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Hello !
I'm AMIT 

Mechanical Designer | Grad Researcher | Simulation Enthusiast | Soccer Lover

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As a Mechanical Engineer, I have a keen interest in the fields of Mechanical Design, Automotive, Manufacturing and am always learning new technologies and methods.

 

Being a Mechanical major student, I always had an urge to observe and apply the fundamentals of mechanics to the physical world.

CAD Designing, Failure analysis, Product Development are a few topics that interest me a lot. 

 

I like to explore innovative ways in fields of Vehicle Dynamics, Powertrain systems, 3D printing, Optimization, Mechanics of Solids.

I strongly believe in continuous improvement and application of Lean Six Sigma tools, which help me to achieve the best possible result in an optimized way.

                                                                     HIGHLIGHTS

  • Designed, fabricated and tested a heater for pool boiling and droplet vibration mechanism

       o Carried out Motion studies and GD&T analysis of mechanism in Solidworks

       o Lowered cost of the heater by 75% and surface area to 50%

       o Optimized dimensions of parts using thermal and fatigue failure analysis in  ANSYS                    Workbench

  • Research on Microstructure alteration to reduce permanent plastic deformation in Copper
    o Applied image processing using GRABIT Matlab tool for X-Y-Z burr height spatial study
    o Performed stress analysis using Solidworks and ANSYS
    o Performed precision Milling and Machining Operations on the workpiece for sample preparation

  •  End to end responsibility for designing solutions and development plans applying SAP ABAP and SAP BW

  • Using Mass spectrometry and Chromatography techniques to detect compounds in the sample

  • Performed Tuning on Triple Quad mass spec instruments (Agilent/AB Sciex) to optimize RF to mass    ratios

   


                                                           PROJECTS

  • Product development of a record player- 25% more features, 33% less cost through benchmarking, CVCA, A3 charts, QFD analysis and performed Pareto cost analysis to reduce customer complaints

  • Designed/simulated four-wheel vehicle suspension and leaf spring - Created electrical Simulink model for quarter, half and full car suspension geometry, formulated transfer functions and performed failure analysis

  • 3D Printed kinematic Viking boat sculpture -Designed (SolidWorks), printed and assembled using Fortus 450mc machine (ASA thermo-plastic – base material and SR-30 - support material) with a layer of 0.178mm

  • Lean Six Sigma - Material Handling solution - Reduced production delay time 15 % by developing a new process for Ranger design using DMAIC tool, Process flow diagrams, Root cause analysis, 5Why's, Ishikawa, PDCA

  • Gear set design intended for use as a right-angle motor speed reducer - The project    design included designing of all gearbox parts including essential parts i.e. shafts, keys, bearings, Zerol, bevel, and Helical gears

 

 

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