Sep 2019 – Sep 2020 · 1 yr · Noida, Uttar Pradesh, India

• Worked towards the compilation of business reports (syndicate and prebooks) :
• Business Reports (Syndicate Reports) :
• 1.) Indian Electric Vehicle Market
• 2.) Global Low Sulphur and Ultra Low Sulphur Marine Fuel Oil Market
• 3.) Global Bio-Based Cosmetics and Personal Care Ingredients Market
• 4.) Global Construction Sealants Market
• 5.) Global Metal 3D Printing Market
• 6.) Global Low Temperature Co-Fired Ceramics Market
• Business Reports (Prebook) :
• 1.) Global Surface Treatment Chemicals Market
• Business White Paper
• 3D Bio-Printing for Live Human Organs

May 2018 – Aug 2019 · 1 yr 3 mos

• Department of Materials Engineering
• IMPRINT Project
• Land based turbine components with additive manufacturing (AM) in a consortium approach (IMPRINT project: Sep 2018 – Present)
•  Optimization of 3D printing parameters and heat treatment schedules - To achieve fully tempered martensitic X22 steel to be used as a steam turbine blade material with specified properties
•  Quantitative metallography and phase determination of AM X22CrMoV12-1 steel samples using SEM, X-Ray Diffraction (XRD) and Differential Scanning Calorimetry (DSC)
•  Mechanical characterization of AM alloys through micro-hardness measurement and
• tensile tests
• Crack and porosity analyses for 3D printed heat resistant steels (WIPRO 3D: Sep 2018 – Oct 2018)
•  Quantification of porosities and cracks in 3D printed samples prepared with different 3D printing parameters (laser power, laser scan speed, printing layer thickness, etc.) and attain the optimum parameters that can minimize the porosities and cracks in the materials
• Titanium microstructural effects on low cycle fatigue (PRATT & WHITNEY project: May 2018 – Sep 2018)
•  Microstructural characterization of the dual phase Ti alloys [Ti 6242 and Ti 6246] using Optical and Scanning Electron Microscope (SEM)
•  Phase fraction analyses using Image-J and MATLAB of the equiaxed alpha phase

Dec 2017 – Apr 2018 · 4 mos

• Worked at Indian institute of Science, Bangalore as a Project Associate on the project "Development of Supercritical CO2 Turbo-machinery for Solar Thermal Power Plants". The project was supervised by Prof. Dr. Punit Singh in the department of Inter-disciplinary Center for Energy Research. The task involved the development of thermal barrier coatings (TBC) on the critical components of high speed turbomachinery equipments such as bearings, shafts, seals etc. The theoretical heat transfer calculations across the TBC layers (Top ceramic coat of 7YSZ and Bond coat of NiCoCrAlY) have been done. The theoretical calculations were followed by some thermal simulations to observe the temperature gradient across the TBC layers. The futuristic ideas involve the deposition of TBC through either Air Plasma Spray (APS) or Electron Beam Physical Vapour Deposition (EB-PVD), depending upon the availability of the equipments.

Jul 2016 – May 2017 · 10 mos · Hyderabad Area, India

• Synthesis of Ni-Ni3Al superalloy foams from pure Ni foams through Pack Aluminization and subsequent Heat Treatment Processes