U
U. Kamachi Mudali
Researcher at Indira Gandhi Centre for Atomic Research
Publications - 422
Citations - 8467
U. Kamachi Mudali is an academic researcher from Indira Gandhi Centre for Atomic Research. The author has contributed to research in topics: Corrosion & Nitric acid. The author has an hindex of 38, co-authored 419 publications receiving 7010 citations. Previous affiliations of U. Kamachi Mudali include Indian Department of Atomic Energy & University of Madras.
Papers
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Reduction of uranyl nitrate ions in a continuous flow electrochemical reactor
K. Sini,Satyabrata Mishra,C. Mallika,N.K. Pandey,Falix Lawrence,U. Kamachi Mudali,R. Natarajan +6 more
TL;DR: In this article, continuous mode electrochemical reduction of uranyl ions in nitric acid medium and in the presence of hydrazine nitrate was carried out in a divided cell at three different feed flow rates and cathodic current densities for the purpose of optimizing the process conditions for better conversion efficiency.
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Characterization of aluminide coatings formed by diffusion alloying on nitrogen-containing type 316L stainless steels
TL;DR: In this paper, diffusion alloying of pre-deposited aluminum film in nitrogen-bearing 316L stainless steels resulted in the formation of intermetallic phases like FeAl2 and Al13Fe4.
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Changes in Microstructural and Mechanical Properties of AISI Type 316LN Stainless Steel and Modified 9Cr-1Mo Steel on Long-Term Exposure to Flowing Sodium in a Bi-Metallic Sodium Loop
N. Sivai Bharasi,M. G. Pujar,K. Thyagarajan,C. Mallika,U. Kamachi Mudali,Anuradha Dhaul,M. Nandagopal,A. Moitra,S. Chandramouli,K. K. Rajan +9 more
TL;DR: AISI Type 316LN stainless steel and modified 9Cr-1Mo steel were exposed to flowing sodium at 798 K (525 K) for 30000 hours in a bi-metallic sodium loop as mentioned in this paper.
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Reduced graphene oxide/nano-Bioglass composites: processing and super-anion oxide evaluation
C Ashok raja,Subramanian Balakumar,Dhinasekaran Durgalakshmi,R.P. George,B. Anandkumar,U. Kamachi Mudali +5 more
TL;DR: In this paper, the superoxide anion production by n-BG particles, rGO and its nanocomposites was analyzed for their bond formation and defects using three different strategies.
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A silver nanoparticle loaded TiO2 nanoporous layer for visible light induced antimicrobial applications.
TL;DR: The efficacy of this modified layer to act as an antibacterial agent to minimize biofouling of titanium is demonstrated in this investigation.