Siddharth Biswal

adcpam@r.postjobfree.com H: 631-***-**** 277 Wyckoff Ave, Ramsey, NJ 07446.

Master of Science Degree Holder in Mechanical Engineering from Stony Brook University, Stony Brook, NY (MSME)

Bachelors of Technology Degree Holder in Mechanical Engineering from ITER, Bhubaneswar, Odisha, India(B.Tech)

Summary

Looking for full-time job in Mechanical and Manufacturing industries having recently graduated. My areas of interest are Computer Aided Design, Computer Aided Manufacturing, Robotics and Finite Element Analysis with a penchant for utilizing my skills to the fullest and learning new ones as well.

Skills

Software: CATIA, Solidworks, AutoCAD, MATLAB,Minitab,Fusion 360, Revit, ANSYS, MS Excel, MS Word, MS Office.

Tools: Six sigma analysis, lean manufacturing, GD&T, Quality Assurance, FMEA, APQP.

Experience

Nobel BioCare Mahwah, New Jersey,

United States.

Process Engineer

10/2018 - Present

Accountable for the performance of multiple production lines of the dental implant system to ensure it meets the highest standards, product quality and regulatory requirements.

Responsible for risk assessment and process validation for new raw material by performing inspection tests such as Bi-axial Flexural strength, humidity, flowability and viscosity test, color testing, roughness testing.

First in line to address production issues that need immediate attention by employing temporary counter measures followed by permanent solutions if required. Tools used include Six Sigma techniques such as Kaizen, PSP, Standard Work, Pooka Yoke and 5 whys.

Keeps track and reports KPIs to manager(s) and perform statistical analysis of the process to ensure maximum quality and identify any potential trend.

Performs verification and validation (IQ, OQ, PQ) activities of new/modified production processes, equipment and workflows.

Review technical drawings, PLC programs,SOP’s,PFMEA,CNC macro code and CAM milling strategy to troubleshoot manufacturing issues on the production floor.

Rourkela Steel Plant Rourkela, Odisha, India.

Summer Trainee

05/2015 - 06/2015

Monitored metrics to prepare a detailed root cause analysis to develop corrective action and implemented Six Sigma analysis tools to promote continuous improvement and improve production flow.

Developed a new layout and process flowchart for general manufacturing processes, resulting in 65% reduction in material resources, reduced cost, improved process efficiency, on-time delivery customer satisfaction & prepare Bill of Material (BOM) for all the manufactured parts.

Implemented machining techniques like Plastic Injection Molding, Extrusion & Forging (mostly steel products like Aluminum), Milling, etc. both conventional & CNC machine with the help of engineering drawing.

National Institute of technology Rourkela, Odisha, India.

Industrial Design Intern

05/2014 - 07/2014

Detailed study of CAD tools like Catia, Solidworks and Ansys for the modeling of the 3D geometric information of machine/mechanical components including part design, assemblies, FEA (Finite Element analysis), simulation and automatically generate 2-D production drawings.

Successfully improved visualization ability of machine components and assemblies before their actual fabrication through modeling, 3D printing, animation, shading, rendering, lighting and coloring.

Academic Project

Vibration and control design project (Using MATLAB)

o Successfully derived the equation of a motion in matrix form of an airplane and its wings and suggest a better design.

o Able to determine natural frequencies and mode shapes & the undamped response for the given initial conditions.

Design and manufacturing of a multi-purpose load carrier.

o The project aims to improve the working condition of laborers and workers at many places globally like construction site, factories, ports and railway station etc. & to prevent various occupational hazards and demonstrating product design and ergonomic consideration in welfare of human life.

Design of an exoskeleton for disabled animals.

o Simulate the mechanism in such a manner that it exactly replicates the walking mechanism of the animal.

o Create a compact design so that the weight of the exoskeleton is not too heavy for the canine to carry.

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