RVE TECHNOLOGIES is providing a good facility for a Mechanical\Automobile\Industry Production & for Aeronautical Engineers to get trained on Aerospace domain i.e. on "AIRCRAFT DESIGN" training. Every day, millions of people get where they need to go aboard the planes that they manufacture. Perhaps you do too. More than 28,000 employees design, build and service high-performance on Aircraft Design. So here is an excellent opportunity for a fresher's to work on aerospace domain in various aerospace Industries.
Benefit by doing Aircraft training - One can get placed in different Aerospace industries which offers good package for the excellent designers. There is a huge demand in market on aircraft where you can get placed. Majority of the companies has recruitment on Aircraft designing like HAL, NAL, BHAEL, Safran Aerospace India Pvt Ltd, Good rich Aerospace India Pvt ltd, Airbus India, Boeing, Tata Technologies, Cades, TAL, CAE (Canadian Aerospace) etc.
Masters Diploma in Aircraft Design
Theory :- Aircraft component Design, Aircraft Structural Design, Structural Modeling, Computer Implementation, FEM, Load Analysis
3D Software Overview :- Generative Drafting. Part design & Assembling. Weld Design. Rivet Design. Wireframe And Surface. Design. Aerospace Sheet Metal, Core and cavity Designing, DMU kinematics, Freestyle and Shaper.
Ansys Overview:- Pre Processing, Solution , & Post processing. Application of Ansys to Stress Analysis.Nodal Analysis. Flow Analysis. Thermal Analysis. Advanced mesh generation tools.
Syllabus for Aircraft design (tentative)Aircraft component Design:Ø The Aircraft industry, new aircraft development, Boeing Airplanes, Airbus Airplanes
- Major Aircraft components and their functions
- Unit solutions, Equilibrium of force systems
- Indeterminate structures
- The aircraft design process
- Airfoil design – 2D Unigraphics and Ansys
- Wing design
- Landing gear structure and analysis
- Landing gear design using Unigraphics and Ansys
- Wing structure
- Wing design using Unigraphics and Ansys
- Tail analysis
- Fuselage shell analysis
- Fuselage stress analysis using Ansys
- Thermal analysis
- Deflection analysis
- Stiffness analysis
- Aircraft Structural DesignØ Design Life Criteria – Philosophy
- Materials
- Structural Optimization
- Structural Modeling, Computer Implementation, FEM,
- Variational formulation
- Existence and uniqueness of the solution, Discretization
- Choosing a basis
- Small support of the basis
- Matrix form of the problem
- General form of the finite element method
- Comparison to the finite difference method
- Various types of finite element methods
- Generalized finite element method
- hp-FEM
- XFEM
- Spectral methods, Meshfree methods
- Discontinuous Galerkin methods,
- Finite Element Limit Analysis, Load Analysis, Properties of sections, centroids, moments of inertia for aircraft
- General structural loads on aircraft
- V-n diagram and gust diagram
- FAR requirements
AIRCRAFT General Engineering
Definition of Aircraft forces of flight. Principle of flight
Major Division in an Aircraft
Aircframe
Engines
Instrument Systems
Electrical Systems
Radio Navigation
Airframe
Fuselage Structure
Landing Gear Structure
Empenage, Cowling, Nacelles structure
Engines
Turboshaft Engine
Turbofan Engine
Turbo prop Engine
Insturment Systems
Altimeter
Airspeed Indicators (ASI)
Pibot Static System
Gyroscopic Instruments. Etc
Electrical Systems
Electrical equipment Installation
Aircraft Lighting Systems
Ground Power Unit (GPU)..etc
Radio Navigation
Basic Radio Principles
Communication Systems
Navigation Systems, etc
Black Box, Morse and Phone Codes, Radar, Taxing, towing, tie down procedures, Aircraft weight and Balance, Ice and Rain Protection, fuel and fuel systems
Total Duration – 4 months
Course Timings…
Full / part time weekend batches are available as per Candidates convenient timings.