Mechanical Design Engineer
AFAQ
Total years of experience :2 years, 11 Months
● Design and develop efficient production machines for food and pharmaceutical industries, utilizing methods such as CNC machining, sheet
metal fabrication, turning, argon welding, grinding, polishing, and laser, plasma, and water jet cutting.
● Apply appropriate manufacturing processes, considering material properties, production volume, cost, quality requirements, and driving
continuous improvement for cost optimization and innovation.
● Conduct feasibility studies and risk assessments to ensure technical viability and compliance with standards and regulations.
● Collaborate with cross-functional teams to integrate design with manufacturing processes, ensure quality standards, and manage
procurement.
● Generate CAD models using Autodesk Inventor software, creating detailed and accurate representations of production machine designs for
analysis, visualization, and further design iterations.
● Export technical drawings from CAD models, providing comprehensive documentation and specifications for manufacturing and assembly
processes.
● Customizing small-scale CNC machine designs for home shops, considering specific bed dimensions and optimizing space efficiency.
● Prototyping and testing wide range designs to ensure functionality, usability, and manufacturability.
●CAD Design & Product Development: Expertise in using CAD software for product design, incorporating engineering principles.
● Versatile Prototyping: Proficient in utilizing additive manufacturing technologies (FDM, SLA, LDM, SLS) and subtractive manufacturing
(CNC machining, and laser cutting) for rapid prototyping. Capable of transforming digital designs into physical prototypes with precision
and efficiency.
● CNC Machining & Laser Cutting: Skilled in operating CNC routers for precise component fabrication.
● Experienced in molding and casting processes with Silicone Molds for replicating and producing multiple identical parts.
● Involved in the design and fabrication of soft robotics projects, utilizing innovative materials and techniques to create flexible and
responsive robotic systems.
● Designing and fabricating basic PCBs, utilizing microcontrollers such as ATtiny and ATmega.
The Fab Academy is a fast-paced, hands-on learning environment that teaches students principles and applications of digital fabrication based on MIT’s popular, rapid-prototyping course How To Make (almost) Anything, taught by Professor Neil Gershenfeld. Fab Academy was founded to teach skills at Fab Labs – an outreach project from MIT’s Center of Bits and Atoms that has today grown into a network of over 1500 labs.
Final project: Design of A Self-Configuring Modular Robo