC sheath was also discussed. 展开更多
关键词 sic fiber Chemical vapor deposition (CVD) Analytical electronmicroscopy (AEM) C-rich zone Reaction products
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Mechanical properties and surface characteristics of SiC fibers irradiated by swift heavy ions 被引量:1
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作者 Li-Qing Zhang Chong-Hong Zhang +6 位作者 Chen-Chun Hao Guo-Dong Hu Zheng-Dong Feng Yong-Jian Tang Wen-Kun Zhu Jian-Yang Li Qing Huang 《Nuclear Science and Techniques》 SCIE EI CAS CSCD 2022年第9期37-47,共11页
SiC fibers were irradiated by 414.4-MeV^(112)Sn^(27.3+)ions to different fluences(5.0×10^(12),6.0×10^(13),1.6×10^(14),and 1.92×10^(15)ions/cm^(2)).^(112)Sn^(27.3+)deposited its energy mainly via el... SiC fibers were irradiated by 414.4-MeV^(112)Sn^(27.3+)ions to different fluences(5.0×10^(12),6.0×10^(13),1.6×10^(14),and 1.92×10^(15)ions/cm^(2)).^(112)Sn^(27.3+)deposited its energy mainly via electron energy loss and passed through the SiC fiber.Then,the mechanical properties and surface characteristics of fibers were studied using a specific single filament tensile test and field emission scanning electron microscopy.Results revealed that the carbon concentration on the fiber surface increased while the silicon concentration decreased.Moreover,the addition of oxygen was found to correlate with an increase in ion fluence.Meanwhile,the fiber surface morphology of the least fluence(5.0×10^(12)ions/cm^(2))irradiated specimen displayed no obvious changes and its diameter was slightly reduced.With successive increases of ion fluence,large grains/bubbles on the fiber surface first appeared and then disappeared,and the diameter of fibers evidently increased.Moreover,at the highest fluence(1.92×10^(15)Sn ions/cm^(2))irradiated specimen,some fibers were brittle fractured.As a result,the mean tensile strength and the average elastic modulus of the fibers generally decreased with respect to the ion fluence.The degradation mechanisms of mechanical properties of SiC fibers under irradiation are discussed in detail. 展开更多
关键词 sic fibers Swift-heavy-ion irradiation FE SEM Tensile test
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Microstructural Changes of T1-6A1-4V Matrix by the Incorporation of Continuous SiC Fibers
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作者 Yuechun FU Nanlin SHI Dezhi ZHANG Rui YANG 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2006年第4期452-454,共3页
In SiC(f)/Ti-6Al-4V composites, the microstructure of the matrix close to the fiber was different from that of the fiber-less material. Microstructure observations show that a layer of fine grains was located adjace... In SiC(f)/Ti-6Al-4V composites, the microstructure of the matrix close to the fiber was different from that of the fiber-less material. Microstructure observations show that a layer of fine grains was located adjacent to the fiber, and more dislocations and faults were found in this region. Higher recrystallization nucleation rate due to the undeformed SiC fiber and thermal residual stress induced during cooling from the fabrication temperature caused the microstructural changes of the matrix. Hardness measurement indicates that the matrix in the fiber neighborhood was strengthened, and the strengthening effect decreased with distance away from the fiber. 展开更多
关键词 Matrix strengthening Ti-6Al-4V powder sic fiber Metal-matrix composites
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Effect of High-temperature Annealing on Mechanical Performance and Microstructures of Different Oxygen SiC Fibers
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作者 刘卫丹 ZHAO Yan DONG Anqi 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2018年第4期778-782,共5页
In order to explore the effect of high-temperature annealing on the mechanical performances and microstructures of different oxygen SiC fibers, two types of silicon carbide(SiC)-based fibers, specified as XD-SiC fib... In order to explore the effect of high-temperature annealing on the mechanical performances and microstructures of different oxygen SiC fibers, two types of silicon carbide(SiC)-based fibers, specified as XD-SiC fibers(low oxygen) and Nicalon-201 fibers(high oxygen), were annealed in Ar for 1 h at 800 ℃, 1 000 and 1 200 ℃, respectively. Mechanical properties of these fibers were characterized via a monofilament tensile method, with observation of the damaged monofilament by SEM. Also, the effects of annealing on the microstructure and chemical compositions of the fibers were studied. The experimental results indicated that the tensile strength decreased with the increase of annealing temperatures,after annealing-treatment at 1200℃, XD-SiC fibers remained 84% of its original strength, while Nicalon-201 fibers remained only 58% of its original strength. Crystallization and chemical composition of the fibers are the dominating factors for their mechanical performance at high temperatures. The microstructure changes of XD-SiC fibers are mainly composed of the growth of β-SiC, for Nicalon-201 fibers, evaporation of gases is the main change for microstructure. 展开更多
关键词 sic fibers annealing-treatment mechanical performance MICROSTRUCTURES
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CVD SiC Fiber Electrochemically Treated by AC Current
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作者 Kun LUO, Nanlin SHI Yapei ZUInstitute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, China 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2003年第3期283-285,共3页
The tensile strength of CVD SiC fiber was remarkably improved by electrochemical surface treatment. SEM analyses reveal that AC current treatment could form a more compact and complete SiO2 layer than DC current on th... The tensile strength of CVD SiC fiber was remarkably improved by electrochemical surface treatment. SEM analyses reveal that AC current treatment could form a more compact and complete SiO2 layer than DC current on the surface of the SiC fiber, which was beneficial to the improvement of tensile strength. It was also verified that AC current was more effective for producing high performance SiC fiber with SiO2 surface layer than DC current. The frequency is a sensitive parameter for the process; but the signals of input current had relatively small effect on the tensile strength of SiC fiber. A further discussion for this phenomenon was completed. The proposed operational parameters are 0.3 A, 5 kHz of sine wave and 91 m/h of the receiving rate respectively. 展开更多
关键词 sic fiber Electrochemical treatment AC current
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Effect of properties of SiC fibers on longitudinal tensile behavior of SiC_f/Ti-6Al-4V composites 被引量:5
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作者 李建康 杨延清 +2 位作者 原梅妮 罗贤 李丽丽 《中国有色金属学会会刊:英文版》 EI CSCD 2008年第3期523-530,共8页
Three types of SiC fibers with different tensile strength were employed to prepare unidirectional titanium matrix composites. The strengths of the original SiC fibers and extracted fibers from the composites were meas... Three types of SiC fibers with different tensile strength were employed to prepare unidirectional titanium matrix composites. The strengths of the original SiC fibers and extracted fibers from the composites were measured. The results show that the mechanical properties of fibers are greatly damaged by the consolidation processing of the composite. The strength data of the extracted fibers are used to predict the strength of the composites according to two theoretic models. The Globe Load-Sharing(GLS) model overestimates the strength of the composites. If the Local Load-Sharing(LLS) model assumes that failure occurs after the formation of a cluster with three broken fibers, the model can predict the strength of the composites exactly. 展开更多
关键词 碳化硅光纤 复合材料 抗张强度
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Effect of oxygen content on tensile strength of polymer-derived SiC fibers 被引量:1
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作者 楚增勇 冯春祥 +3 位作者 宋永才 王应德 李效东 肖加余 《中国有色金属学会会刊:英文版》 CSCD 2002年第5期894-898,共5页
Air-curing is usually applied to the polymer-derived SiC fibers and, as a result, oxygen is embedded to the material. An effective relationship between oxygen content of the SiC fibers and mass gain of their precursor... Air-curing is usually applied to the polymer-derived SiC fibers and, as a result, oxygen is embedded to the material. An effective relationship between oxygen content of the SiC fibers and mass gain of their precursor fibers was established. Results also showed that oxygen content has a great influence on the mechanical properties and excellent tensile strength is usually obtained at the oxygen content of 12%~13%, similar to the density of SiC fibers. Oxygen content has a positive effect on the ceramic yield, and thus, is good to the density and tensile strength; while, oxygen content is also negative to volume content of SiC phase and crystallization of the SiC fibers, and thus, detrimental to the density and tensile strength. Both of the two effects result in the peak behavior of the tensile strength of SiC fibers. 展开更多
关键词 碳化硅光纤 抗张强度 机械性能 氧含量 聚合陶瓷
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SiC_(f)/Ti65复合材料的拉伸行为研究
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作者 孟凡玲 刘范凯 +1 位作者 杨丽娜 王玉敏 《热加工工艺》 北大核心 2024年第12期34-40,共7页
采用磁控溅射先驱丝法结合热等静压工艺制备SiC_(f)/Ti65复合材料,研究了SiC_(f)/Ti65复合材料室温、高温拉伸行为,揭示了SiC_(f)/Ti65复合材料拉伸断裂机制。研究结果表明:SiC_(f)/Ti65复合材料的室温、高温抗拉强度相比于Ti65合金的... 采用磁控溅射先驱丝法结合热等静压工艺制备SiC_(f)/Ti65复合材料,研究了SiC_(f)/Ti65复合材料室温、高温拉伸行为,揭示了SiC_(f)/Ti65复合材料拉伸断裂机制。研究结果表明:SiC_(f)/Ti65复合材料的室温、高温抗拉强度相比于Ti65合金的抗拉强度分别提升29%和164%,验证了复合材料的增强效果。SiC_(f)/Ti65复合材料的室温拉伸断裂机制为反应层断裂、纤维/基体界面脱粘、基体脆性断裂、纤维断裂、包套韧性断裂;高温断裂机制为反应层断裂、纤维/基体界面脱粘、纤维断裂、W/SiC界面脱粘、基体和包套韧性断裂。 展开更多
关键词 复合材料 拉伸性能 sic纤维 断裂机制
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SiC纤维预制体结构对SiC_(f)/BN/SiC复合材料致密化和力学性能的影响 被引量:1
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作者 王梦千 贾林涛 +1 位作者 李爱军 彭雨晴 《复合材料科学与工程》 CAS 北大核心 2024年第5期58-65,共8页
为了研究碳化硅(SiC)纤维预制体的结构对SiC基体的化学气相渗透(CVI)工艺致密化过程的影响,利用模拟计算方法分析了2D叠层、2.5D和3D正交三种编织结构SiC预制体在SiC致密化过程中的孔隙结构演变规律,并采用三氯化硼-氨气-氢气-氮气(BCl_... 为了研究碳化硅(SiC)纤维预制体的结构对SiC基体的化学气相渗透(CVI)工艺致密化过程的影响,利用模拟计算方法分析了2D叠层、2.5D和3D正交三种编织结构SiC预制体在SiC致密化过程中的孔隙结构演变规律,并采用三氯化硼-氨气-氢气-氮气(BCl_(3)-NH_(3)-H_(2)-N_(2))混合气体和三氯甲基硅烷-氢气-氮气(MTS-H_(2)-N_(2))混合气体作为前驱体,利用CVI致密化工艺制备出三种预制体结构的SiC_(f)/BN/SiC复合材料。结果表明,SiC纤维预制体结构不同,SiC_(f)/BN/SiC复合材料的致密化效率不同,其中2.5D纤维预制体的致密化速率最快,3D正交预制体的致密化速率最慢。致密化120 h后,三种预制体结构的复合材料密度均达到2.3 g/cm~3以上,开孔率为10%左右。三种结构的SiC_(f)/BN/SiC复合材料拉伸强度为130~170 MPa。在层间剪切过程中,2D结构SiC_(f)/BN/SiC复合材料与2.5D结构SiC_(f)/BN/SiC复合材料样品都出现了XY面的纤维剥离现象,而3D结构SiC_(f)/BN/SiC复合材料样品发生了正交Z向纤维的断裂。由此可知,SiC纤维预制体结构影响了所形成复合材料的致密化过程和力学性能。 展开更多
关键词 sic纤维 预制体结构 sic基体 CVI 致密化 复合材料 力学性能
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连续SiC纤维表面铂涂层的制备及抗氧化性研究
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作者 王现广 赵君 +5 位作者 陈力 胡昌义 张贵学 汪星强 赵兴东 魏燕 《贵金属》 CAS 北大核心 2024年第1期10-14,共5页
采用金属有机化合物化学气相沉积法(MOCVD)在连续SiC纤维表面沉积了约0.8μm厚的Pt涂层,用扫描电镜对涂层的形貌进行观察,用EDS能谱和XRD对涂层的成分进行了分析,并对沉积涂层后的纤维在不同温度和时间下的抗氧化性能进行了测试。结果表... 采用金属有机化合物化学气相沉积法(MOCVD)在连续SiC纤维表面沉积了约0.8μm厚的Pt涂层,用扫描电镜对涂层的形貌进行观察,用EDS能谱和XRD对涂层的成分进行了分析,并对沉积涂层后的纤维在不同温度和时间下的抗氧化性能进行了测试。结果表明,制备得到的铂涂层光滑致密,与纤维结合牢固,有效弥补了纤维表面缺陷;对沉积涂层后的纤维进行力学表征和抗氧化测试,发现铂涂层不仅增加了SiC纤维的抗拉强度,而且经700~1400℃氧化1h后纤维的抗氧化性能大幅提高。 展开更多
关键词 MOCVD 连续sic纤维 铂涂层 抗氧化性
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连续SiCf/TC17复合材料室温偏轴拉伸性能研究
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作者 沙兆洋 陈国清 +2 位作者 黄浩 王敏涓 周文龙 《宇航材料工艺》 CAS CSCD 北大核心 2024年第2期153-160,共8页
采用磁控溅射法结合热等静压工艺制备SiCf/TC17复合材料,通过SEM观察试样的断口形貌,研究了复合材料在室温的偏轴拉伸性能及断裂机制。结果表明:纤维偏轴角度在0°~2°间,复合材料轴向性能变化较小,拉伸强度稳定在1960~1987 MPa... 采用磁控溅射法结合热等静压工艺制备SiCf/TC17复合材料,通过SEM观察试样的断口形貌,研究了复合材料在室温的偏轴拉伸性能及断裂机制。结果表明:纤维偏轴角度在0°~2°间,复合材料轴向性能变化较小,拉伸强度稳定在1960~1987 MPa;纤维偏轴角度再增大时(>2°),材料拉伸强度近似呈单调线性降低,由1870 MPa降至1797 MPa。纤维偏轴角度较小时(≤2°),平坦区基体与纤维断裂面平整,且两者的断裂面平行。纤维/基体界面没有明显的脱粘破碎迹象;纤维偏轴角度较大时(>2°),部分纤维存在“斜切断裂”,纤维拔出距离变长,且不再与基体的断裂面保持在同一平面,基体撕裂损伤严重。依据断口形貌结合局部承载模型,详细论述了SiCf/TC17复合材料两种拉伸失效的断裂过程。纤维偏轴角度较小时(≤2°),裂纹萌生于纤维间距较小的反应层,在界面处钝化或偏转进而形成不同截面的平坦区,当纤维超过承载能力极限,试样整体断裂;纤维偏轴角度较大时(>2°),“拉-剪”耦合效应导致C涂层与反应层间的界面脱粘破碎形成裂纹源,裂纹加速反应层受损或导致界面脱粘致使纤维断裂,当基体及剩余纤维超过承载能力极限,试样整体断裂。 展开更多
关键词 钛基复合材料 sic纤维 TC17 拉伸性能 断裂过程 偏轴拉伸
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偏轴载荷下连续SiC纤维增强钛基复合材料的拉伸行为研究
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作者 王敏涓 陈永刚 +4 位作者 齐金磊 孙光耀 王宝 黄旭 黄浩 《航空制造技术》 CSCD 北大核心 2024年第8期45-53,共9页
连续SiC纤维增强钛基(SiCf/Ti)复合材料是未来高性能动力装置的关键材料之一。针对SiCf/Ti复合材料中纤维与试样轴向载荷常存在一定偏轴角度的问题,通过室温拉伸、有限元模拟和断口表征研究了偏轴角度对SiCf/TC17复合材料力学性能和失... 连续SiC纤维增强钛基(SiCf/Ti)复合材料是未来高性能动力装置的关键材料之一。针对SiCf/Ti复合材料中纤维与试样轴向载荷常存在一定偏轴角度的问题,通过室温拉伸、有限元模拟和断口表征研究了偏轴角度对SiCf/TC17复合材料力学性能和失效机理的影响。根据SiCf/TC17复合材料力学性能、断口形貌和应力分布可以定义一个临界偏轴角度,其数值约为1°。结果表明,随偏轴角度的增加,复合材料试样的抗拉强度下降,且当偏轴角度超过临界值时,抗拉强度下降速率增加。复合材料的失效机制与偏轴角度相关,当偏轴角度小于临界值时,试样断口由数个平坦的断面组成,纤维拔出和界面开裂程度都较低,纤维断面基本垂直于轴线,为典型的正应力断裂形貌;当偏轴角度大于临界值时,断口的起伏程度增加,纤维拔出和界面开裂现象都更加明显,部分纤维开始出现剪切断裂,表明拉剪耦合在断裂中起到重要作用。因此,对于SiCf/TC17复合材料轴向试样而言,应将纤维与试样整体的偏轴角度控制在临界值内,以获得有效的性能测试数据。 展开更多
关键词 钛基复合材料 sic纤维 偏轴拉伸 断口形貌 临界偏轴角度
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SiC纤维在空气中的耐温性测试
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作者 孙元平 余江轮 +3 位作者 黎尧 肖慈伟 陈欢 马彦 《高科技纤维与应用》 CAS 2024年第2期19-23,共5页
SiC纤维作为SiC_(f)/SiC复合材料的重要承载部分,其耐温性能直接影响SiC纤维的实际应用。单丝拉伸强度和束丝拉伸力测试表明:在空气中,800℃时SiC纤维单丝强度维持在2.7 GPa以上,束丝拉伸力170 N以上,随时间延长无明显变化;温度升高至1... SiC纤维作为SiC_(f)/SiC复合材料的重要承载部分,其耐温性能直接影响SiC纤维的实际应用。单丝拉伸强度和束丝拉伸力测试表明:在空气中,800℃时SiC纤维单丝强度维持在2.7 GPa以上,束丝拉伸力170 N以上,随时间延长无明显变化;温度升高至1000℃时,单丝强度下降至2.0 GPa,束丝拉伸力下降至159 N;超过1200℃后,纤维氧化明显,无长时间应用能力。其SEM及EDS结果表明,各个温度下纤维表面均有不同程度的氧化,温度越高纤维氧含量越高,超过1400℃时,纤维出现“皮芯”结构和脱落,氧化严重,完全失效。 展开更多
关键词 sic纤维 单丝拉伸强度 束丝拉伸力 耐温性
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2D-SiC_(f)/SiC复合材料层间Ⅰ型断裂试验及表征
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作者 师维刚 张超 +2 位作者 李玫 王晶 张程煜 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2024年第1期45-50,共6页
二维编织碳化硅纤维增强碳化硅复合材料(2D-SiC_(f)/SiC)在航空领域中得到广泛使用,然而该材料层间强度低,使其易萌生层间裂纹,引起分层破坏。为此,本工作采用楔形双悬臂梁法(W-DCB)和悬臂梁法(DCB)开展了层间Ⅰ型断裂试验,获得了2D-SiC... 二维编织碳化硅纤维增强碳化硅复合材料(2D-SiC_(f)/SiC)在航空领域中得到广泛使用,然而该材料层间强度低,使其易萌生层间裂纹,引起分层破坏。为此,本工作采用楔形双悬臂梁法(W-DCB)和悬臂梁法(DCB)开展了层间Ⅰ型断裂试验,获得了2D-SiC_(f)/SiC的层间裂纹驱动的加载数据,得到了其裂纹端口张开力及张开位移变形曲线。在试验加载过程,通过光学显微镜监测了视觉裂纹扩展过程,探究了2D-SiC_(f)/SiC的层间I型裂纹扩展规律。结合理论分析和裂纹视觉特征解释了加载曲线拐点及其他特征点的断裂力学含义。利用扫描电子显微镜分析了2D-SiC_(f)/SiC的层间断面特征,揭示了断面分层裂纹扩展机制。结果表明:W-DCB方法测量的2D-SiC_(f)/SiC层间Ⅰ型初始能量释放率与DCB方法等效;2D-SiC_(f)/SiC层间Ⅰ型断裂过程中,裂纹端口变形曲线的多峰性不符合经典线弹性断裂力学预测的加载峰后特征,反映了2D-SiC_(f)/SiC层间约束关系的复杂性;层间断面为结构性非完全损伤,发生了局部纤维桥连现象。 展开更多
关键词 2D-sic_(f)/sic复合材料 层间Ⅰ型断裂 表征分析 纤维桥连
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SiC纳米线改性C/C复合材料的制备及其电磁波吸收性能研究
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作者 桂凯旋 罗祥洁 +1 位作者 刘方瑜 赵晓玉 《人工晶体学报》 CAS 北大核心 2024年第5期889-898,共10页
C/C复合材料因低密度、耐高温等特性在航空航天材料方面具有很广泛的应用,通过改性的方法提高该类材料的电磁波吸收性能有望拓宽其应用领域。本文以酚醛树脂、Si和SiO_(2)粉体,以及催化剂二茂铁为原料,采用先驱体浸渍裂解法制备C/C复合... C/C复合材料因低密度、耐高温等特性在航空航天材料方面具有很广泛的应用,通过改性的方法提高该类材料的电磁波吸收性能有望拓宽其应用领域。本文以酚醛树脂、Si和SiO_(2)粉体,以及催化剂二茂铁为原料,采用先驱体浸渍裂解法制备C/C复合材料,然后通过化学气相反应法在C/C复合材料中生成SiC纳米线(SiC_(nw)),制备出SiC_(nw)改性C/C复合材料(SiC_(nw)/C/C)。研究了C/C和SiC_(nw)/C/C复合材料的结构与性能,探讨了SiC_(nw)含量对C/C复合材料电磁波吸收性能的影响。结果表明,通过本方法可在C/C复合材料中成功引入具有核壳结构的SiC_(nw),并且随着SiC_(nw)含量增加,C/C复合材料的电磁波吸收性能显著提升。当SiC_(nw)含量为15.4%(质量分数)时,SiC_(nw)/C/C复合材料在厚度为2.07 mm处的最小反射损耗值为-38.02 dB,明显低于同类其他材料,表现出优异的电磁波吸收性能。本文研究制备的SiC_(nw)/C/C复合材料可为高性能碳/陶复合材料的制备提供技术和理论支撑。 展开更多
关键词 sic纳米线 碳纤维 复合材料 电磁波吸收性能 催化剂 化学气相反应
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单颗金刚石磨粒划擦2D SiC_(f)/SiC复合材料实验
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作者 王优哲 刘瑶 +2 位作者 周扬 李家豪 黎瀚森 《金刚石与磨料磨具工程》 CAS 北大核心 2024年第3期335-345,共11页
为了揭示2D SiC_(f)/SiC复合材料的磨削去除机理,根据2D SiC_(f)/SiC复合材料的编织结构特点,分别在2D SiC_(f)/SiC纤维的编织表面(woven surface,WS)和叠加表面(stacking surface,SS)沿0°、45°和90°方向开展单颗金刚石... 为了揭示2D SiC_(f)/SiC复合材料的磨削去除机理,根据2D SiC_(f)/SiC复合材料的编织结构特点,分别在2D SiC_(f)/SiC纤维的编织表面(woven surface,WS)和叠加表面(stacking surface,SS)沿0°、45°和90°方向开展单颗金刚石磨粒划擦实验,测量其划擦力和划痕深度,并观察划痕表面形貌。结果表明:在WS0(纤维编织表面的0°方向)上SiC_(f)/SiC材料的去除方式主要为纵向纤维(纤维轴向与进给速度方向一致)的剪切、拉伸、弯曲断裂和横向纤维(纤维轴向与进给速度方向垂直)的剪切、弯曲断裂;在WS45(纤维编织表面的45°方向)上主要为纤维的剪切、弯曲、拉伸断裂;在SS0(纤维叠加表面的0°方向)上主要为法向纤维(纤维轴向垂直于划擦表面)的延性去除、剪切、弯曲断裂,纵向纤维的剪切、拉伸、弯曲断裂;在SS90(纤维叠加表面的90°方向)上主要为法向纤维的延性去除、剪切、弯曲断裂和横向纤维的剪切、弯曲、拉伸断裂。由于SiC纤维的各向异性,不同方向、不同断裂形式有不同的力学性能,剪切断裂所需要的力最小,拉伸断裂所需要的力最大。在相同划擦深度下,因WS0、WS45、SS0、SS90方向上断裂形式的不同和剪切、弯曲、拉伸断裂所占的比例不同,其划擦力大小依次为FSS0>FWS45>FSS90>FWS0。且磨粒切入复合材料后随着裂纹的扩展和相互贯通,SiC基体会一起被剥离去除,部分基体受到挤压去除后再次被磨粒划擦去除形成延性划痕。2D SiC_(f)/SiC复合材料切削时宜选择WS0方向,而尽量避开SS0方向。 展开更多
关键词 单颗金刚石磨粒划擦 sic_(f)/sic复合材料 纤维取向 划擦力 表面形貌
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短切碳纤维对泵用SiC复合陶瓷强度与耐冲蚀性影响研究
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作者 梁晨阳 危涛 +7 位作者 文钰斌 吴志宏 李家虎 熊华 惠越 李丽 印雄雄 徐衡 《粘接》 CAS 2024年第5期72-74,共3页
将0.5 mm、1 mm和3 mm的短切碳纤维分别加入SiC树脂复合陶瓷中,研究不同短切碳纤维长度对SiC复合陶瓷抗折强度和耐冲蚀性能的影响。研究结果表明,添加短切碳纤维后,试样的体积密度从2.45降低至2.32 g/cm^(3),而显气孔率变化不大,维持在4... 将0.5 mm、1 mm和3 mm的短切碳纤维分别加入SiC树脂复合陶瓷中,研究不同短切碳纤维长度对SiC复合陶瓷抗折强度和耐冲蚀性能的影响。研究结果表明,添加短切碳纤维后,试样的体积密度从2.45降低至2.32 g/cm^(3),而显气孔率变化不大,维持在4%。随着添加短切碳纤维长度的增加,试样的抗折强度显著提升,从61.57 MPa增加至71.67 MPa。添加3 mm的短切碳纤维后,试样的抗折强度更加稳定,多个试样间的差距显著降低。添加不同长度短切碳纤维后,试样的常温耐冲蚀性无明显变化,一次和二次冲蚀损失体积分别维持在0.033 cm^(3)和0.045 cm^(3)左右。SiC树脂复合陶瓷浇注料的制备过程中,添加3 mm的短切碳纤维可以有效提升抗折强度,同时保持复合陶瓷优秀的耐冲蚀性能。 展开更多
关键词 sic树脂复合材料 短切碳纤维 抗折强度 耐冲蚀性能
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A review of third generation SiC fibers and SiC_f/SiC composites 被引量:34
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作者 Pengren Wang Fengqi Liu +2 位作者 Hao Wang Hao Li Yanzi Gou 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2019年第12期2743-2750,共8页
Compared with the first and second generations SiC fibers, the third generation SiC fibers have obvious improvement in heat-resistance, oxidation-resistance and creep-resistance, which promote the development of SiCf/... Compared with the first and second generations SiC fibers, the third generation SiC fibers have obvious improvement in heat-resistance, oxidation-resistance and creep-resistance, which promote the development of SiCf/SiC composite materials. Therefore, the third generation SiC fibers have more advantages and broader prospects in engineering applications. In this paper, the fabrication and properties of the third generation SiC fibers are compared and discussed. The preparation processes of the third generation SiC fibers reinforced SiC matrix composites and their application in aeroengine and nuclear energy fields are summarized, while their future development is prospected as well. 展开更多
关键词 sic fiber Third generation COMPOSITE
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