Mechanical Engineering Microsoft Office
Resume:
ANIKET BORUDE
E-mail: *******@***.*** www.linkedin.com/in/aniket-borude Phone: +1-480-***-****
Mechanical engineering graduate with a strong understanding and experience in applying design principles and manufacturing concepts like Lean, new product development and commercialization and working with 3D CAD and FEA tools such as SolidWorks, CREO, and ANSYS, seeking an opportunity to contribute in Design, Development, Analysis, Testing and Manufacturing of products
EDUCATION
Master of Science-Mechanical Engineering Arizona State University, Tempe, AZ GPA: 3.63 May 2017
Bachelor of Engineering in Mechanical Engineering FCRIT, University of Mumbai, Mumbai, India June 2015
RELEVANT SKILLS
Software: ANSYS, MATLAB, SolidWorks, CREO, AutoCAD, JMP, Inventor, LabVIEW, ABAQUS, Microsoft Office
Technical: 3D CAD Modeling, Finite Element Analysis, FMEA, GD&T, DFM, DFA, JIT, 5S, Six Sigma, Kanban, Design of
Experiments (DOE), Design Optimization, Solar Commercialization, Documentation
Soft Skills: Strong Written and Verbal Communication Skills, Enthusiastic Learner, Attention to Detail, Good Organizational Skills, Team Player, Critical Thinker, Excellent Analytical and Problem-Solving Skills, Presentation Skills
PROFESSIONAL EXPERIENCE
Graduate Service Assistant ASU March 2017 – May 2017
Worked as an assistant for professor for Polymers and Composites course of 70 students at Arizona State University
Organized and maintained home-work records and solved queries of students through in person meetings and email
Associate Sun Devil Campus Store, (Follett Corp), ASU December 2015 – December 2016
Assisted in processing online orders of more than 1500 books and general merchandise in a high-volume workplace
Managed a high-volume workload and underwent customer service training to improve customer satisfaction and productivity
Applied principles of Lean Manufacturing, 5S and JIT to ensure demands were met by identifying and resolving process defects
Investigated workstations for unproductive down times and improvised operations based on requirements
Intern AISI December 2014
Participated in an internship and industry training program on Automotive IC Engine Design & Development
Managed a team of 5 students on an industrial research on design methodologies to reduce piston thermal loading in an IC Engine
Presented research to experts from OEM’s and achieved the ‘Award of Excellence’ among 20 other teams
INDEPENDENT STUDY AND PROJECTS
Capstone plus further Independent study Automatic Control of a Hydraulic Pump Motor July 2014 - May 2015
Led a team of 4, from conceptual design to fabrication and installation of a cost-efficient prototype of a pump motor controller
Created prototype design in LabVIEW interface for Arduino and prepared 3D CAD drawings in SolidWorks along with BOM
Applied manufacturing techniques such as Failure Mode & Effect Analysis (FMEA) and Design for Manufacturing (DFM)
Conducted technical evaluations such as final product verification and functional testing to validate system design
Publication : Authored and published "Automatic Control of a Pump Motor” ; published and presented paper at IJAFRSE
Design and Structural Analysis of a Polymer beam ASU January 2016 - May 2016
Compared Structural Analysis results and Lab Load Tests results of deflection of a beam to the accuracy of 99.2%
Utilized iterative designing method of CAD modelling and performed structural analysis on ANSYS on multiple beam designs
Manufactured the final prototype and conducted load test on beam and compared results with FEA results
CAD Modeling Projects ASU January 2016 - May 2016
Designed and customized a ladder with adjustable attachments for uneven terrain in PTC CREO
Developed a home appliance consisting of a meat grinder, blender and a mixer all in one and used Surfacing and Sheet Metal
Optimization of a Vehicle Suspension system ASU January 2016 - May 2016
Conducted a nonlinear axisymmetric analysis FEA of a tire (Rubber) of an off-road vehicle to reduce its rolling resistance
Created the 3D CAD tire design in the SolidWorks and assigned variables of tire dimension to be tested for optimized design
Conducted a design of experiments study in ANSYS to find the optimized values of the variables, for minimum rolling resistance
PV concept commercialization ASU January 2017 – May 2017
Created a future business model (commercialization of concept through production) for recycling old and faulty crystalline silicon solar PV modules
Implemented Goldsmith Commercialization principles for designing business model
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