National Aerospace Laboratories

About: National Aerospace Laboratories is a facility organization based out in Bengaluru, India. It is known for research contribution in the topics: Coating & Corrosion. The organization has 1838 authors who have published 2349 publications receiving 36888 citations.

Hygrothermal effects on painted and unpainted glass/epoxy composites - Part A: Moisture absorption characteristics

Abstract: Moisture diffusion behaviour of glass/epoxy composites coated with a polyurethane base paint and those without the paint were studied on immersion in water at 323 K. Neat resin castings of the epoxy resin system were also studied for comparison. The composite specimens with paint showed lower moisture absorption values than those of the unpainted specimens subjected to the same immersion conditions. The diffusion parameters obtained from the experiment conducted up to saturation limits agreed well with the data computed using moisture absorption programme (M8 gain) proposed by G. S. Springer. The mixture rule for moisture absorption was also verified for the weight fraction studied. Further, Fickian correlation was found to exist in all the cases.

Improved broadband and omnidirectional light absorption in silicon nanopillars achieved through gradient mesoporosity induced leaky waveguide modulation

Abstract: Metal assisted chemical etching in combination with nanosphere lithography is a low cost fabrication method to produce Si nanopillars (SiNPLs) with controlled size, periodicity and high aspect ratio on a large scale. These SiNPLs show a refractive index gradient condition from top to bottom of the SiNPLs due to the presence of inhomogeneous mesoporous structures. Here, for the first time we report the omnidirectional and polarization insensitive light coupling through mesoporosity induced waveguiding in SiNPLs. The optimized sample shows a minimum reflectance of <4% over a broad range of angles of incidence 8–48°. The inhomogeneous mesoporous structures on the top of SiNPLs act like a three dimensional grating to couple the light into waveguide modes and made headway for the omnidirectional light absorption. By using angle resolved reflectance spectra and angle dependent Raman scattering, we confirmed that the inhomogeneous porosity plays a significant role in the omnidirectional light trapping, especially in the lower wavelength region, where the nanopillar absorption dominates. Finite difference time domain (FDTD) simulations have been performed to examine the omnidirectional light absorption theoretically and to find the leaky waveguide modes associated with the SiNPLs. This work focuses on the porosity induced fundamental light trapping in SiNPLs, which is highly desired in the design of photonic and optoelectronic devices.

Equation of state of bcc-Mo by static volume compression to 410 GPa

Abstract: Unit cell volumes of Mo and Pt have been measured simultaneously to ≈400 GPa by x-ray powder diffraction using a diamond anvil cell and synchrotron radiation source. The body-centered cubic (bcc) phase of Mo was found to be stable up to 410 GPa. The equation of state (EOS) of bcc-Mo was determined on the basis of Pt pressure scale. A fit of Vinet EOS to the volume compression data gave K0 = 262.3(4.6) GPa, K0′ = 4.55(16) with one atmosphere atomic volume V0 = 31.155(24) A3. The EOS was in good agreement with the previous ultrasonic data within pressure difference of 2.5%–3.3% in the multimegabar range, though the EOS of Mo proposed from a shock compression experiment gave lower pressure by 7.2%–11.3% than the present EOS. The agreement would suggest that the Pt pressure scale provides an accurate pressure value in an ultra-high pressure range.

Experimental Investigation of the Acoustics of an Annular Aerospike Nozzle Flow

Abstract: The aeroacoustic characteristics of an over-expanded annular aerospike nozzle have been studied. The overall sound pressure levels of the aerospike nozzle are compared with the levels obtained from a convergent divergent nozzle for a given pressure ratio of 2.57 for the over-expanded condition. It is observed that the over-expanded annular aerospike nozzle generates screech tones at this NPR and in general shows higher OASPL levels than the over-expanded convergent-divergent nozzle at peak radiation direction.