Job-role Oriented Training
This programme is a unique pathway to gaining work experience in a design engineering role at a company as a Graduate Engineering Trainee while undergoing training in the specialisation of the work. The candidate will not only gain work experience in design engineering specialisations as per National Skill Development Corporation (NSDC) job roles as below, but will also have the opportunity for conversion to a full-time role after completion of the Graduate Engineering Traineeship.
Timeframe
4 – 5 Months
Design Tools
Course Curriculum Overview:
1. Aerospace Structural Engineer – Designer
Create and develop design documents
Understanding of engineering drawings, Geometry creation and data management with 3D CAD
Create simple mechanical designs
Types and Methodologies for mechanical designs, Geometrical dimensioning and tolerance, Preparation of Bill of Materials, Introduction to CATIA v5
Design of aerospace structural components/ assemblies/ subassemblies
Understanding of design lifecycle, Creation of 3D model, sub-assemblies with CATIA v5, Manufacturing edge of parts (MEOP) and engineering edge of parts (EEOP), Loads and Free-body diagrams, Advanced solid mechanics, Analysis of joints, Design for Manufacturing
2. Aerospace Structural Engineer – Analyst
Analysis and testing of aerospace structural components /assemblies/subassemblies
Design activities related to stress and Fatigue and Damage Tolerance (F&DT), Finite element analysis, Loads and Free-body diagrams, Advanced solid mechanics, Analysis of joints, Impact Tests; Visible Impact Damage (VID), Barely Visible Impact Damage (BVID), Structural Analysis using Ansys
3. Avionics and Electrical Systems – Designer
- Introductions and Technical Regulations
Aerospace design and theory of flight
Introduction to Avionics Systems (Civil and Military)
Electrical Fundamentals
Technical Regulations - Create, Maintain and Design Avionics Systems
Avionics Systems Design and ARP 4761, ARP 4754
Software Development and Engineering Process and DO-178C
Hardware Development and Engineering Process and DO-254 - Create, Maintain and Design Electrical Systems
Conceptual and Detailed Design of Engineering Systems
Fundamentals of Electrical System Design
Development of Electrical Engineering Drawings and Techniques
Case studies of various electrical aircraft systems - Systems Engineering Approach to Design
Systems Integration and Design Analysis
Software-Hardware Integration
Design Review, Approval and Documentation
Harness and Prototype Testing
System Qualification and DO-160G
Systems Integration Trades
Product Lifecycle and Failure Mode Analysis
Development and Delivery of Prototype Deliverables - Configuration Management and Change Control
Application Form
4. Aerodynamics Design Engineer
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- Introduction to Aerospace
Theory of Flight
Aircraft Systems Overview - Aerodynamic Principles
Aerodynamic Forces and Moments
Aerodynamic Coefficients
Introduction to Flow - Types of Flows
Incompressible Flow: Inviscid Flow, Flow over aerofoils, Finite Wings
- Introduction to Aerospace
- Compressible Flow: Shock Waves, Nozzles, Diffusers and Wind Tunnels, Subsonic Flow over Aerofoils
Supersonic and Hypersonic Flow: Linearised supersonic flow, non-linearised supersonic flow, hypersonic flow and Newtonian theory, hypersonic lift, drag and shocks
Viscous Flow: Navier-Stokes equation, Boundary layers - Analysis
Finite Element Method, Finite Volume Method - Simulation
Computational Fluid Dynamics
Professional Skills
- Creation of documents for knowledge sharing
Purpose, Scope and Format Based on Audience
Review of Documents
Compliance with Organisational Policies, Standards and Guidelines - Working Effectively in a Team
Professional Etiquette
Non-discriminatory attitude
Dress Code and Personal Hygiene
Workplace Information, Instructions, Procedures and Legalities
- Prioritising and Completing Tasks
- Maintaining Organisational Safety and Information Security
IT Policies and Procedures
Data Breaches and IP Theft
Document Version Controls and Approvals
Safety Procedures, Health and Safety Requirements
Course Requirements:
Currently enrolled in or graduate with a Bachelor’s/ Master’s degree programme in Aerospace or Mechanical Engineering or related field
Course Outcome:
Avistrat shall facilitate placements of final year students in aerospace and allied companies. Prior to offers of full-time placement, some companies may choose to offer internships. Students will be certified by AASSC as qualified to perform the responsibilities of their choses job roles and globally recognised design tool vendors.
- Placement in aerospace companies
- Certification by Sector Skill Council for possessing requisite skills for concerned job role