Undergraduate Thesis: Numerical Investigation of Stress Field Near the Vertex of a 3D Three Layer Elastic Bonded Joint.
Embedded Files
Computational Model
Contour of displacement component U2
Contour of von mises stress
The Tenth Order Modal
The Tenth Order Modal
stress σ_22 against ϕ at Al2024 T3-Resin interface
stress σ_22 against ϕ at Al2024 T3-Resin interface
Intensity of Singularity on Ti6Al4V-Resin Interface
Intensity of Singularity on Ti6Al4V-Resin Interface
Ideal Gas Law Simulation
Ideal Gas Law Simulation
A Python-based simulation inspired by the Younes Lab YouTube tutorial, visualizing the behavior of particles in a 2D container to mimic aspects of the ideal gas law. This project explores particle dynamics, boundary collisions, and real-time visualization with Matplotlib. A fun experiment to tweak, explore, and learn!
Monte-Carlo-Approximation-in-Python
Columnar, Bamboo, Cubical & Cylindrical Microstructure Visualization Using Neper
The figures show the columnar, bamboo, cubical, and cylindrical microstructures, with 50, 20, 500, and 100 grains, respectively.
Simulation of Piezoelectric Response Under Uniform Pressure in Abaqus
"Electric Potential vs. Time Plot Showing a Peak Value of 50V"
Evaluation of Bandgaps/Dispersion curves in 1-D Phononic Crystals using Comsol multiphysics
This study identifies band gaps in 1-D phononic crystals by analyzing frequency vs. wavevector dispersion curves. It explores the impact of material and structural parameters on dispersion behaviour and validates the computational model for accuracy.
This study identifies band gaps in 1-D phononic crystals by analyzing frequency vs. wavevector dispersion curves. It explores the impact of material and structural parameters on dispersion behaviour and validates the computational model for accuracy.
Blast Response Analysis of Sandwich Plates Under Explosive Loading Using ABAQUS
The objective of this study is to analyze the response of a sandwich panel subjected to explosive loading, focusing on its energy variation and the effects of applied strain rates. A 0.5 kg TNT explosive is positioned 100 mm above the center of the panel's upper plate. The analysis incorporates strain rate-dependent plasticity and ductile damage models, derived from established literature, to simulate realistic material behavior in the absence of experimental validation. This approach aims to provide insights into the structural performance and damage mechanisms of sandwich panels under blast conditions.
Academic Project: Construction and Performance Test of a Hybrid Solar-Wind Energy Power Generation System
The main objective of this project was to construct a wind-solar hybrid power generation system and to test the performance of the constructed hybrid solar-wind power generation system.
Personal Projects
The Stress Concentration of a Plate with a Hole in the Center
The Stress Concentration of a Plate with a Hole in the Center
Worked on the stress concentration of “hole in the plate” for hyper elastic material rubber. The strain energy potential model Ogden n=3 was used for the analysis.
Numerical Analysis of High Impact Velocity of Velocity of a Bullet to Steel Plate in LS-DYNA
Developed the model of the plate and the bullet for impact test using the FEA method.
Analyzed the effective plastic strain, kinetic energy, internal energy, kinetic energy, total energy, resultant rigid body displacement and acceleration.
Thermo-Mechanical Stresses of Two-Layered Composite Cylindrical Pressure Vessel Using FEA
Thermo-Mechanical Stresses of Two-Layered Composite Cylindrical Pressure Vessel Using FEA
Numerically investigated the effects of temperature and internal pressure on displacement fields in compound cylinders using ABAQUS CAE. In contrast, increasing the number of layers reduced the hoop stress in the pressure vessel. The internal pressure effect was more significant when the cylinders were made from the same material (steel-steel) compared to when they were made from different materials (steel-aluminium).
WATER TANK
WATER TANK
Modeled in: Solidworks
Rendered in: Keyshot
Grabcad Link:
HEAT EXCHANGER
HEAT EXCHANGER
Modelled in: Solidworks 15
Rendered in: Keyshot 7
Grabcad Link:
JET ENGINE
JET ENGINE
Modeled in: Solidworks
Rendered in: Keyshot
Grabcad Link:
Wheel and Tire
Wheel and Tire
Modeled in: Fusion 360
Rendered in: Fusion 360
Grabcad Link:
Random Home Interior
Random Home Interior
Modelled & Rendered in Blender
Modelled & Rendered in Blender
Grabcad Link:
2D Cohesive Zone Model
2D Cohesive Zone Model
The cohesive zone model is a computational model used to simulate the behaviour of cracks and interfaces in materials. It is commonly used in fracture mechanics and materials science to study the initiation and propagation of cracks, as well as the behaviour of adhesive joints and interfaces.
Modelling of 3D Composite Materials Structures using ABAQUS
Modelling of 3D Composite Materials Structures using ABAQUS
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