H
H. Muthurajan
Researcher at Armament Research and Development Establishment
Publications - 26
Citations - 963
H. Muthurajan is an academic researcher from Armament Research and Development Establishment. The author has contributed to research in topics: Hydroxide & Coprecipitation. The author has an hindex of 11, co-authored 26 publications receiving 866 citations. Previous affiliations of H. Muthurajan include High Energy Materials Research Laboratory & University of Mumbai.
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Environmentally compatible next generation green energetic materials (GEMs).
Mahadev B. Talawar,R. Sivabalan,T. Mukundan,H. Muthurajan,Arun K. Sikder,B. R. Gandhe,A. Subhananda Rao +6 more
TL;DR: This paper briefly reviews the literature work reported on the environmentally compatible green energetic materials (GEMs) for defence and space applications and briefs the principles of green chemistry pertaining to HEMs.
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Computer simulation for prediction of performance and thermodynamic parameters of high energy materials
TL;DR: A new code viz., Linear Output Thermodynamic User-friendly Software for Energetic Systems (LOTUSES) developed during this work predicts the theoretical performance parameters such as density, detonation factor, velocity of detonation, detonations pressure and thermodynamic properties such as heat of detonations, heat of explosion, volume of explosion gaseous products.
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Prediction of heat of formation and related parameters of high energy materials
TL;DR: The development of user-friendly computer code for the prediction of heat of formation based on two approaches, which is a totally integrated software for computing most of the vital parameters of HEMs requiring mainly the molecular structural information of an explosive under consideration.
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Novel hydroxide precursors to prepare NaNbO3 and KNbO3
TL;DR: In this article, fresh niobium hydroxide was precipitated from NbF 5 solution using an aqueous ammonium hydride under basic conditions, and the phase content and lattice parameters were determined by X-ray diffraction (XRD).
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Computer code for the optimization of performance parameters of mixed explosive formulations.
TL;DR: The new algorithm incorporated in LOTUSES (Version 1.4) enhances the efficiency and makes it a more powerful tool for the scientists/researches working in the field of high energy materials/hazardous materials.