SUMMARY
Mechanical Engineer with * years of experience in engine component design, analysis and report generation
Managed multiple design analysis projects, while effectively communicating, negotiating with internal and external vendors to assure product requirements and quality standards
Proficient in 2D and 3D Computer Aided Design (CAD) software, reading detailed sketches and complex assembly drawings, with hands on experience on GD&T
Experienced in performing static and structural dynamic analyses to for design optimization
Technical Skills:
CAD Tools: Pro-E/ Creo 2.0/3.0 (1000 hrs), Creo stimulate, Catia V5(200hrs), AutoCAD(200 hrs), Engineering Equation Solver, Nx, Solidworks(200 hrs).
Product lifecycle management: Windchill, Teamcenter.
MS Office Packages: MS Word, MS Excel, MS Power-point, Outlook.
Statistics Tools: Minitab, Mathcad
Programming Languages: Basics of C-language, C++, Java, Labview, Matlab, V+ IDE, Arduino.
Academic Qualification:
Bradley University, Peoria, Illinois, USA, Master’s degree in Mechanical engineering, Cumulative GPA: 3.4 /4.0
GRIET, Hyderabad, India, Bachelor’s degree in Mechanical engineering, Cumulative GPA: 3.75 /4.0
Experience:
S.S cooling Towers, Hyderabad, India
Assistant Design engineer
Model generation and part drawing preparation in CREO
Design of blower fan with housing, shafts, snap-ring
Trained and implemented drafting, detailing with BOM, GD&T, Machining Symbols, according to ASME standards.
Layout concept design of Engine Sub components
Quality check of drawings and model with the use of various checklists before the completion stage
Linear finite element analysis of components – studied and implemented Mesh optimization, element aspect ratio optimization, with various boundary conditions and analyzed stress results
Experience in handling of data management in Intra link (Windchill and Teamcenter)
Design calculations, material selection, catalogue and manual preparations.
Track project progress regularly and develop status reports to management.
Implemented DFMEA to identify failure modes and risk mitigation
Root cause analysis and development of solutions based on FEA analysis
Created and updated engineering drawing notices (EDN) for NPD and change level projects
Bradley University, Peoria, Illinois, USA- Research
Design and fabrication of punch and die for manufacturing corrugated fins:
Layout concept design for Punch and die mechanism using Autocad
Modelling and part drawings of plates with punch and die using CREO
Managed and controlled the fin folding machine operation using Labview
Pneumatic pressure for punching and folding were controlled by pressure gauge valves.
Responsible for producing intended designed corrugated fins
Advanced Thermodynamics:
Optimization of various Power cycles, Engines and heat pumps using EES and Deductive Problem
Design systems, components and processes to meet the thermal needs
Deductive problem solving methodology to solve open ended problems
Engineering equation solver to optimize the process
Engineering economics to determine optimum efficiency of the Power cycles at the least total cost.