N. Eswara Prasad scite author profile

Polymer impregnation and pyrolysis (PIP) process-based C/SiC composites are fabricated using the in-house synthesized methyl-polycarbosilane (PCS). Two-level factorial design matrix is employed to carry out experiments to study the effect of four factors on flexural strength of the composite. Total sixteen sets of composite samples are fabricated. Response table, normal probability plot, ANOVA and regression analysis are carried out to determine the statistical significant factors. Composite density (ρ), fibre volume fraction (V f) and pyrolysis temperature (T) are found to be statistically significant, while softening point (SP) of the PCS and interaction of these four factors are found insignificant. Higher levels of the density and V f have shown positive effect, while the pyrolysis temperature has negative effect on the flexural strength of the composites. Flexural strength was found to be in the range of 374-592 MPa depending on the process parameters. The mechanical behaviour of the composites at different process conditions was explained with the help of their microstructures.

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Fabrication of 2D C/C-SiC composites using PIP based hybrid process and investigation of mechanical properties degradation under cyclic heating

Kumar

Bablu

Ranjan

et al. 2017

Ceramics International

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Interlaminar Shear Strength of Multi-walled Carbon Nanotube and Carbon Fiber Reinforced, Epoxy – Matrix Hybrid Composite

Shekar

Prasad

2014

Procedia Materials Science

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Studies have been carried out to evaluate interlaminar shear behaviour of carbon nanotube and carbon fiber reinforced, epoxy matrix hybrid composite. Short beam shear (SBS) tests were conducted to characterize the influence of fiber orientation in the interlaminar shear strength (ILSS). Experimental details, specimen configuration, data acquisition and processing are presented in detail. The present study reveals the importance of alignment of fiber and its effects on ILSS properties and nature of deformation under shear loading conditions. The results show that the interlaminar shear strength of the hybrid composite is significantly higher in longitudinal orientation as compared to the same in transverse orientation; and more importantly show that such anisotropy is of an order of magnitude and higher.

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N. Eswara Prasad

C/C and C/SiC Composites for Aerospace Applications

Hardness and tensile properties of tungsten based heavy alloys prepared by liquid phase sintering technique

Factorial design, processing, characterization and microstructure analysis of PIP-based C/SiC composites

Fabrication of 2D C/C-SiC composites using PIP based hybrid process and investigation of mechanical properties degradation under cyclic heating

Interlaminar Shear Strength of Multi-walled Carbon Nanotube and Carbon Fiber Reinforced, Epoxy – Matrix Hybrid Composite

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