Sign in

Engineer Mechanical

Charlotte, North Carolina, United States
January 23, 2018

Contact this candidate


Susin Murugan

*** ******** **** ***** ***#****, NC - 28262 Email: Contact: 813-***-****


Professional in Product Design and Analysis- a certified course on Design and analysis in softwares like AutoCAD, Creo, Ansys and Catia.

Application of CAD software for design and FE analysis of thin plates and beam.

Application of modal analysis to find the correct spindle speed of a milling tool,used diffent methods to find the stability.

Applied CFD to find the behavior of fluid flow past obstacle and using it to analyse the explosion in industry.

Experience in CNC and CMM machine (Monarch VMC 45 & ZEISS PRISMO7navigator).


University of North Carolina at Charlotte, Master of Science in Mechanical Engineering 01/2016 – 12/2017

GPA: 3.77/4

Related Coursework: Vibration of discrete and continuous systems, Engineering Design, Structural Dynamics of Production Machinery, CFD, FEA, Advance Coordinate Metrology, Machine tool metrology.

Anna University, India, Bachelor of Engineering in Mechanical Engineer 09/2009 – 05/2013

Technical: AutoCAD, Inventor,Solidworks, Abaqus,Creo,Ansys,CatiaV5,Matlab, NC codes and MS office.


Professional in Product Design and Analysis

Got certified in Auto CAD, Creo, Ansys and CATIA.

The course work carries the learning of all the basics of the software. Designing part and assembly are done in the software . CAD modelling and analysis of the modal was also done. Basics for FEA and GD&T were also learned.

Modal analysis on a Milling tool to determine its best spindle speed with respect to natural frequency 01/2017 to 02/2017

The Frequency response function (FRF) is measured with the help of impact hammer and accelerometer.

Natural frequency and modal parameters are determined by using peak peaking method.

Determined most flexible mode shape while considering Direct FRF and Cross FRF.

Comparison of analytical milling stability analyses with the time domain simulation 03/2017 to 04/2017

The stability lobe diagram of a milling tool is found using the fourier series and the average tooth angle method.

Both the results are compared with the time domain simulation to find its accuracy.

Determining the volumetric accuracy of Monarch Vertical Machining Center (VMC 45) 01/2017 – 5/2017

Developed error model matrix by finding 21 geometric error of machine with the help of parametric error separation.

Performed Laser Interferometry with using ISO 230 standard procedure and ASME standards B5.54.

Evaluated volumetric accuracy of machine was 4.8 µm with correction of temperature, pressure and humidity.

ZEISS PRISMO7 Navigator 8/2017 to 12/2017

I worked with CMM machine (ZEISS PRISMO7 Navigator) doing various part measurement as well as performance testing of the machine like “E-test” of ISO 10360-2,Gage R&R.

I have also worked with metrology devices like FARO Laser Tracking Ion and ROMER absolute arm

CFD analysis of Industrial explosion 11/2016 to 12/2016

This project mainly deals with the deflagration to detonation phenomenon caused by the congestion unt.

CFD simulations are done using Ansys with multiple degrees of congestion and the velocity, pressure and temperature of the resultant wave are studied.

Teaching Assistant 06/2016 to 06/2017

Working in Physics Resource Center teaching undergraduates mechanical and electrical engineering courses.

Courses like Physics for Science and Engineering 1 & 2 were taught by me in this course of time along with lab.

CFD analysis of Fluid flow 2/2016 to 3/2016

This projects deals with the study of steady laminar flow across a cavity and a obstacle

CFD analysis was done in Ansys for flow across a cavity and the flow inside the cavity, the vortex formed are analysed.

The Flow past a obstacle is done in ansys with a laminar flow. The change in flow from laminar to turbulent once it passes the obstacle was analysed.

Independent Study 03/2016 to 06/2017

The study is based maily on the vibration and FE analysis of thin beams and plates.

The Natural frequency and FRF of the beams and plates are found using Abaqus software. The static stiffness and dynamic stiffness are also found and compared with the experimental data.

Giving the Fundamentals of Engineering Exam on January 27 2018.

Contact this candidate