Aircraft Maintenance Training
Build technical expertise in aircraft systems and maintenance operations.
Program Overview
This program introduces students to the mechanical, structural, and operational aspects of aircraft maintenance, focusing on safety, compliance, and system reliability.
Our comprehensive curriculum combines theoretical knowledge with hands-on practical training to prepare students for successful careers in aviation maintenance engineering.
Aircraft Maintenance Engineering — Training Roadmap
A structured pathway to professional AME certification
Eligibility & Counselling
Who this stage is for: Students with technical aptitude interested in aviation maintenance careers.Education:
- 10+2 with Physics, Chemistry & Mathematics – OR
- 3-year Diploma (Mechanical / Electrical / Electronics / Aeronautical)
Age:
- Minimum 16 years to start training
Medical & Physical Fitness
Essential health requirements for aviation maintenance professionals.Requirements:
- Must be physically and medically fit
- Should not have color blindness & night blindness
- Having a keen interest in Aviation & related fields
Medical Certification:
- DGCA Class II Medical (as applicable)
DGCA AME Ground School
Choose your specialization stream based on career goals.B1 – Mechanical Stream
Focuses on aircraft structure, engines, and mechanical systems.
- • B1.1: Aeroplanes (Turbine)
- • B1.2: Aeroplanes (Piston)
- • B1.3: Helicopters (Turbine)
- • B1.4: Helicopters (Piston)
B2 – Avionics Stream
Focuses on aircraft electrical, instrument, and navigation systems.
- • Electrical systems
- • Avionics and flight instruments
- • Communication and navigation systems
Training Modules & Curriculum
Comprehensive module-based training aligned with DGCA standards
B1 Core (Common Foundation Modules)
Applicable to all B1 categories – B1.1 / B1.2 / B1.3 / B1.4
Mathematics
- Algebra, trigonometry, logarithms
- Engineering calculations
- Aviation-related numerical applications
Physics
- Mechanics and motion
- Thermodynamics
- Electricity & magnetism
- Applied physics for aircraft systems
Electrical Fundamentals
- DC & AC theory
- Aircraft power generation
- Wiring, circuit protection, batteries
Electronic Fundamentals
- Diodes, transistors, amplifiers
- Basic electronic circuits used in aircraft
Digital Techniques
- Logic gates and digital systems
- Aircraft monitoring and indication systems
Materials & Hardware
- Aircraft metals and composites
- Corrosion, fatigue, damage
- Fasteners, bearings, control cables
Maintenance Practices
- Tools and workshop practices
- Aircraft manuals & documentation
- Human factors in maintenance
- Safety management and quality systems
Basic Aerodynamics
- Principles of flight
- Lift, drag, thrust, and stability
- Aircraft performance basics
Human Factors
- Human performance limitations
- Error management and safety culture
Aviation Legislation
- Aircraft Rules & CARs
- AME privileges and responsibilities
- Certification and airworthiness regulations
B1 Specialized Mechanical Modules
Turbine Aeroplane Aerodynamics, Structures & Systems
B1.1 – Turbine Aircraft
- Airframe structures
- Flight controls
- Fuel, hydraulic & landing gear systems
Turbine Engines
- Gas turbine engine construction
- Fuel control & lubrication
- Engine monitoring and protection
Aircraft Aerodynamics, Structures & Systems
B1.2 – Piston Aircraft
- Light aircraft structures
- Piston aircraft systems
Piston Engines
- Piston engine theory
- Ignition, induction & cooling systems
Helicopter Aerodynamics, Structures & Systems
B1.3 / B1.4
- Rotor systems
- Helicopter flight controls
- Transmission and drive systems
Piston / Turbine Helicopter Engines
- Helicopter engine installations
- Power transmission and limitations
Career Outcome – B1
Professional Roles
- Aircraft Mechanical Engineer
- Line & Base Maintenance
Industry Opportunities
- Airlines, MROs, Charter Operators
- Training fleets & GA aircraft
B2 Core (Common Modules)
Modules 1 to 10 are the same as B1: Mathematics, Physics, Electrical Fundamentals, Electronic Fundamentals, Digital Techniques, Materials & Hardware, Maintenance Practices, Aerodynamics, Human Factors, Aviation Legislation
B2 Specialized Avionics Modules
Aircraft Electrical & Avionics Systems
- Electrical power generation & distribution
- Wiring practices & protection
- Circuit analysis and troubleshooting
Aircraft Instruments
- Flight instruments
- Engine indicating systems
- Pitot-static systems
Communication & Navigation Systems
- VHF / HF communication
- Navigation systems (VOR, ILS, GPS)
- Radar & surveillance basics
Aircraft Avionics Maintenance
- Integrated avionics systems
- Testing, fault isolation & rectification
- Avionics documentation and certification
Career Outcome – B2
Professional Roles
- Avionics Engineer
- Electrical & Instrument Specialist
Industry Opportunities
- Airline & MRO avionics departments
- Modern glass cockpit aircraft support
Practical Training & Industry Exposure
Live Aircraft & Hangar-Based Training
Maintenance Task Familiarization
Documentation, Inspection & Certification
Real-World Aviation Maintenance Environments
Career Opportunities After AME
Graduates Can Work As
- Aircraft Maintenance Engineer (post-licensing)
- Maintenance Technician
- Technical Services Engineer
- Quality & Safety roles
- MRO and fleet support personnel
Employers Include
- Airlines
- MRO organizations
- Flying training organizations
- Charter and corporate aviation operators
Ready to Build Your Technical Career?
Take the first step towards becoming a certified Aircraft Maintenance Engineer. Our expert counsellors are here to guide you through your specialization choice and training journey.
Book Counselling Session