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Shady N.

Mechatronics engineering professional with strong SolidWorks experience

Al Mansurah, Egypt

Global rank:

14,902 / 133,462

Skill pts: 5

2D AutoCAD 2025 FEA Mechatronics SolidWorks Stress Analysis

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About

Mechatronics engineering graduate from the German University in Cairo (GUC) with professional experience in mechanical design and industrial automation. I am proficient in SolidWorks (CAD/FEA), VHDL (FPGA), and Embedded C (STM32), specializing in transforming technical calculations into functional 3D models. My key accomplishments include designing a 1-ton shop crane with full stress analysis, modeling high-ratio planetary and spur gearboxes.

Experience

Mechanical Deisgn Engineer Aratronics Research Center · Internship Jul 2025 – Oct 2025 3 mos Cairo, Cairo Governorate, Egypt Project: Comprehensive Mechanical System Development (Phase-Based)

Phase 1: Analytical Design & Calculations

Executed the full mathematical design for a high-efficiency 3-stage spur-gear reduction gearbox (1:20 ratio) and a planetary gearbox (1:40 ratio).

Calculated critical gear parameters, including module selection, pitch diameters, and tooth counts, to achieve specific torque and speed output requirements.

Conducted structural calculations for a 1-ton capacity shop crane, determining stress and deflection limits to select optimal standard mild steel rectangular cross-sections.

Phase 2: CAD Modeling & Engineering Validation

Transformed analytical data into high-fidelity 3D models using SolidWorks, ensuring precise assembly and interference-free motion.

Performed Finite Element Analysis (FEA) to simulate real-world loading conditions, validating that the gear teeth and crane structure could withstand operational stresses with an appropriate safety factor.

Generated technical documentation and assembly drawings, ensuring the designs were ready for manufacturing and integration.

Education

German University in Cairo Bachelor, Mechatronics, B+ 2021 – 2026

Other experience

3D Design 1-Ton Industrial Shop Crane

Engineered a 1-ton capacity shop crane, focusing on structural stability and material efficiency.

Performed manual stress and deflection calculations to select appropriate standard mild steel rectangular cross-sections.

Modeled the full assembly in SolidWorks, ensuring the design accounted for weldment gaps and structural joint integrity.

Verified the design through simulation to ensure minimal deflection under maximum load capacity.