User:Naga Aravind Revuru: Difference between revisions
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==Contact Info== | ==Contact Info== | ||
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*Naga Aravind Revuru | *Naga Aravind Revuru | ||
*The University of Texas at Dallas | *The University of Texas at Dallas | ||
* | *Richardson, TX, USA | ||
*[[Special:Emailuser/Naga Aravind Revuru|Email me through OpenWetWare]] | *[[Special:Emailuser/Naga Aravind Revuru|Email me through OpenWetWare]] | ||
Currently affiliated with Nano Thermal Bio Engineering Lab at The University of Texas at Dallas. | |||
==Education== | ==Education== | ||
<!--Include info about your educational background--> | <!--Include info about your educational background--> | ||
* | * 2016, MS- Mechanical Engineering, The University of Texas at Dallas, Texas, United States | ||
* 2013, BS- Mechanical Engineering, VIT University, Vellore, India | |||
* | |||
==Research interests== | ==Research interests== | ||
<!-- Feel free to add brief descriptions to your research interests as well --> | <!-- Feel free to add brief descriptions to your research interests as well --> | ||
# | # Nanotechnology and Fabrication Techniques | ||
# | # Thermal and Fluid Sciences | ||
# | # Composite Materials | ||
==Projects and Publications== | |||
<p>1) Torrefaction of lignocellulose biomass by utilizing waste heat from engine exhaust gas (Funded by IEI, Government of India)</p> | |||
< | <p>2) A review on thermo electric materials and an insight to an investigation for a sustainable synthesis of strontium based thermo electric material</p> | ||
< | <p>3) Photo catalytic activity of anatase TiO2 /PVA film coated glass plate (Funded by Materials division, VIT University)</p> | ||
<p>4) Progressive failure analysis of composite structured material subjected to different thermal and humidity conditions</p> | |||
<p>5) Preparation and Characterisation of Chromium Intercalated Amine Functionalized graphite filler for High performance epoxy application – A study among different preparation routes (Funded by Advance materials Division, VIT University)</p> | |||
/ | <p>6) Micro-Controller Based Hydraulic Movement Support to Provide Dimensional Accuracy in Re-Bar Rolling in Steel Plants </p> | ||
<p>7) Investigation of growth of Nano sized oxide layers on CP-Ti and Ti-4Nb-6V using Electrophoretic Deposition (Funded by Engineering Materials Division, VIT University)</p> | |||
</ | |||
==Useful links== | ==Useful links== | ||
*[[OpenWetWare:Welcome|Introductory tutorial]] | *[[OpenWetWare:Welcome|Introductory tutorial]] | ||
*[[Help|OpenWetWare help pages]] | *[[Help|OpenWetWare help pages]] | ||
Revision as of 23:20, 24 October 2014
Contact Info
- Naga Aravind Revuru
- The University of Texas at Dallas
- Richardson, TX, USA
- Email me through OpenWetWare
Currently affiliated with Nano Thermal Bio Engineering Lab at The University of Texas at Dallas.
Education
- 2016, MS- Mechanical Engineering, The University of Texas at Dallas, Texas, United States
- 2013, BS- Mechanical Engineering, VIT University, Vellore, India
Research interests
- Nanotechnology and Fabrication Techniques
- Thermal and Fluid Sciences
- Composite Materials
Projects and Publications
1) Torrefaction of lignocellulose biomass by utilizing waste heat from engine exhaust gas (Funded by IEI, Government of India)
2) A review on thermo electric materials and an insight to an investigation for a sustainable synthesis of strontium based thermo electric material
3) Photo catalytic activity of anatase TiO2 /PVA film coated glass plate (Funded by Materials division, VIT University)
4) Progressive failure analysis of composite structured material subjected to different thermal and humidity conditions
5) Preparation and Characterisation of Chromium Intercalated Amine Functionalized graphite filler for High performance epoxy application – A study among different preparation routes (Funded by Advance materials Division, VIT University)
6) Micro-Controller Based Hydraulic Movement Support to Provide Dimensional Accuracy in Re-Bar Rolling in Steel Plants
7) Investigation of growth of Nano sized oxide layers on CP-Ti and Ti-4Nb-6V using Electrophoretic Deposition (Funded by Engineering Materials Division, VIT University)
