Mahmoud Hassan

Courses Demonstrated: Quality Control, Manufacturing laboratory, Manufacturing processes I, Manufacturing processes II, Advanced Material Technology, Welding and non-destructive testing, Mechanical Drawing.

Mechanical design is to design parts, components, products, or systems of mechanical nature. Over +18 years of experience using SOLIDWORKS premium almost Daily, and tools integrated with to apply the governing mathematical models of common engineering design problems gained by scientific study, experience and practice. Furthermore, finite element analysis (FEA) used to analyze mechanical systems from the perspective of loading capability, stability, and fatigue life is implemented. What I can support: ✔️ 3D design - from idea to 3D model, proved by rendered Moton analysis, animations of complex systems even springs systems, ropes and pulleys, or even textiles by SolidWorks ✔️ Detailed 2D drawings ready for workshop and manufacturing Aided by GDT, animated Exploded view with a bill of materials (BOM) and cut-list. Providing a detailed process sheets and production sequence based on design principles. ✔️ Flatten view with bending instructions for sheet metal parts and Laser, Waterjet, or Plasma cutting-ready drawings (DXF, DWG) ✔️ a great wide knowledge with Material selection, properties and suitable manufacturing processes mated with the most common global designations and standards. ✔️ Design for further automation and control procedures in a synergetic approach to be integrated toward final acting useful products and systems. ✔️ 3D print-ready models (STL) for additive manufacturing techniques. ✔️ Certified SolidWorks professional since 2010 😊 Professional ANSYS User: ✔️Advanced Simulation Expertise: Proficient in using ANSYS software for performing complex simulations and analyses, including structural, thermal, fluid dynamics, and electromagnetic simulations. ✔️Finite Element Analysis (FEA): Skilled in setting up and executing finite element analyses to predict how products will react to real-world forces, vibration, heat, fluid flow, and other physical effects. ✔️Multiphysics Simulation: Capable of performing Multiphysics simulations that combine different types of physical phenomena (e.g., thermal and structural) to obtain more accurate results. ✔️Optimization and Validation: Uses ANSYS tools to optimize designs for performance, cost, and manufacturability, and to validate designs against industry standards and regulations. ✔️Complex Problem-Solving: Tackles complex engineering problems, providing solutions that improve product reliability, efficiency, and performance. ✔️Industry Applications: Applies ANSYS expertise across various sectors.