Mostafa A. Rawash

Mechanical Design Engineer

Specializing in Robotics, CAD & Product Design

es-MustafaAbdulRahman2025@alexu.edu.eg

+201156165968

Alexandria, Egypt

About Me

Mechanical Design Engineer with over 3 years of hands-on experience in mechanical design and robotics systems, particularly specializing in Remotely Operated Vehicles (ROVs) and Unmanned Ground Vehicles (UGVs). Proficient in advanced CAD software including SolidWorks, AutoCAD, and Keyshot Studio for realistic rendering.

Education

Bachelor's Degree
Mechanical Power Engineering
Faculty of Engineering - Alexandria University
June 2020 – July 2025

Core Expertise

Robotics Systems Design
CAD Modeling & Simulation
Materials Selection & Manufacturing
Team Leadership & Management

Featured Projects

Engineering Solutions That Make a Difference

7-DOF Passenger Car Suspension Modeling (Graduation Project)

Focuses on modeling and analyzing a 7-DOF suspension system for a passenger vehicle using Simulink. The model includes sprung and unsprung mass dynamics, tire lateral forces based on the Magic Formula, and detailed representation of suspension behavior under cornering conditions.

The project demonstrates applied vehicle dynamics, control modeling, and data-driven validation methods.

MATLAB/Simulink Vehicle Dynamics Control Modeling

Remotely Operated Underwater Vehicle (ROV)

Multi-functional ROV developed for underwater mission tasks requiring robust mechanical solutions. Focused on real-world engineering challenges with emphasis on modular design and operational efficiency.

3D MODEL

REAL - WORLD

UNDERWATER OPERATION

SolidWorks Ansys Keyshot Studio Pneumatic Systems Sealing Techniques

Unmanned Ground Vehicle (UGV) - Multitasking Rover Robot

A ground-based UGV developed to detect and collect simulated landmines in challenging outdoor terrains. The rover combined mobility, precision actuation, and environmental interaction.

3D MODEL

REAL - WORLD

SolidWorks Ansys Keyshot Studio

Electric Lift Table

Compact and practical lifting mechanism designed for moderate loads with emphasis on mechanical simplicity and functional reliability. This project demonstrates ability to transform theoretical calculations into working solutions.