Institution
National Aerospace Laboratories
Facility•Bengaluru, India•
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.
Topics: Coating, Corrosion, Mach number, Sputter deposition, Aerodynamics
Papers published on a yearly basis
Papers
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TL;DR: In this article, the effect of rivet loads on life estimation including the use of concepts such as by-pass stresses is discussed and the issue of fail safe and damage tolerant design of civil aircraft structures with riveted joints is addressed, especially the implication of unequal load distribution on the failures of such joints and it is suggested that these unequal rivet load distributions be catered for at the early design stage itself via finite element analysis and the possibility of an overarching safety factor could be considered that incorporates both ultimate load and damage tolerance conditions.
28 citations
TL;DR: In this article, a recursive least square (RLS) algorithm is proposed for parameter estimation in the context of reconfigurable/restructurable control, estimation of aircraft short period and Dutch roll characteristics, and online stability (gain and phase) margin estimation.
28 citations
28 citations
TL;DR: The porosity and surface area of the films were increased with the doping of Sn which makes these films suitable for opto-electronic applications.
28 citations
TL;DR: In this paper, an experimental study is conducted on epoxy composite, reinforced with nano alumina and Multiwall CNTs (0.5 and 1.0) in monolithic and hybrid forms to evaluate its stiffness and damping properties.
Abstract: An experimental study is conducted on epoxy composite, reinforced with nano alumina and Multiwall CNTs (0.5 and 1.0 wt%) in monolithic and hybrid forms to evaluate its stiffness and damping properties. Among monolithic reinforcements, Multiwall CNTs (1.0 wt %) have shown a significant increase in loss modulus, whereas nano alumina (0.5 wt%) has increased the storage modulus of the composite. With hybrid reinforcements, there is further increase in storage modulus (0.5 wt%) observed; however, a slight reduction in loss modulus (1.0 wt%) is noticed in comparison with CNT-reinforced nanocomposite. Based on these experimental observations, a two-layer hybrid composite configuration, consisting of nano alumina (0.5 wt% as layer 1) and Multiwall CNTs (1.0 wt% as layer 2) is fabricated and tested. The obtained results have indicated significant and simultaneous increase in storage and loss modulus, which brings out the importance of using the hybrid reinforcement configurations.
28 citations
Authors
Showing all 1850 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Harish C. Barshilia | 46 | 236 | 6825 |
| K.S. Rajam | 42 | 83 | 4765 |
| Kozo Fujii | 39 | 411 | 5845 |
| Parthasarathi Bera | 39 | 136 | 5329 |
| R.P.S. Chakradhar | 36 | 166 | 4423 |
| T. N. Guru Row | 36 | 309 | 5186 |
| Takashi Ishikawa | 36 | 154 | 5019 |
| Henk A. P. Blom | 34 | 168 | 5992 |
| S. Ranganathan | 33 | 211 | 5660 |
| S.T. Aruna | 33 | 101 | 4954 |
| Arun M. Umarji | 33 | 207 | 3582 |
| Vinod K. Gaur | 33 | 92 | 4003 |
| Keisuke Asai | 31 | 350 | 3914 |
| K. J. Vinoy | 30 | 240 | 3423 |
| Gangan Prathap | 30 | 241 | 3466 |