Mechanical Engineering Design

Nitin Mukesh Patlori

***** ******** **, ********, ** 48120 **************@*****.***

352-***-****

SUMMARY

Highly analytical, performance-driven Mechanical Engineering professional with experience in technical design manufacturing and quality processes

Proven expertise in researching new concepts, development, simulation, optimization, verification and validation.

Highly developed problem solving, quality and time management abilities

Result-oriented, decisive leader and can thrive in fast-paced, growth-oriented and highly competitive environment

Strong CAD expertise in AutoCAD (Certified Associate by Autodesk), SOLIDWORKS, CATIA V5, Creo and Inventor software, Strong GD&T knowledge (ASME Y14.5)

Efficient in Finite Element Analysis software ANSYS, ABAQUS and CalFEM and exposure to Multi-Body-System(MBS) Analysis

Familiar with Advanced product quality planning (APQP) and QC tools: FMEA, DOE, Root Cause Analysis, QFD, Risk Reduction, ISO Regulations, Lean Manufacturing practices such as Design for Manufacture and Assembly concepts (DFMA) and Six Sigma

Strong Knowledge about quality tools such as Gage R&R, Ishikawa Diagram and Control charts etc.

OTHER TECHNICAL SKILLS

Windows XP/7/8/10, Linux, Microsoft Office Suite, Adobe Photoshop

C programming, Java, MATLAB, MINITAB

RELATED PROJECTS

Non Linear Static and Dynamic Finite Element Simulation and Analysis Apr 2016

Simulated nonlinear static and dynamic analysis on hyper elastic Mooney-Rivlin material mechanical systems using SOLIDWORKS

Drafted mechanical systems from 2D drawings using SOLIDWORKS for simulation

Studied effects of element type and mesh density on the results

Compared the results obtained with analytical solution, analyzed differences

Applying Lean Six Sigma to reduce electricity spends Nov 2015

Estimated electricity spends of common areas of on-campus housing could be cut by 30%

Used DMAIC process to simulate 10 scenarios, best scenario showed a cut up to 42%

Used tools such as Pareto charts, SIPOC process map to measure the problem

Used Fishbone Diagram, GUT Matrix, 5 why to analyze the problem

Compared the results, published recommendations and benefits

Topology and Sizing design Optimization of a Beam structure Nov 2015

Used modified 99-line topology optimization code to find optimum configuration and satisfy initial boundary conditions

Studied effect of discretization and oscillation control parameter on optimum topology

Interpreted topology design output into CalFEM beam model to minimize weight of structure

Compared size optimum design with topology optimum design, tabulated and presented the results

Torque-Arm Modeling, Simulation and Optimization Apr 2015

Modeled Torque Arm using ABAQUS software

Studied effect of element types

Carried out Convergence study on the model to find the vertical displacement on stress application.

Used Richardson's Extrapolation to determine reasonable mesh size

Carried out parameter study to design the lightest structure using stress constraints

Design and Solid Modeling of USB Cabled Mouse using Free Form Geometry Apr 2015

Created Solid model of all components of USB cabled Mouse with reasonable accuracy, widely using free form geometry in SOLIDWORKS

Assembled all components of the model and modeled to include additional features

Prepared detailed and assembly drawings for all components of the model

Wrote Part histories giving detailed description of all the components of the model

Finite Element Analysis and Design of a Truss Element Feb 2015

Designed and Modeled 6 and 8 bay truss model (Suspension Frame) and find element forces and deflections under three loading conditions (tension,shear and bending) using ABAQUS software

Determined cross sectional properties of a cantilever beam by approximating the truss element to the beam

Performed FSD (Fully Stressed Design) design of 6 Bay model under three different loading conditions

Design of Quad Ridged Horn Antenna using Design for Manufacture and Assembly Concepts May 2014

Designed and developed quad ridged horn antenna by CAD tool SOLIDWORKS 2010 and by using Lean Manufacturing concepts: DFMA concepts to reduce manufacturing and assembly costs, decrease wastage while simultaneously enhancing its quality

Proposed three design models, calculated their assembly times and found that design-3 had an assembly time 35% less than the next best model

Design, Manufacture and Analysis of Composites to find Optimal Composition using Taguchi Method Feb 2014

Manufactured composites with composition of Poly Ethyl Ether Ketone & Hydroxyl Appetite

Designed Punch and Die for preparation of samples using AutoCAD and Inventor

Used Taguchi method (MINITAB) to predict optimal composition of composite by analyzing results from flexure tests on samples and found the sample composition that had more flexural strength than steel

Studied and made sure ISO regulations are adhered to

EXPERIENCE

Department of Recreational Sports, University of Florida -Gainesville, USA Sep 2014 – Apr 2016

Intramural Sports Official

Officiate Volleyball Matches at sporting events, games, or competitions, to maintain standards of play and to ensure the game rules are observed

Judge performances in sporting competitions in order to award points, impose scoring penalties, and determine results

Signal participants or other officials to make them aware of infractions or to otherwise regulate play or competition

RANE Brake Linings Limited– Hyderabad, India Dec 2013 –May 2014

Project Trainee/Quality Intern

Improved production rate of sintered copper clutch buttons by 2% using Production Part Approval Process (PPAP)

Improved manufacturing efficiency by analyzing and planning work flow, space requirements, and equipment layout

Initiated Process studies and performed PFMEA to improve process flow

Contributed to team effort by accomplishing related results as needed

Department of Mechanical Engineering, CMRCET - Hyderabad, India Jan 2012 – Feb 2014

Research Assistant

Designed and developed Punch and Die system for manufacturing composite work samples

Collected data from records and conducted basic research – Participated in team research projects and conducted individual research, including library research

Prepared samples using different compositions, laboratory testing, analyzed final results and drafted research paper

HMT Machine Tools Limited – Hyderabad, India May 2013 – Jul 2013

Project Trainee/Manufacturing Intern

Designed, developed and manufactured work head spindle on CNC turning center

Wrote part programming code for CNC turning center

Worked on detailed drawings and blueprint of work head spindle

EDUCATION

Master of Science in Mechanical Engineering Apr 2016

University of Florida-Gainesville, Florida, USA

Bachelors of Technology in Mechanical Engineering May 2014

Jawaharlal Nehru Technological University-Hyderabad, India

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