Welcome to My Portfolio

As a self-taught CAD enthusiast, this portfolio showcases the skills I’ve developed in my own time, outside the university curriculum and projects. I am proficient in SolidWorks, Onshape, Autodesk Inventor, and Fusion 360. Currently, I’m expanding my expertise with CATIA V6, refining my skills in surfacing, design automation with DriveWorks in SolidWorks, and exploring integrated CAD PLM in 3DExperience.

I also have strong competencies in CAE, with experience in SolidWorks Simulations, SIMULIA (ABAQUS CAE), and ANSYS Mechanical.

If you are looking for my projects instead, click the button below.

2-Staged Reduction Gearbox, 1:13 Configuration. Made in SolidWorks, rendered in SolidWorks Visualize

2-STAGE REDUCTION GEARBOX 1:13

PRIMARY SKILLS APPLIED

  1. SolidWorks Modelling and Toolbox Integration: Developed detailed 3D models of the spur gears, shafts, and housing for the 2-stage reduction gearbox, incorporating standard components like bearings and fasteners from the SolidWorks Toolbox.

  2. Advanced SolidWorks Assemblies: Applied advanced assembly techniques to accurately position and align components, ensuring proper meshing and function of the gearbox.

  3. SolidWorks Configurations: Utilised configurations to create and manage different gear ratios and design variations for the gearbox.

CYCLODIAL DRIVE 1:1, 3mm ECCENTRICITY

PRIMARY SKILLS APPLIED

  1. SolidWorks Modelling: Developed and refined 3D models of the cycloidal drive components, ensuring precise geometry and fit.

  2. SolidWorks Toolbox and McMaster-Carr: Used SolidWorks Toolbox for standard components and sourced additional parts from McMaster-Carr, incorporating them into the SolidWorks model.

  3. SolidWorks Assemblies and Interference Checks: Used in-context CAD techniques in SolidWorks Assemblies to align components and perform interference checks, ensuring proper functionality and collision prevention.

TYPE 1 PRESSURE VESSEL

PRIMARY SKILLS APPLIED:

  1. SolidWorks Weldments: Gained experience in using SolidWorks Weldments to design and model the pressure vessel's support structures.

  2. Finite Element Analysis (FEA): Applied FEA techniques to optimise the pressure vessel saddle support design, focusing on minimising stress concentrations.

  3. ABAQUS CAE: Utilised ABAQUS CAE for performing FEA simulations, specifically using 5mm thick 430 A1-Grade Stainless Steel for the vessel’s main body.

  4. Australian Pressure Vessel Standard (AS 1210—2010): Ensured design adherence to the Australian Pressure Vessel Standard, AS 1210—2010, for safety and regulatory compliance.

SPACEX’S DRAGON CAPSULE

PRIMARY SKILLS APPLIED:

  1. SolidWorks Modelling with Surfacing and Direct Editing: Combined surfacing techniques with traditional solid modelling workflows, including Boolean operations and feature-based modelling, to create a cohesive design

  2. Advanced Surfacing and Surface-Body Operations: Utilised advanced surfacing tools like Lofted Surfaces, Boundary Surfaces, and Surface Trim to create and manipulate complex geometries. Employed surface-body operations, such as knitting and thickening, to seamlessly convert surface models into solid bodies while maintaining surface continuity (G0, G1, G2) for smooth transitions and enhanced aesthetic and functional quality.

MORE COMING SOON