V
V.V. Bhanu Prasad
Researcher at Defence Metallurgical Research Laboratory
Publications - 70
Citations - 1383
V.V. Bhanu Prasad is an academic researcher from Defence Metallurgical Research Laboratory. The author has contributed to research in topics: Composite number & Microstructure. The author has an hindex of 22, co-authored 70 publications receiving 1178 citations.
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Structure–property correlation in discontinuously reinforced aluminium matrix composites as a function of relative particle size ratio
TL;DR: In this article, the clustering tendency was studied in 2124 Al/30 v/o SiCp composites as a function of relative particle size ratio between the matrix and reinforcement particles.
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Preparation of Ti-TiB-TiC & Ti-TiB composites by in-situ reaction hot pressing
TL;DR: In this paper, the effect of morphology and reinforcement type on mechanical properties was evaluated with hardness measurement and 3-point bend tests, and it was concluded that the composite with the TiB+TiC reinforcement has a better strength and toughness, due to the presence of needle shaped TiB. The composite with only TiB reinforcement in the form of TiB particulate has inferior strength and fracture resistance.
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High temperature C/C–SiC composite by liquid silicon infiltration: a literature review
TL;DR: In this article, the C/C-SiC composite by liquid silicon infiltration is reviewed thoroughly and shown to have high thermal stability and high abrasion resistance in the atmosphere.
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Fabrication and erosion studies of C–SiC composite Jet Vanes in solid rocket motor exhaust
Suresh Kumar,Anil Kumar,Kumud Sampath,V.V. Bhanu Prasad,J.C. Chaudhary,Aman Gupta,G. Rohini Devi +6 more
TL;DR: In this article, C-SiC composite Jet-Vanes were fabricated using liquid silicon infiltration and tested in a plume of aluminum-based solid propellant to study erosion resistance.
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Effect of sintering temperature on the microstructure and electrical properties of zirconium doped barium titanate ceramics
TL;DR: In this paper, the effect of increasing sintering temperature in the range of 1,350-1,450°C on the microstructure, dielectric, polarization, and electric field induced strain of the lead-free Ba(Zr0.15Ti0.85)O3 (BZT15) ceramics was studied.