H.N. Narasimha Murthy scite author profile

The objective of this research was to study the mechanical properties of epoxy/glass/nanoclay hybrid composites. Nanomer 1.30E nanoclay (0—6 wt%) was initially dispersed into epoxy using ultrasonication and the hybrid nanocomposite was fabricated using hand lay-up technique. Mechanical properties such as ultimate tensile strength, Young’s modulus, flexural strength, flexural modulus, interlaminar shear strength, and microhardness of the hybrid composites increased with increase in nanoclay loading up to 5 wt%. Glass transition temperature increased marginally at 2 wt% nanoclay loading and the same decreased for further addition of the filler. The tensile-fractured specimens were studied to examine the mode of failure using scanning electron microscope.

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Cold expansion of holes and resulting fatigue life enhancement and residual stresses in Al 2024 T3 alloy – An experimental study

Gopalakrishna¹,

Murthy²,

Krishna³

et al. 2010

Engineering Failure Analysis

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Characterization of hole circularity and heat affected zone in pulsed CO2 laser drilling of alumina ceramics

Bharatish¹,

Murthy²,

Anand³

et al. 2013

Optics & Laser Technology

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Durability of GFRP nanocomposites subjected to hygrothermal ageing

Firdosh¹,

Murthy²,

Pal³

et al. 2015

Composites Part B: Engineering

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Effect of Annealing Temperature on Structural and Optical Properties of Dip and Spin coated ZnO Thin Films

Shivaraj¹,

Murthy²,

Krishna³

et al. 2015

Procedia Materials Science

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This paper reports the influence of annealing temperature on crystalline size, film roughness, surface morphology and photoluminescence properties of ZnO thin films prepared by dip and spin coating techniques. Thin films were annealed at 400 C and 500 C for one hour each and their structural properties were studied using XRD, AFM and SEM. The coatings were characterized for photoluminescence using UV-visible Spectrometer. The films produced by both the methods conformed to hexagonal wurtzite structure. The grain size of dip coated films annealed at 400 C and 500 C were 291 and 312 nm and for spin coated films were 140 nm and 172 nm respectively. The surface roughness values of the dip coated films corresponding to the two temperatures were 17.31nm and 23.52 nm and those for spin coated films were 16.74 and 21.43 nm respectively. Annealing temperature significantly influenced crystallinity and surface roughness of the thin films in both methods of coating.

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