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Projects

Showcase of Work

Pure Sample and 1%wt MWCNT Sample

Pure Sample and 1%wt MWCNT Sample

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Titan 2HR Kudo3D.jpg

Corning.jpg

Corning.jpg

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Ultrasonicator.jpg

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Hot Disk set up.jpg

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Set up.jpg

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Hot Disk.jpg

Hot Disk Set Up for Different Concentration Samples

Hot Disk Set Up for Different Concentration Samples

SEM images for 0.25% and 0.5% wt MWCNT

SEM images for 0.25% and 0.5% wt MWCNT

SEM images for 1% wt MWCNT

SEM images for 1% wt MWCNT

Experimental test results

Experimental test results

Average test results

Average test results

average test results

average test results

” Study Thermal Property of Stereolithography 3D printed Multiwalled Carbon nanotubes filled Polymer Nanocomposite"

May 2019- November 2020

Using stereolithography to cure a multiwalled carbon nanotube and polymer composite material to study and enhance its thermal properties. By using an AM method we also tackle the problem of design limitation, cost, and energy problems.

  • Applied material science and synthesis knowledge to fabricate samples with varying concentrations of multiwalled carbon nanotubes in polymer composite material for testing

  • Tested samples based on the testing requirements for thermal conductivity and achieved a 9.76 % increase

  • Successfully integrated stereolithography in the process by using TITAN 2HR by Kudo 3D to print CAD models of composite materials using SolidWorks

  • Developed the relationship between the concentration of MWCNT and the thermal conductivity of the material

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Silica Aerogel for new Fire wall Design

March 2019– July 2019

Worked under Dr. Qiong Nian as a Research Aide for Salt River Project (SRP) to find an alternate solution to the material used for the firewall used between transformers to reduce the cost and maintenance of the firewall.

  • Researched paper for collecting literature on fire-resistive materials

  • Prepared and tested fire-resistant material to company as well as ASTM Standards

  • Evaluated results and made weekly presentations

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“Design and Refurbishment of Electromagnetic Vibration Exciter”

June 2016- April 2017

To study the different mode shapes and effects of vibrations on a cantilever beam we fabricated an Electromagnetic Vibration Exciter.

  • Built the design of the 3-D model of the exciter in Inventor 2015

  • Simulated the model in ANSYS and tested on a FFT Analyzer

  • Drafted the report and presented the results

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Composite Material FDM Printing

November 2019

Tested the Ultimaker S5 by printing pure ABS honeycomb structure and Carbon fibre honeycomb structure

  • CAD model of the structure

  • printing different honeycomb structure to study the resolution of the printer

  • Performed compression test to experimentally obtain the compressive strength of pure ABS and Carbon Fiber infused ABS  

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IMG-5252.jpg

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resin topo.jpg

Study of Titan 2 KUDO3D Parameters

August 2019

Studied the exposure time for curing resin for various geometries and other parameters like Lift Height, Speed, Delay.

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External Flow Simulation

November 2019

For this project, we studied the effect on lift and drag forces as a result of the tilt angle of the flying saucer in a wind tunnel.

  • Made the design using Design modeler in ANSYS 2019 R2

  • Used Boolean feature to separate the flying saucer and the domain of wind tunnel

  • Simulated the model in ANSYS Fluent and calculated the values for lift and drag forces for different tilt angles.

  • Compiled and presented the report

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MultiPhase Flow Simulation

           October 2019

In this project, we studied the flow of an oil drop on an inclined surface and its flow under the influence of gravitational force.

  • Made the design using Design modeler in ANSYS 2019 R2

  • Used Boolean feature to separate the oil drop from the domain

  • Simulated the model in ANSYS Fluent.

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Mass Flow Rate in Side Pipes

September 2019

The aim of the project was to optimize the diameters of the side pipes to have an equal mass flow rate throughout the pipes.

  • Made the design using Design modeler in ANSYS 2019 R2

  • Optimized diameters of the side pipes using MATLAB code

  • Simulated the model in ANSYS Fluent by optimizing the  diameters to have equal mass flow rates in all the side pipes

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Analysis of Blanking Process

July 2017

The aim of this project was to analyze the different forces acting during the blanking process on the die and the blank

  • Modeled the design in Solidworks 2017

  • Used ANSYS 2017 to perform structural analysis

Projects: Projects
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