Mechanical Engineer Engineering
Resume:
SHRENIK KUMAR JAIN
ac1ndd@r.postjobfree.com 972-***-**** https://in.linkedin.com/in/shrenikkumarjain
SUMMARY
Mechanical engineer with great problem solving ability in industrial and R&D environment. Possess excellent leadership and technical skills in handling deadline bound projects and achieving goals. Actively seeking full time opportunities in manufacturing/design domain to accomplish duties with innovation and quality.
4 years’ experience with CAD programs and engineering drawings using GD&T ASME Y14.5 drafting standard.
3 years’ experience of FEM/CFD analysis software.
2 years’ experience with 3D printing, material testing and filament fabrication.
Industrial experience with facility layout planning, process development, maintenance and production supervision.
EDUCATION
Master of Science in Mechanical Engineering, GPA 3.6/4.0 May 2017
University of Texas at Dallas, Richardson, TX
Coursework: CAD, Research (3D Printing and Design), Reliability Based Design, Finite Element Techniques, Optimization Theory and Practice, Semiconductor Process Technology, Thesis
Bachelor of Engineering in Mechanical Engineering, GPA: 7.63/10 June 2014
Rajiv Gandhi Technical University, India, Certificate of Merit and Silver Medalist
TECHNICAL SKILLS CERTIFICATIONS
CAD Packages: CATIA, Creo 2.0, Solid works, Ansys, UG NX, ABAQUS, Matlab, Simulink, Hypermesh, Auto CAD, Abaqus
Certifications: Solidworks certified user for part modeling, sheet metal, assembly and BOM Six sigma white belt Lean manufacturing
Expertise: MS office, Rapid prototyping, GD&T, DFMEA, Extrusion, Plant layout planning, Process development, ISO 9000
PROFESSIONAL EXPERIENCE
R&D Associate (Additive Manufacturing), The University of Texas at Dallas Aug 2015-May 2017
Innovative Process development for continuous reinforced fiber 3D printing to improve mechanical properties by 200%.
Fabricated nanocarbon (NC) filled PLA based filament and achieved high electrical, mechanical properties.
Composite filament up to 20% filler was successfully fabricated using melt extrusion and solution mixing.
Collaborated in the design and development of humanoid robot, ball & socket joints, and soft robotics “Jellyfish” using Solidworks.
Implemented additive manufacturing for cost effective and durable printing of parts designed for different projects.
Gained insights on: maintenance and troubleshooting, training of machinery- laser cutter, CNC, 3D printers, extruder, etc.
Great exposure by collaborating with different teams working on varied projects to achieve the required timely deliverables.
Mechanical Engineer, JMD Industries, Harda, India June 2014-July 2015
Efficiently designed plant layout in AutoCAD to install 20+ weaving, lamination machineries using a lean six sigma approach.
Developed and sustained process improvements to reduce production costs and increase yields.
Supervised daily production capacity of more than 11,000 lbs per shift of HDPE bags, tarpaulin, laminated woven slack etc.
Supervised and allocated staff of 20 people on the manufacturing floor for efficient production.
Engineering Intern, Narmada Offshore Construction Pvt. Ltd., Mumbai, India Jun 2013-Dec 2013
Investigated breakdown of high range (1000HP) engines and compressors using root cause analysis, FMEA and AFMEA concepts.
Established a sound maintenance schedule to minimize the average engine breakdown by 1 month.
ACADEMIC PROJECTS
Cost optimization for 3D printed parts 33% cost reduction of 5 part assembly was using liner function approximation method. Two point function approximation technique was used to developed objective function and was incorporated in Matlab for optimization of printing parameter.
Reliability based design optimization of an articulating Reliability of articulating rod was calculated using Hasofer Lind-Rackwitz Fiessler (HL-RF) and Monte Carlo Simulation (MCS) method Existing design was later optimized using Matlab optimization toolbar resulted in 2.4% increase in reliability and 3.6% saving in weight.
FEM final project Developed Matlab code for failure analysis of cantilever beam subjected to shear force and prescribed load. Convergence study was performed in term of maximum principle stress and maximum displacement.
Radial engine modeling and simulation Constructed scaled CAD model of an existing radial engine on Solid Works. Studied part motion by performing kinematic simulation on Solid Works.
LEADERSHIP / ORGANIZATIONAL ACTIVITIES
Originations SAE, IEEE, UTD-SAE Motorsports, ASME
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