欢迎您!东篱公司
退出
-
申报数据库
-
立项数据库
-
成果数据库
-
项目获奖数据库
中文摘要:
采用等温等压化学气相浸渗法(ICVI),对原始的SiC纤维束和沉积有pyc层的SiC纤维束浸渗SiC基体,制备了纤维束复合材料SiC/SiC(MiniSiC/SiC)。分析了SiC纤维束和MiniSiC/SiC复合材料的拉伸性能,同时利用两参数Weibull分布研究了强度分布。结果表明,pyC层具有修复纤维表面缺陷的作用,SiC纤维束沉积pyC层后,纤维表面光滑而致密,表面缺陷减少,其拉伸强度、延伸率和Weibull模数分别比原始SiC纤维柬提高了25%、12%和288%;且由其增强复合材料的拉伸强度、延伸率和Weibull模数分别比由原始SiC纤维束增强复合材料提高了103%、83%和340%。PyC界面层对sE纤维表面缺陷的修复作用和对SiC纤维的保护作用以及降低复合材料裂纹敏感性的作用提高了MiniSiC/SiC复合材料的拉伸性能和Weibull模数。
英文摘要:
The Mini SiC/SiC composites, reinforced by the as-received SiC fiber bundle and the SiC fiber bundle with PyC layer, respectively, were fabricated by isothermal and isobaric chemical vapor infiltration(ICVI). The tensile properties of the fiber bundles and minicomposits were analyzed and their strength distribution was also studied by means of two-parameter Weibull distribution method. The results show that PyC layer has the function of repairing defects on the fiber surfaces. After the deposition of PyC layer on the SiC fiber bundle, the surfaces of fibers become smooth and dense, and the defects on the fiber surfaces decrease. Meanwhile, its tensile stregnth, elongation percenta- ge and Weibull modulus are 25%, 12% and 288% higher than those of the as-received SiC fiber bundle, respectively. Further more, the tensile stregnth, elongation percentage and Weibull modulus of the minicomposite reinforced by it are 103%, 83% and 340% higher than the minicomposite reinforced by the as-received SiC fiber bundle. The tensile properties and Weibull modulus of Mini SiC/SiC composite are increased by the functions of repairing defects on the SiC fiber surfaces, proctecting SiC fibers and reducing crack-sensitivity of the minieomposite all from the PyC layer.
同期刊论文项目
同项目期刊论文
Nondestructive evaluation and mechanical characterization of a defect-embedded ceramic matrix compos
Behavior of two-dimensional C/SiC composites subjected to thermal cycling in controlled environments
The Acoustic Emission Characteristics of Silicon Carbide Firber Reinforced composite Under Tensile L
Acoustic Emission Research on Thermal Shock Behaviors of Three-Dimensional C/SiC Composites in Diffe
Damage analysis of 2D C/SiC composites subjected to thermal cycling in oxidizing environments by mec
Thermal expansion behavior of carbon fiber reinforced chemical-vapor-infiltrated silicon carbide com
Thermal cycling response behavior of ceramic matrix composites under load and displacement constrain
Damage mechanisms of C/SiC composites subjected to constant load and thermal cycling in oxidizing at
Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmo
Numerical Simulation of Effect of Methyltrichlorosilane Flux on Isothermal Chemical Vapor Infiltrati
Thermal cycling damage mechanisms of C/SiC composites in displacement constraint and oxidizing atmos
Comparative Modeling of Gas Transport in Isothermal Chemical Vapor Infiltration Process of C/SiC Com
Modeling the effects of thermal and mechanical load cycling on a C/SiC composite in oxygen/argon mix
Relationship of damage evolution of ceramic matrix composites between static and dynamic oxidizing g
Residual strength prediction of SiC/SiC composite exposed to service environments with factor analys
Monotonic tensile behavior analysis of three-dimentional needle-punched Wover C/SiC Composites by Ac
Life Prediction of 3D woven C/SiC Composites at High Temperatures with Low Frequency Cyclic Stresses
Experimental research on failure mechanism of a CVI-fabricated ceramic matrix composite under compre
Tension-tension fatigue damage characteristics of a 3D SiC/SiC composite in H2O-O2-Ar environment at
Oxidation protective multilayer CVD SiC coatings modified by a graphitic B-C interlayer for 3D C/SiC
期刊信息
位置: