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Mechanical Engineer Engineering

Location:
Harrisburg, PA
Salary:
$35 per hour
Posted:
August 12, 2020

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Resume:

SUMIT MINHAS

**************@*****.*** 313-***-**** www.linkedin.com/in/sumit-minhas-a6a910172

247B, 821 Sequoia Drive, Harrisburg, PA- 17109

SUMMARY

Diligent Mechanical Engineer with experience in Design & Release, Manufacturing and Product Development with good CAD/CAE skills. Master’s Degree in Mechanical Engineering. Proficient in conceptualizing, designing, developing, analyzing, prototyping, testing and production release. Available immediately

Skills Set-

Technical Skills- Machine Design, FEA, Prototyping, AutoCAD, DC and brushed motor design, Machining, Welding, Tooling, ASME pressure vessel calculations, Sheet Metal Fabrication, High Tolerance Machining, injection molding, complex assembly, die casting and machining, Root cause Analysis, GD&T, Design for Manufacturability (DFM), CNC Programming, Design for Assembly (DFA), CFD and Project Management, Six Sigma and Lean Manufacturing

Software Skills- NX, PLM-Teamcenter, Revit, SolidWorks, CATIA V5 R17, Pro-E, Abaqus, MATLAB MS-office tools- word, excel, outlook, PowerPoint, Project

Education:

MS in Mechanical Engineering Wayne State University Detroit, MI GPA- 3.12, Graduation- April 2020

BS in Mechanical Engineering Punjab Technical University Punjab, India GPA- 3.0, Graduation- May 2017

Professional Experience:

ThermoFisher, Manufacturing Engineer, Millerberg June 2020- Present

• Utilized PLM software (Teamcenter) to maintain EBOM for parts and update information about the activities during ECR (Engineering Change Request), ECN (Engineering Change Notice) and ECO (Engineering Change Orders) phases of design change.

• Applied drawing tolerances using specification limits and GD&T principles

• Make Assembly and Designed & developed 3D models of Medical device instrumentation using CAD software Solidworks and documentation creation

• Used HYPERMESH and ABAQUS Performed stress-strain analysis of Design parts and components.

• Involved in continuous improvement design team took initiatives to reduce the weight and cost of the chassis.

• Lead weekly Design Review meetings discuss about the design iterations, hard points, DFM, cost of the components and keep them updated about the progress of ongoing projects.

• Initiate customer plant trials, document results of the trial and obtain customer sign-off

• Collaborate with quality engineers in performing Root Cause Analysis (RCA) on Critical To Quality (CTQ) issues

• Release parts into the customer system per Statement of Work.

Mechanical Intern, High Tech Industries, MOHALI January 2017- July 2017

• Designed electromechanical valves, pump impellers and volutes AutoCAD and SOLIDWORKS.

• Part 3D models for chassis components in CATIA V5 and developed 2D drawing under GD&T standards alongwith interpreting computational fluid dynamics

• Provide inputs for Design Verification Plan and Report (DVP&R), Production Part Approval Process (PPAP) and Design Failure Mode and Effect Analysis (DFMEA) to identify any unexpected field failure modes.

Mechanical Intern, INFOWIZ, CHANDIGARH May 2015- August 2015

• Created 2D drawing using AutoCAD for sheet metal operations and created Bill of Materials (BOM).

• Read engineering drawing and fabrications of components taking into consideration manufacturing feasibility

• Made use of SOLIDWORKS for making 3D CAD models, assemblies for Pumps, Keys and Couplings.

ACADEMIC PROJECT

Manufacturing Processes Mechanics, Wayne State University April 2019

• To calculate the load capacity of the bracket using Hypermesh and Abaqus

• Determined the deflection at loading point and stresses of the same bracket using different mesh sizes

• Studied the effect of mesh density on same model varying from coarse to fine mesh

• Determined the buckling capacity of the bracket and made a proposal on how to improve the buckling capacity

Construction of Unmanned Aerial Vehicle/Quadcopter using Solidworks/AutoCAD November 2019

Created and implemented a design plan for Unmanned Aerial Vehicle/Quadcopter.

Analysed the optimum inputs for a successful flight and load carrying capacity.

Added data acquisition capabilities to the Unmanned Aerial Vehicle/Quadcopter.

Performed durability tests on mechanical components, assembly & casing.

Performed computer simulations to increase strength, reduce the weight & optimize equipment design.

Analysed mechanical requirements to determine feasibility of design.

Lead project scheduling and budgeting to successfully and in-time complete project.



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