16-01-2013, 04:43 PM
Nawneet Verma
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OBJECTIVE
To be an integral part of the research and development organization, meet challenging productivity, as well as bring about conductive personal and professional growth through an organization of high repute preferably in Oleo chemicals, surfactant, Cosmetic, personal care & Polymer/paint coating Industry.
EDUCATIONAL QUALIFICATIONS
M. Tech: Oleo chemicals & Surfactants Technology (2009-2011)
UDCT, NMU, Jalgaon (MH), India
First Division (CGPA: 6.9)
M. Sc: Organic Chemistry (2007-2009)
DDU Gorakhpur University, Gorakhpur (UP), India
Second Division (58%)
B. Sc: Chemistry, Botany & Zoology (2003-2006)
DDU Gorakhpur University, Gorakhpur (UP), India
Second Division
CONFERENCE ATTEDENTED
Attended the HPCI CONGRESS 2012, March 15 & 16, 2012 Bombay Exhibition Centre, Goregaon (E), Mumbai (MH), India.
Attended the International Conference on Oils and fats Division November 18 & 19, 2011 Indian Institute Of Chemicals Technology, Hyderabad (AP), India.
Attended the National Conference on Oils and fats Division March 4, 2011 Indian Institute Of Chemicals Technology, Hyderabad (AP), India.
Attended the APM – 2010 International Conference on Advancement in Polymeric Materials February 20, 2010 | Bhubaneswar Orissa, India.
Attended the National Seminar on Recent Advances in chemical Engineering March 20, 2010, UDCT, North Maharashtra University, Jalgaon.
Attended the Celebration of International Astronomy year 2009, September 25, 2009 school of Environmental & Earth Sciences, North Maharashtra University, Jalgaon.
RESEARCH EXPERIENCE
1 Sept.2010 to 31August 2011:M.Tech project dissertation Student, Organic Coatings & Polymers Division, Indian Institute of Chemical Technology (IICT), Hyderabad, 500007, India.
Supervisor: Dr. Ramanuj Narayan (Scientist-EI)
RESEARCH INTERESTS
Polymer Synthesis & Characterization, Polyurethane based Coating Research/Paints , surfactant manufacturing/formulations, and some oil research areas.
INTRODUCTION ABOUT MY RESEARCH WORK
In the present work of my M.Tech course based on oil (castor oil) ,formation of polyurethane use in coating. So many methods of polyurethane formations and many applications available, cheap and best. Formation of polymer from renewable resource, these resource cheep &available in environment. High performance renewable resource (vegetable oil) based polymer are not only interesting but also very useful with respect to current used of advanced coating material. So in the present study polyurethane. They synthesized by castor oil, maleic anhydride .methyldi-isocyanide with presence of azobis-isobutanenitrile catalyst. The formation of polymers was confirmed by FT-IR, 1H-NMR.SEM,& UV studies and measurement of hydroxyl value, solubility test & viscosity.TGA result indicated high thermal stability of polymers. Thus it confirms the formation of mechanicals strong & thermally stable polyurethane coating material from a vegetable oil.
For coating applications, this should be highly interesting in terms of the environmental and cost issues, where legislation plays an important role in the future trend towards coatings with lower volatile organic compounds than today. The intrinsic high amount of functional groups in oil based polymers offers great potential in all field of applications, where a high amount of cross-linking functionality is required.
Research experience
My M.Tech course of project research is focused on the experimental, synthesis and characterization of efficient polyurethane (PU) based on castor oil, maleic anhydride that can find applications in the field of coatings, adhesives and sealant production. These polymers can also be used for bio-based materials. The main advantages of these polymers are:
(i) Low Volatile Organic Component (VOC)
(ii) Eco-friendly to the environment
(iii)Cost effectiveness
(iv)Resists stain
(v) High gloss
The moisture cured polyurethane is widely used in the high performance coating sector, reactive hot melt adhesive industries, sealant production and for other high performance application. Therefore, by suitable variation in chemical structure, composition and synthetic conditions, it is possible to obtain tough, high-strength polymer with an extremely wide range of mechanical and thermal properties. In fact, it is this tremendous ability to readily modify the properties of these materials by variation in chemical structure and composition that has stimulated the enormous technological and scientific interest in these polymers. In order to formulate a set of polymer with improved properties, we have carried out systematic investigations of polymers obtained from the composition variations using different instrumental techniques and a systematic structure-property correlation was drawn from different studies.