EDUCATION
MASTER OF MECHANICAL ENGINEERING
Relevant Units: Solid Mechanics, Engineering Management, Signals and Systems, Engineering Management, Structural Analysis, Ethics and Innovation, Principles of Industrial Maintenance, Materials and Manufacturing, Fluid Mechanics
Projects: New Age Business Issues Faced by Corporate Leaders and Managers within the Oil and Gas Industry, Improving Management Functions at Apple Inc. Maintenance of CNC machines, Innovation of Self-Healing Concrete.
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BACHELOR OF MECHANICAL ENGINEERING (HONS)
Relevant modules include: Mechanical Engineering Professional Skills, Design and Manufacturing, Engineering Mechanics, Fundamentals of Thermofluid Dynamics, Engineering Mathematics, Instrumentation and Drive Systems, Bioengineering, Managing Engineering Operations, Materials Science
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Attended industrial visits to Caterpillar industry and Pearson Engineering at Newcastle. Shadowed the employers at all the sectors of the industry. Delivered a presentation providing an overview of the company.
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Worked with Stanley Black & Decker as a part of designing a new innovative product for the industry.
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Manufactured crane hook meeting certain criteria by analysing using ANSYS Workbench.
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Performed an individual research project based on tissue engineering, developing the project report based on the techniques and results used and obtained respectively.
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Worked in a group of 11 to design a power generating wind turbine with a limited budget of £150/-
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Conducted regular weekly meeting to perform the allocated tasks for each member of the team in a timely and accurate manner. All the CAD drawings were made using Autodesk Inventor.
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Developed report writing skills by preparing several reports of the project.
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Worked by obeying all Health and Safety regulations i.e. by using PPE.
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Understand the functions and the working of a live wind turbine and apply it into the live working model. Made individual reports based on several engineering projects.
Dissertation/ Research Experience: Design and manufacturing of 3D porous functionalized scaffolds for guided bone tissue engineering by wet spinning technique.
In this project, three dimensional (3D) scaffolds based on polycaprolactone (PCL) and nano-hydroxyapatite (nHA), of different compositions were manufactured by wet-spinning technique for the new scaffold designs for application in bone tissue engineering. The initially prepared scaffolds were characterized based on their morphological, chemical and mechanical properties by using Scanning Electron Microscopy (SEM), Fourier Transform Infrared Spectroscopy (FTIR-ATR), Energy Dispersive Spectroscopy (EDS) and compression test. The optimal scaffold composition is found from this characterization and undergoes further functionalization by employing the layer-by-layer (LBL) assembly using manuka honey.