I build prototypes in renewable energy, IoT products, healthcare devices, robotics, CAD design, and manufacturing quality.
I am Rajinder Singh, a final-year Bachelor of Engineering student in Mechanical Engineering at Chandigarh University. My work connects mechanical design, thermal-fluid fundamentals, manufacturing quality, electronics, sensors, and automation.
My academic projects include a reflective dual-axis solar tracking and energy harvesting system, a voice-controlled air purifier, an automated portable ventilator, and an autonomous robotic vehicle. These projects helped me understand how real engineering systems combine structure, fabrication, sensors, control logic, testing, and documentation.
Alongside academics, I have gained manufacturing and quality assurance exposure at Gilard Electronics, working with inspection, process documentation, SOPs, quality alerts, control plans, and production processes such as stamping, moulding, machining, and electroplating.
Click any project to view images and technical details.
SolidWorks, AutoCAD, Solid Edge, xDesign, mechanical layout, enclosure design.
Arduino, ESP32, ESP8266, sensors, motor drivers, stepper motor, IoT monitoring.
Inspection, control plans, SOPs, quality alerts, stamping, moulding, machining, electroplating.
Solar PV, thermoelectric generators, cooling systems, heat transfer, thermal-fluid fundamentals.
CSIR-CSIO • ASME India • April 2025
Participated in a joint seminar and workshop focused on additive manufacturing, sustainable engineering, and advanced manufacturing technologies, featuring expert sessions from IITs, industry leaders, and CSIR scientists.
Gilard Electronics, Mohali • 2025 – Present
Chandigarh University • 2022 – 2026
IIT Guwahati • Completed March 2026
Learned end-to-end digital manufacturing including CAD modeling, CAM processes, additive manufacturing (3D printing), and toolpath planning for real-world production systems.
Verify →Georgia Institute of Technology • 97.5%
Developed understanding of stress analysis, failure theories, material selection, and mechanical component design for engineering applications.
Verify →KAIST • 98.5%
Learned vibration analysis, dynamic system modeling, differential equations, and control concepts used in mechanical and structural systems.
Verify →Coursera • 100%
Gained knowledge of fluid flow modeling, numerical methods, and simulation techniques used in thermal-fluid engineering applications.
Verify →University of Colorado Boulder • 87.35%
Learned principles of solar, wind, and energy systems, including energy conversion, sustainability, and evaluation of renewable technologies.
Verify →IIT Bombay • 94.72%
Learned IoT architecture, sensors, communication protocols, and real-world applications in automation and smart systems.
Verify →