The Diploma in Aircraft Maintenance Engineering (AME) offered by colleges in Delhi includes a strong focus on laboratory training and practical exposure, which is essential for developing real-world technical skills. The labs and practical components of the course are designed to closely simulate the working conditions of the aviation industry, ensuring that students are not just limited to theoretical concepts but also become proficient in applying them.
Throughout the course, students are introduced to various well-equipped laboratories and workshops, each tailored to a specific domain of aircraft maintenance. These include:
Airframe and Engine Lab, where students work on real or dummy aircraft structures and engine models. Here, they learn how to inspect and service components like fuselage, landing gear, control surfaces, and engines. Tasks may include assembling and disassembling parts, identifying faults, and understanding aircraft aerodynamics through physical models.
Avionics and Instrumentation Lab, which focuses on the electrical and electronic systems in aircraft. Students are trained in maintaining and troubleshooting components like communication systems, navigation instruments, cockpit controls, radar, and onboard sensors. This lab often includes mock cockpits, circuit testing benches, and simulation software.
Propulsion System Lab, where the focus is on engines—both piston and turbine types. Students learn how engines function, how to inspect their performance, and how to handle engine overhauls and servicing tasks. The lab includes cutaway models, fuel system modules, and demonstration engines for hands-on learning.
Aircraft System Maintenance Lab, which covers hydraulic systems, pneumatic systems, braking systems, flight control mechanisms, and environmental controls. These systems are critical to safe aircraft operation, and students learn to inspect, test, and troubleshoot them under guided supervision.
Non-Destructive Testing (NDT) Lab, where students are introduced to techniques for checking aircraft components without damaging them. This lab teaches ultrasonic testing, dye penetrant testing, and magnetic particle inspection—methods widely used in aviation safety and maintenance routines.
Computer-Aided Design (CAD) and Simulation Labs, where students gain exposure to designing and modeling aircraft systems using industry-standard software. Simulations also help students visualize how flight control systems behave under various conditions.
One of the most unique and career-defining aspects of the practical component is in-campus aircraft training. Many colleges, including those like Puran Murti Campus, have actual grounded aircraft on site. These aircraft are used for live maintenance demonstrations, giving students a real-world feel of working on planes. From inspecting rivets on an airframe to checking landing gear hydraulics, students get the kind of exposure thats often reserved for professionals in MRO (Maintenance, Repair, and Overhaul) settings.
In addition, there are mock AME workshops that mirror the setup of a professional hangar. These workshops help students get used to tool handling, maintenance logs, safety protocols, and documentation procedures—critical aspects of working in regulated aviation environments.
Overall, the practical training component of the diploma ensures that by the time students graduate, they are job-ready, having been exposed to the core technical, mechanical, and electronic systems that make modern aircraft safe and functional. These labs are not just places to practice—they are vital learning environments that transform theory into action.