Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name : Aerospace Structural Analysis Engineer  Batch - 3

Course Code : B305ASA Analyst

Course Duration : 270 Hrs

Course Start Date : 14^th Dec 2023

Course Description :

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Aircraft Structure

• Metallic and Non-Metallic Materials

• GFEM and DFEM / Selection of elements (FEM/FEA)

• Fatigue and Damage Tolerance of metallic Materials

• Hand Calculation and Allied Topics (SRM/Repair/Concession)

• Hypermesh -FEM

• Analysis -FEA

Course Outcome :

By end of this course learners will be able

• To perform airframe structural design validation through hand calculations and finite element analysis for every primary and secondary structures like wings skin and attachment joints and brackets.

• To understand loads and load path in structures, thus, can create very good quality finite element model with appropriate loading and boundary conditions

• To perform stress analysis activities related to aircraft structural modifications, role change, upgradation, certification, and customization.

• To perform concessions, repair and SRM justification activities.

• To perform the design validation of aircraft interiors, brackets, and other secondary structural members

• To perform structural analysis activities related to design optimization, design modification, weight reduction, reverse engineering tasks.

• Can interpret and comment logically on the sufficiency, validity, and correctness of the finite element analysis results

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamental of Design
10. Loads, stress strain, Stress Strain Curves
11. Determinate and indeterminate structures
12. Principal stress and strain
13. Failure theories
14. Bending and deflection of beams
15. SFD and BMD diagrams
16. Aerospace metallic materials
17. Aerospace Composite materials
18. Composite Manufacturing
19. Composite Machining Inspection and QC
20. Basics of Finite Element Analysis
21. Engineering Problem Solving techniques
22. Selection of elements, Element order and accuracy control
23. Meshing Guidelines, validation techniques
24. GFEM and DFEM Requirements and Handling
25. MSC-Nastran Overview
26. Basics of Fatigue
27. Basics of Fracture Mechanics
28. Basics of Crack Propagation
29. Design Philosophies
30. F&DT evaluation
31. Service Repair Manuals- Overview
32. Concession – Overview
33. Aircraft Repair Justifications – Overview
34. Hand Calculation and application
35. Fastener stiffness calculations
36. Introduction to Hypermesh GUI
37. Understand the Hypermesh options and capabilities
38. Getting started with Hypermesh geometry, software compatibility
39. Geometry creation / handling / editing
40. Hypermesh Geometry Import Export and geometry cleanup
41. Geometry preparation for FE Mesh / defeaturing and editing
42. Getting ready geometry for FE Mesh, options, and parameters settings
43. HM Meshing parameters control and settings
44. Auto meshing, mesh modification & HM short cut keys
45. 1D and 2D Meshing
46. 2D Meshing medium components
47. 2D Meshing complex components
48. 2D Meshing assemble components, fasteners, and attachment
49. 3D Meshing simple components
50. 3D Meshing medium and complex components, use of higher order elements
51. PATRAN GUI, Model creation and import to solution deck
52. Free-free / Normal mode and Linear static analysis Post Processing and result interpretations
53. Types of non-linearity and preparing for non-Linear analysis, Buckling / dynamic / frequency response analysis

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Program 2023 Batch-1

Course Code : B305ASD23B2

Course Duration: 270 Hrs.

Course Start Date: 17th April 2023

Course End Date: 15th May 2023

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Program 2023 Batch -1

Course Code : B305ASD23B1

Course Duration: 270 Hrs.

Course Start Date: 17th April 2023

Course End Date: 15th May 2023

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Collins Aerospace Scholarship Program Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Batch - 3

Course Code : B305ASD

Course Duration: 270 Hrs.

Course Start Date: 10th August 2021

Course End Date: 12^rd October 2021

Course Description:

In this course the learners will get insight about the below topics.

• Aircraft basics and systems

• Engineering graphics

• Aerospace grade Fasteners

• Metallic and Non-Metallic Materials

• Sheet Manufacturing Process & Hand Calculation

• GD &T

• User Interface on Basic CATIA V5 Tool training

• User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

• To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

• To perform aircraft modifications, upgradation and customization

• To perform concessions activity

• To perform the design of aircraft interiors

• To perform Reverse engineering

Course Content

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Engineering Drawing
10. Aircraft Fasteners
11. Fastener Calculation
12. Technical Pub
13. Aircraft Metallic materials
14. Aircraft Machining process
15. Aircraft Composites
16. Composite Manufacturing
17. Composite Fabrication
18. Aircraft Sheet Metal 
19. Sheet Metal Calculation
20. Aircraft Design Stages
21. Aircraft Calculation
22. Aircraft Skin design
23. Aircraft Frames & Stinger design
24. Aircraft Bracket Design
25. GD&T Symbols
26. Fits & Tolerance Calculation
27. Sketcher module
28. Basic Part Design
29. Advance Part Design
30. Assembly Design
31. Assembly Drafting & BOM
32. Basic Sheet metal design
33. Advance Sheetmetal Design
34. Basic Surface Design
35. Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: Aerospace Structural Design Engineer Program Batch - 2

Course Code : B205ASD

Course Duration: 270 Hrs.

Course Start Date: 24th May 2021

Course End Date: 3^rd Jun 2021

Course Description:

In this course the learners will get insight about the below topics.

·       Aircraft basics and systems

·       Engineering graphics

·       Aerospace grade Fasteners

·       Metallic and Non-Metallic Materials

·       Sheet Manufacturing Process & Hand Calculation

·       GD &T

·       User Interface on Basic CATIA V5 Tool training

·       User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

·       To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

·       To perform aircraft modifications, upgradation and customization

·       To perform concessions activity

·       To perform the design of aircraft interiors

·       To perform Reverse engineering

Course Content

1.      Aircraft Basics

2.      Aircraft Mechanical Systems

3.      Aircraft Electrical Systems

4.      Aircraft Avionics System

5.      Aircraft Propulsion Systems

6.      Environmental Control Systems

7.      Aircraft Interior

8.      Human Factor

9.      Engineering Drawing

10.  Aircraft Fasteners

11.  Fastener Calculation

12.  Technical Pub

13.  Aircraft Metallic materials

14.  Aircraft Machining process

15.  Aircraft Composites

16.  Composite Manufacturing

17.  Composite Fabrication

18.  Aircraft Sheet Metal 

19.  Sheet Metal Calculation

20.  Aircraft Design Stages

21.  Aircraft Calculation

22.  Aircraft Skin design

23.  Aircraft Frames & Stinger design

24.  Aircraft Bracket Design

25.  GD&T Symbols

26.  Fits & Tolerance Calculation

27.  Sketcher module

28.  Basic Part Design

29.  Advance Part Design

30.  Assembly Design

31.  Assembly Drafting & BOM

32.  Basic Sheet metal design

33.  Advance Sheetmetal Design

34.  Basic Surface Design

35.  Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course name: Free Introductory Program for Aerospace Structural Engineer: Design

Course code: AE20C001

Course Duration: 5 hrs

Course Summary:

Hello, everyone, welcome to this course on aircraft design stages from BridgeNow academy. This design course covers about various aerodynamics, aircraft interiors and phases of design stages used in aircraft industry.

Overview:

·       Distinct understanding on aerodynamic concepts

·       Know about different forces acting on aircraft

·       Exposure to different types of aircraft interiors

·       Acquittance on various aircraft emergency equipment

·       Importance of aircraft conceptual design

·       Detailed understanding about preliminary design

·       Know about basic concepts of design prototyping

·       Know about critical design review for required safety compliance

Course Structure:

Unit 1: Aerodynamics (2hrs)

Lesson1: Introduction to Aerodynamics

Lesson2: Forces acting on Aircraft

Unit 2: Aircraft Interiors (1hr)

              Lesson1: Aircraft Cabin interiors

Lesson 2: Emergency Equipment

Unit 3: Aircraft Design Stages (1hr)

Lesson 1: Phases of Design Stages

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Course Validity: 90 days from the date of enrolment.

Instructor Interaction Duration:  60 mins

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aerospace Structural Design Engineer Program

Course Code : QP AAS Q3103 Designer

Course Duration: 270 Hrs.

Course Start Date: 5th April 2021

Course End Date: 3^rd Jun 2021

Course Description:

In this course the learners will get insight about the below topics.

·       Aircraft basics and systems

·       Engineering graphics

·       Aerospace grade Fasteners

·       Metallic and Non-Metallic Materials

·       Sheet Manufacturing Process & Hand Calculation

·       GD &T

·       User Interface on Basic CATIA V5 Tool training

·       User interface on Advanced CATIA V5 Tool Training

Course Outcome:

By end of this course learners will be able

·       To perform airframe structural design like fuselage, wing, doors, floor beams, etc. (primary and secondary structures)

·       To perform aircraft modifications, upgradation and customization

·       To perform concessions activity

·       To perform the design of aircraft interiors

·       To perform Reverse engineering

Course Content

1.      Aircraft Basics

2.      Aircraft Mechanical Systems

3.      Aircraft Electrical Systems

4.      Aircraft Avionics System

5.      Aircraft Propulsion Systems

6.      Environmental Control Systems

7.      Aircraft Interior

8.      Human Factor

9.      Engineering Drawing

10.  Aircraft Fasteners

11.  Fastener Calculation

12.  Technical Pub

13.  Aircraft Metallic materials

14.  Aircraft Machining process

15.  Aircraft Composites

16.  Composite Manufacturing

17.  Composite Fabrication

18.  Aircraft Sheet Metal 

19.  Sheet Metal Calculation

20.  Aircraft Design Stages

21.  Aircraft Calculation

22.  Aircraft Skin design

23.  Aircraft Frames & Stinger design

24.  Aircraft Bracket Design

25.  GD&T Symbols

26.  Fits & Tolerance Calculation

27.  Sketcher module

28.  Basic Part Design

29.  Advance Part Design

30.  Assembly Design

31.  Assembly Drafting & BOM

32.  Basic Sheet metal design

33.  Advance Sheetmetal Design

34.  Basic Surface Design

35.  Advance Surface Design

Pre-requisite:  Mechanical/Aeronautical/Automobile Engineer or Engineering Students

Training Method: Instruction based Online training & Virtual Classroom

Course Name: CATIA V5 Advanced Surface Design

Course Code:  AE20DM8004V0

Course Duration:  17hrs

Course summary:

In this course on CATIA V5: Advanced Surface Design from BridgeNow academy. This design course on surface design covers advanced surface design commands. Includes demonstration on conversion of surface topology to sheet metal and solid part design.  

Course Takeaways / Overview

·       To know about multi-section in surface design

·       Explicitly understand about difference between profile and guide curves

·       Detailed understanding about spine and coupling used for multi section

·       To know about sweep and adaptive sweep in surfaces toolbar

·       Explicitly understand about, explicit-swept surface creation 

·       Detailed understanding about line-swept surface creation 

·       To create swept surface using circle-swept surface methodology

·       Perform swept surface using conic-swept surface methodology

·       To create swept surface using adaptive sweep methodology

·       Creation of sweep using law profile in generative shape design

·       Detailed understanding about join, heal, disassemble, remove surface and un-trim

·       To create chordal, bi-tangent, tri-tangent and variable fillet

·       To know about transformation toolbar in surface design

·       Conversion of 3D surface topology to solid part body

·       Conversion of 3D surface topology to sheet metal part

Course Structure:

•       Lesson 1: Multi section and Law

•       Lesson 2: Sweep

•       Lesson 3: Operation

•       Lesson 4: Transform

•       Lesson 5: Surface to Part body

•       Lesson 6: Surface to Sheetmetal

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Basic Surface Design

Course Code: AE20DM8003V0

Course Duration: 8 hrs

Course Description:

In this course on CATIA V5: Basic Surface Design from BridgeNow academy. This design course on surface design covers basic surface commands and wireframe toolbar used for creation of 3D wireframe.

Course Takeaways / Overview:

•       To know about wireframe toolbar in surface design

•       Explicitly understand about points, lines, and plan instantiation

•       Detailed understanding about silhouette edges and intersection

•       Creation of parallel curve, rolling offset,3D Curve offset

•       To create circle, corner, connect to curve and conic

•       Knowledge about spine, contour and iso parametric curve creation

•       To know about surfaces toolbar in surface design

•       Explicitly understand about extrude, revolute, sphere and cylinder

•       Detailed understanding about offset and fill

•       Creation of offset, multi-section, blend, and fill

Course Structure:

•       Lesson 1: Wireframe

•       Lesson 2: Surface Toolbar

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Advanced Sheet Metal Design

Course Code : AE20DM8002V0

Course Duration : 15 hrs

Course Description

In this course on CATIA V5: Advanced Sheet Metal Design from BridgeNow academy. This design course on sheet metal design covers about various commands used for cutting, stamping, transformation, rolled wall. Demonstration of Modeling and drafting sheetmetal part according to DFMA approach.

Course Takeaways / Overview

·       Explicitly understand about sheet metal input parameters

·       Knowledge about sheet metal bend radius 

·       Methodology to convert part body to sheet metal using recognize

·       Detailed understanding about walls and wall on edge

·       To perform extrusion using profile command

·       To create flange, tear drop, hem, and user flange

·       To know about bend and conical bend

·       Explicitly understand about folding and unfolding

·       Detailed understanding about bend from flat

·       Purpose and importance of curve mapping

Course Structure:

•       Lesson 1: Cutting and Stamping

•       Lesson 2: Transformation

•       Lesson 3: Rolled wall

•       Lesson 4: Sheet Metal Drafting

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Basic Sheet Metal Design

Course Code :  AE20DM8001V0

Course Duration : 10 hrs

Course summary:

In this course on CATIA V5: Basic Sheet Metal Design from BridgeNow academy. This design course on sheet metal design covers about various commands used for walls and bending creation according to DFMA approach.

Course Takeaways / Overview

·       Explicitly understand about sheet metal input parameters

·       Knowledge about sheet metal bend radius 

·       Methodology to convert part body to sheet metal using recognize

·       Detailed understanding about walls and wall on edge

·       To perform extrusion using profile command

·       To create flange, tear drop, hem, and user flange

·       To know about bend and conical bend

·       Explicitly understand about folding and unfolding

·       Detailed understanding about bend from flat

·       Purpose and importance of curve mapping

Course Structure:

•       Lesson 1: Walls

•       Lesson 2: Bending

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Assembly Drafting & BOM

Course Code :  AE20DM7005V0

Course Duration : 5 Hrs

Course Description:

In this course on CATIA V5: Assembly Drafting & BOM from BridgeNow academy covers about various drafting views used for part design redesign according to DFMA approach. Demonstration of partbody and assembly drafting.

Course Takeaways / Overview

·       To create different view projections using Catia V5

·       Explicitly understand view generation using 1^st angle of projection

·       Knowledge about view generation using 3^rd angle of projection

·       To create feature frame and edit title block on drawing sheet

·       To use save management to save the part and drawing file

·       To know about difference between projection view and auxiliary views

·       Perform broken view, breakout view and 3D clipping

·       Generate views using view creation wizard

·       To know about 1^st angle part body drafting

·       To perform dimensioning on the views

·       Detailed understanding about section views representation

·       Purpose and importance of locking dimensions

·       Feature frame creation using datum reference

·       To know about assembly and part body drafting overview

·       To create title block on assembly and part body drafting

·       To create a Bill of Material (BOM) using edit template parameters

·       Representation of Bill of Material on the assembly drafting

·       To know about 1^st angle part body drafting

·       To perform dimensioning on the views

·       Detailed understanding about section views representation

·       Purpose and importance of locking dimensions

·       To create assembly view projections using Catia V5

·       Explicitly understand view generation for installation

·       Knowledge about view generation for subassembly

·       Perform broken view, breakout view for an assembly

·       To generate views for components in assembly design

Course Structure:

•       Lesson 1: View Generation

•       Lesson 2: Dimensioning

•       Lesson 3: Title Block & BOM

•       Lesson 4: Part Body Drafting

•       Lesson 5: Assembly Drafting

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Basic Part Design

Aircraft Materials - AE20DM7002V0

Course Duration – 20 hrs

Course summary:

Hello, everyone, welcome to this course on CATIA V5: Basic part design from BridgeNow academy. This design course covers about various part design operations and demonstration of level -1 and level – 2-part design exercises.

Course Takeaways / Overview

·       Knowledge about reference elements

·       To know different types of operations used to create point

·       Explicitly understand about various options used for creation of line

·       Detailed understanding about different types of plane creation

·       To know different types of operations used to create point

·       To know about part design operations

·       Explicitly understand about pad and pocket

·       Knowledge about importance of shaft and groove

·       Detailed understanding hole and different types of hole

·       Importance of rib, slot, stiffener and solid combine

·       Explicitly understand about dress-up features in part body

·       Knowledge about fillet and chamfer operations

·       To preform draft, draft reflect line and variable draft

·       Know about shell and thicken operations

·       Detailed understanding about remove face and remove surface

·       Explicitly understand about transformation operations

·       Knowledge about translation, symmetry, rotation, and axis to axis

·       Detailed understanding about symmetry and mirror

·       Detailed understanding rectangular, circular and user defined pattern

·       To differentiate the purpose of scaling and affinity

·       Perform simple level -1-part design exercises

·       Knowledge about part design commands used to create simple parts

·       To know how to initiate 3D part creation

·       To perform slicing and cuts with respect to 3D sketch profile

·       Creation of part body using right hand side and left-hand side approach

·       Perform level -2-part design exercises

·       To analyze and create of part body using left hand side approach

·       Knowledge about part design commands used to create level-2 parts

·       To understand how to initiate 3D part slicing

·       To perform slicing and pocket with respect to 3D sketch profile

Course Structure:

•       Lesson 1: Reference Elements

•       Lesson 2: Sketch Base Feature

•       Lesson 3: Dress-up Feature

•       Lesson 4: Transformation feature

•       Lesson 5: Level -1 Part Design

•       Lesson 6: Level-2 Part Design

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Bracket Design

Aircraft Materials - AE20DM5005V0

Course Duration – 5hrs

Course Description

this course on aircraft bracket design covers about various types of aircraft bracket design used in aircraft industry.

Course Takeaways / Overview

·       Explicitly understand about bracket design

·       Knowledge about primary, secondary and tertiary brackets 

·       Detailed knowledge about material considered for brackets

·       To know about different structural loads acting on bracket

·       To know about different structural loads acting on bracket

Course Structure:

·       Lesson 1: Bracket Design

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Frames & Stinger design

Aircraft Materials - AE20DM5004V0

Course Duration – 6hrs

Course summary:

Hello, everyone, welcome to this course on aircraft frames & stinger design from BridgeNow academy. This design course covers about frames & stinger design used in aircraft industry.

Course Takeaways / Overview

• Overview of different fuselage section
• Explicitly understand major loads acting on the aircraft
• Knowledge about different cross-sections of the stringer
• Understand about in detailed about stringer design
• Knowledge about skin stringer buckling
• Know about stringer manufacturing process
• Explicitly understand about aircraft frames
• Overview used of bulkheads in airframe
• Understand about various sections of aircraft fuselage
• Know about materials used for frames
• Knowledge loads acting on aircraft frames

Course Structure:

• Lesson 1: Frames design
• Lesson 2: Stringer design

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Skin design

Aircraft Materials - AE20DM5003V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on aircraft skin design from BridgeNow academy. This design course covers about skin design used in aircraft industry.

Course Takeaways / Overview

• Overview of loads acting on aircraft
• Explicitly understand about fuselage structure
• Understand about aluminium skin panel structure
• Knowledge about fabrication of skin structure
• Know about materials used for skin structure

Course Structure:

•  Lesson 1: Skin design

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Calculation

Aircraft Materials - AE20DM5002V0

Course Duration – 6hrs

Course summary:

Hello, everyone, welcome to this course on aircraft calculation from BridgeNow academy. This design course covers about various types of classical aircraft calculation used in aircraft industry.

Course Takeaways / Overview

• Detailed understanding about load factor
• Knowledge about aircraft reaction forces
• Know about estimation of aircraft braking force
• Understand the importance of hand calculation 
• Inter and intra structure interaction requirements  estimation
• Forecast required substantiation for the changes to be done on aircraft

Course Structure:

• Lesson 1: Classical Calculations

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Design Stages

Aircraft Materials - AE20DM5001V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on aircraft design stages from BridgeNow academy. This design course covers about various phases of design stages used in aircraft industry.

Course Description 

• Importance of aircraft conceptual design
• Detailed understanding about preliminary design
• Know about basic concepts of design prototyping
• Know about critical design review for required safety compliance
• Understand the design philosophies of an aircraft
• Improved analysis on fundamentals of detailed aircraft design
• Responsibilities of different aviation certification agencies

Course Structure:

• Lesson 1: Phases of Design Stages

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Sheet metal calculation

Aircraft Materials - AE20DM4001V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on sheet metal calculation from BridgeNow academy. this design course covers about classical sheet metal parameters and calculation used in aircraft industry

Course Takeaways / Overview

• Detailed understanding about sheetmetal design parameters
• Knowledge about bend allowance calculation
• Know about sheetmetal bend deduction calculation
• Understand the sheetmetal full length calculation
• To understand sheetmetal flange length calculation
• Know about sheet metal spring back design phenomenon

Course Structure:

• Lesson 1: Parameters and Calculations

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Composites

Aircraft Materials - AE20DM3003V0

Course Duration – 6hrs

Course summary:

Hello, everyone, welcome to this course on aircraft Composites from BridgeNow Academy. This design course covers about introduction to composites, various types of Composites laminates, MMC and PMC used in aircraft industry

Course Takeaways / Overview

• Know about constituents of composite materials
• Different types fiber and matrix materials
• Composite materials and their classification
• Understand the role of fiber and matrix
• Advantages and limitations of composite materials
• Knowledge about different types of ply layup
• Explicitly understand about uni-directional and bi-directional  composites
• Know about fiber reinforcement materials
• Understand about composite material ply placement
• Appraise the advantages of composite sandwich structures
• Know about matrix-based classification
• Different types of polymer-based matrix composite
• Knowledge about various thermoset and thermoplastic resins
• Know about classification and material properties of metal matrix composites
• Appraise advantages of ceramic matrix composites

Course Structure:

Lesson 1: Intro to Composites

Lesson 1: Composite Laminates

Lesson 1: MMC & CMC

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Aircraft Interiors

Course code : AE20GM1007V0

Course Duration : 5 Hrs

Course Description

Course Overview:

• Familiarization on aircraft instrumentation
• Distinct understanding on critical cockpit gauges
• Exposure to different types of aircraft interiors
• Acquittance on various aircraft emergency equipment

Course Structure:

Unit1: Instrument

•  Lesson 1: Aircraft Instrument

Unit2: Equipment & Furnishings

• Lesson 1: Aircraft interiors
• Lesson 2: Emergency Equipment

 Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Course Validity: 90 days from the date of enrolment.

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Basics

Course Code:  AE20GM1001V0

Description:

In this course you will understand the aircraft basics on aircraft structure, aerodynamics, Aircraft loads & significance of Aircraft materials  

Overview:

·       Understand the definition of aircraft
·       Knowledge on type of aircraft structure
·       Learn different type of aircraft structures
·       Know about the type of aircraft
·       Differentiate between the methods of aircraft classifications
·       Understand main structural part of aircraft
·       Learn about fuselage
·       Acquire knowledge about the wings
·       Know about the empennage
·       Knowledge on powerplant
·       Learn the purpose of landing gear
·       Familiarization on physical characteristics of air and atmosphere
·       To understand basic laws governing aerodynamics and air to body interaction
·       Know about cambered and symmetric airfoil by comparing performance parameters
·       Understand the forces acting on aircraft
·       Define types of aircraft stability with respect to static and dynamic behavior
·       Fundamental knowledge on aircraft loads
·       Classification of aircraft loads
·       Sources of aircraft loads
·       Implications of forces acting on an aircraft
·       Acquaintance on aircraft load
·       Loading conditions and critical aircraft loads
·       Importance of Load factor
·       Importance of airspeed and load factor diagram
·       Performance requirements of aircraft structural materials
·       Metallic and composite materials used in aircraft industry and their classifications
·       Advantages and disadvantages of metallic and composite materials
·       What makes composite materials a better choice as structural material
·       Constituents of composite materials

Course Structure:

Aircraft Structures

• Lesson 1: Introduction to Aircraft Structures
• Lesson 2: Main Parts of Structures

Aerodynamics

• Aerodynamics Couse Summary 
• Lesson 1: Introduction to Aerodynamics
• Lesson 2: Forces acting on Aircraft

Aircraft Loads

• Aircraft Loads Couse Summary 
• Lesson 1: Introduction to Aircraft Loads
• Lesson 2: Types of Aircraft Loads & V-n Diagram

Aircraft Materials

• Aircraft Materials Couse Summary   
• Lesson 1: Aircraft Metallic Materials
• Lesson 2: Aircraft Composite Material

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Self pace instructor based training

Course name: Aircraft Mechanical Systems

Course code: AE20GM1002V0

Course Duration: 8 Hrs

Course Description

Course Overview:

·       Knowledge about contributions of eminent researchers towards flight  

·       Familiarization on flight control surfaces 

·       Exposure to aircraft hydraulic systems

·       Acquittance on aircraft landing construction

·       Distinct understanding on aircraft braking and tries arrangement

Course Structure:

Unit1: Flight Controls

·       Lesson 1: Evolution of flight

·       Lesson 2: Control Surfaces

Unit2: Hydraulic Power

·       Lesson 1: Aircraft Hydraulic System

Unit3: Landing Gears

·       Lesson 1: Types of Landing Gear

·       Lesson 2: Construction & Operation

·       Lesson 2: Tires & Brakes

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Course Validity: 90 days from the date of enrolment.

Downloadable Exercises: NA

Course name: Aircraft electrical system

Course code: AE20GM1003V0

Course Duration : 2 hrs

Course Description :

Course Overview:

·       Familiarization with the basic components of aircraft electrical system

·       Explain elements of aircraft electrical system

·       Learn about the electrical power distribution and loads

·       Interpret the common electrical failures

·       Exposure to the different lights on aircraft

·       Explore the use of exterior and interior light on the aircraft

Course Structure:

Unit1: Aircraft Electrical System

·       Lesson 0: Importance of Aircraft Electrical System

·       Lesson 1: Aircraft Electrical System

Unit2:  Aircraft Lighting System

·       Lesson 0: Importance of Aircraft Lighting System

·       Lesson 1: Aircraft Lighting System

Pre-requisite:   Aeronautical/Electrical/Mechanical Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Avionics

Course code: AE20GM1004V0

Course Duration : 2 hrs

Course Description :

Course Overview:

·       Familiarization with the basic avionics

·       Know the role of avionics

·       Learn about the communication system

·       Exposure to the different navigation system

·       Explore the use of display and flight management system

·       Differentiate the position determining systems

·       Understand the use of instrument landing system

·       Familiarize with the different components of ILS

Course Structure:

Unit1: Avionics

·       Lesson 0: Importance of avionics

·       Lesson 1: Avionics

Unit2:  Instrument Landing System

·       Lesson 0: Importance of Instrument Landing System

·       Lesson 1: Instrument Landing System

Pre-requisite:   Aeronautical/Electrical/Mechanical Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Aircraft Propulsion Systems

Course code: AE20GM1005V0

Course Duration: 8 hrs

Course Description

Course Overview:

·       Familiarization on aircraft fuel systems

·       Distinct understanding on aircraft propulsion

·       Exposure to different type of aircraft engines

·       Knowledge on aircraft fire protection systems

Course Structure:

Unit1:  Aircraft Fuel

• Lesson 1: Aircraft Fuel Systems

Unit2: Aircraft Power Plant

• Lesson 1: Introduction to Propulsion
• Lesson 2: Types of IC engines
• Lesson 3: Turbine engine types

Unit3: Aircraft Fire Protection

• Lesson 1: Aircraft fire Protection Systems

 Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Course Validity: 90 days from the date of enrolment.

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Environmental Control Systems

Course code : AE20GM1006V0

Course Duration : 6 hrs

Course Description

Course Overview:

·       Familiarization on aircraft pressurization and its effects

·       Knowledge on operation of aircraft air-conditioning system

·       Exposure to different types of aircraft ice & rain protection systems

·       Importance of aircraft oxygen system

Course Structure:

Unit1: Air Conditioning

·       Lesson 1: Importance of pressurization

·       Lesson 2: Operation of AC

Unit2: Ice & Rain Protection

·       Lesson 1: Ice & Rain Protection

Unit3: Oxygen

·       Lesson 1: Aircraft Oxygen System

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Course Validity: 90 days from the date of enrolment.

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Human factors in aviation

Course code : AE20GM1008V0

Course Duration : 2 hrs

Course Description :

Course Overview:

·       Familiarization with human factors in aviation

·       Differentiate between types of human factors

·       Know the human factors issues related with maintenance

·       Learn about the fatigue and human errors and their impact

·       Exposure to the different models used for human factors

·       Know the common factors in the major accident reports

·       Understand the elements of human factors

Course Structure:

Unit1: Avionics

·       Lesson 0: Importance of human factors

·       Lesson 1: Human factors in aviation

Pre-requisite:   Aeronautical/Electrical/Mechanical Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Introduction Template

Course Name: Engineering Drawing

Aircraft Materials: AE20DM2001V0

Course Description:

• Importance of engineering drawing for technical representation
• Know about standard engineering drawing projections
• Knowledge about basic concepts of engineering drawing
• Explicitly differentiate between first and third angle projections
• Analyze orthographic and isometric drawings
• Understand the engineering drawing principal view selection
• Know about various types of standard dimensioning
• Understand the projection of sectional views

Course Structure:

• Lesson 1: Types of graphic views
• Lesson 2: Dimensioning and Sectioning
• Lesson 3: Orthographic and Isometric Views

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Introduction Template

Course Name: Aircraft Fasteners

Aircraft Materials - AE20DM2002V0

Course Description

• Knowledge about aerospace grade fastener classification
• Explicitly understand difference between solid rivets and blind rivets
• Appraise the advantages Hi-Loks fasteners in structural assembly
• Understand about blind bolts, taper loks and lock bolts
• Identify the installation sequence of shear bolts, tensile screws, and high tensile bolts
• Know about various aerospace grades used for fasteners

Course Structure:

• Lesson 1: Types of Fasteners

 Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Fasteners Calculation

Aircraft Materials: AE20DM2003V0

Course Duration: 4 Hrs

Course Description:

• Knowledge about classical calculation of fastener joints
• Detailed understanding about different types of fastener joints
• Explicitly understand difference between the between FOS and MOS approach
• Acquaintance with the calculation on riveted joints
• Detailed understanding about calculations of welded joints

Course Structure:

• Lesson 1: Fasteners Calculation

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Fits & Tolerance Calculation

Aircraft Materials - AE20DM6002V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on fits & tolerance calculation from BridgeNow academy. This design course covers about various types of fits & tolerance calculation used in industry.

Course Takeaways / Overview

·       Explicitly understand about dimension and tolerance used for drafting

·       Knowledge about importance IT grades

·       To identify the suitable IT grade for respective manufacturing process

·       Detailed understanding about fits calculation

·       Know about hole and shaft fundamental deviation charts

·       Detailed understanding about MMC and LMC

·       Calculation of clearance and allowance for a fit using MMC and LMC

Course Structure:

·       Lesson 1: Fits & Tolerance

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: GD&T Symbols

Aircraft Materials - AE20DM6001V0

Course Duration – 2hrs

Course summary:

Hello, everyone, welcome to this course on GD&T Symbols from BridgeNow academy. This design course covers about various types GD&T Symbols used in industry.

Course Takeaways / Overview

·       Knowledge about importance of GD&T

·       Detailed understanding about GD&T Symbols

·       Explicitly understand GD & T methodology and feature reference frame

·       Know about fundamental rules used for GD&T

·       Acquaintance about part features - location, size, shape and orientation

·       Detailed understanding about datum and the datum reference

Course Structure:

·       Lesson 1: GD&T Symbols

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Technical Publication

Aircraft Materials: AE20DM2004V0

Course Duration: 3 Hrs

Course Description: 

• Knowledge about aerospace technical publication
• Understand the need for technical publications
• Learn about the challenges of writing a technical publication
• Know about the workflow involved in creation of technical publication
• Differentiate between standards of technical publication
• Classification the different aircraft manuals

Course Structure:

• Lesson 1: Introduction to technical publication
• Lesson 2: Technical publication manuals

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Future & Emerging Technology : Digital Twin 

Course Introduction Template

Course Name: Aircraft Metallic materials

Aircraft Materials - AE20DM3001V0

Course Duration – 6hrs

Course Overview

• Know about important material parameters
• Detailed understanding on stress-strain diagram
• To know about importance of material fracture
• Knowledge about different types of fatigue
• To know about different stages of creep failure
• Knowledge about applications of precious metals
• Explicitly understand about refractory metals
• Know about different classification of steel based on carbon content
• Detailed understanding about ferrous aircraft metal alloys
• Know about ferrous alloy nomenclatures
• Knowledge about ferrite, martensite, austenitic and super austenitic steels
• Applications of ferrous alloy on aircraft
• Knowledge about non-ferrous aircraft metals
• Explicitly understand properties of aluminum and its classification
• Know about different classifications of titanium
• Detailed understanding of copper and its alloys
• Know about types of nickel alloys and its aircraft applications
• Knowledge about applications of cobalt in aircraft
• Appraise the advantages of super alloys

Course Structure:

• Lesson 1: Material Properties
• Lesson 2: Ferrous and Precious Metals
• Lesson 2: Non-Ferrous Alloys

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Aircraft Machining process

Aircraft Materials - AE20DM3002V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on aircraft machining process from BridgeNow Academy. This design course covers about various types of metallic Machining process used in aircraft industry

Course Takeaways / Overview

·       Detailed understanding about different types of machining process

·       Knowledge about chemical milling and creep forming

·       Acquaintance about conventional machining

·       Classification of various types of grinding

·       Machining methodology of shaping, planning, and broaching

·       Know about different types of CNC machining

·       Knowledge about cutting tools and machining errors

Course Structure:

·       Lesson 1: Metallic Machining

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Composite Manufacturing

Aircraft Materials - AE20DM3004V0

Course Duration – 4hrs

Course summary:

Hello, everyone, welcome to this course on composite manufacturing from BridgeNow Academy. This design course covers about various types of composite manufacturing used in aircraft industry

Course Takeaways / Overview

• Know about requirements and goals of a composite manufacturing process
• Detailed understanding on various types of composite manufacturing process
• Understand the difference between hand layup and automated layup process
• Understand about vacuum bagging and spray up process
• Know about autoclave moulding and curing process
• Understand in detail about resin transfer moulding
• Know the importance of filament winding and pultrusion
• To differentiate injection moulding, blow moulding and pressure moulding

Course Structure:

• Lesson 1: Composite Manufacturing

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Aircraft Sheet metal design

Course code: AE20DM4001V0

Course Duration : 4 hrs.

Description:

• This course gives exposure to importance of sheet metal design and manufacturing process used in the industry.
• Sheet metal has been used widely in Aircraft and Aerospace industry because of their surface finish, high precision, low cost and high quality.
• Sheet metal parts are subject to various temperature, humidity and mechanical stresses but still they maintain high precision and accuracy for a longer span of time.
• The parts manufactured by sheet metal have high strength to weight ratio.
• Complex parts can be designed and fabricated using shearing and forming techniques.
• Sheet metal design plays a major role in meeting the rigorous quality standards required for Aircraft, Aerospace, Automotive, Locomotive and Marine industries. 

Overview:

• Familiarization on sheet metal manufacturing
• Distinct understanding on standard sheet metal thickness used in industry
• Exposure to various shearing and forming techniques
• Acquittance to various sheet metal finishing techniques

Course Structure:

1. Introduction to sheet metal design
2. Shearing process
3. Forming process
4. Finishing process

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based.

Training Method: Self pace instructor based training

Course Name: Composite Fabrication

Aircraft Materials - AE20DM3005V0

Course Duration – 5hrs

Course summary:

Hello, everyone, welcome to this course on composite fabrication from BridgeNow Academy. This design course covers about various types of composite machining and quality control used in aircraft industry

Course Takeaways / Overview

• Selection of machining operation
• Various composite machining methods
• Composite defects and inspection techniques
• Composite quality control
• Relative advantages & disadvantages of composite machining, inspection, and quality control process
• Bonding of composite structures
• Detailed understanding about defects in composite materials
• Understand the difference between fiber and matrix defects
• Understand about production and in-service defects
• Know about classification of non-destructive testing 
• Understand in detail about Ultrasonic, Radiography and Shearography
• Know the about overview of NDT testing for flaw detection

Course Structure:

• Lesson 1: Composite Machining
• Lesson 2: Quality Control

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Sketcher 

Aircraft Materials - AE20DM7001V0

Course Duration – 7 hrs

Course Descriptions

This design course covers about various sketcher operations and demonstration of sketcher exercise.

Course Overview

·       Explicitly understand about dimension and constraints

·       Knowledge about importance of sketcher

·       Detailed understanding about geometric and dimensional constraints

·       Purpose of sketch tools

·       Importance of operations and commands in CATIA V5

·       To perform sketch using CATIA V5 sketcher module

·       Know about dimensions and constraints used while sketching

·       To demonstrate standard process flow to start the sketch

·       Creation of iso-constraint sketch

·       Detailed understanding about sketch creation

·       To perform sketch using CATIA V5 sketcher module

·       Know about dimensions and constraints used while sketching

·       To demonstrate standard process flow to start the sketch

·       Creation of iso-constraint sketch

·       Detailed understanding about sketch creation

Course Structure:

·       Lesson 1: Sketcher Operations

·       Lesson 2: Geometry Creation

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Assembly Design

Course Code : AE20DM7004V0

Course Duration : 15 hrs

Course Description:

This design course covers about various constraints used in assembly Design. Demonstration of landing gear and propeller assembly

Course Takeaways / Overview

·       To launch assembly module and understand different toolbars

·       To know about use of component in product tool bar

·       To use product and part creation for part modeling and subassembly

·       Detailed understanding about existing component and existing component with positioning

·       Purpose replace, graph tree reordering load and unload

·       To know about fast multi-instantiation and define multi-instantiation

·       To launch assembly module and understand different toolbars

·       To know about use of component in product tool bar

·       To use product and part creation for part modeling and subassembly

·       Detailed understanding about existing component and existing component with positioning

·       Purpose replace, graph tree reordering load and unload

·       To know about fast multi-instantiation and define multi-instantiation

·       To launch assembly module and understand different toolbars

·       To know about use of component in product tool bar

·       To use product and part creation for part modeling and subassembly

·       Detailed understanding about existing component and existing component with positioning

·       Purpose replace, graph tree reordering load and unload

·       To know about fast multi-instantiation and define multi-instantiation

·       To create a top down and bottom up assembly

·       To apply the constraints after the assembly

·       Purpose and importance of reuse pattern

·       To check DOF using move toolbar

·       To know about bottom up assembly using bench vise assembly

·       To create constraints on each part to arrest the DOF

·       To perform assembly check on each stage of completion

·       To check constraints before next part assembly

·       Purpose and importance of locking of countersunk screws

·       To simulate the mechanism using move manipulator toolbar

·       To perform propeller assembly

·       To create sub assembly for fasteners

·       Detailed understanding about fasteners instantiation

·       To color code assembly components for identification

·       To explode, hide constraints and to convert the final assembly to PDF

·       To know about typical landing gear assembly

·       To perform sub-assembly of tire and disc brake assembly

·       Purpose and importance of catalogue browser for bolts and nuts

·       To create symmetric assembly of tires and disc brake assembly

·       To know material application and perform rendering

Course Structure:

•       Lesson 1: Product Tool bar

•       Lesson 2: Constraint Toolbar

•       Lesson 3: Move Toolbar

•       Lesson 4: Top Down Assembly

•       Lesson 5: Bottom up Assembly

•       Lesson 6: Propeller Assembly

•       Lesson 7: Landing Gear Assembly

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: CATIA V5 Advanced Part Design 

Course Code: AE20DM7003V0

Course Duration: 25 hrs

Course Description 

This design course covers about various part design operations and demonstration of level -3,Level-4 and level – 2-part design exercises.

Course Takeaways 

·       To know about Boolean operations

·       Explicitly understand about add and remove

·       Detailed understanding assemble option

·       Purpose and importance of union trim

·       Importance of intersection and remove lump

·       To know about power copy

·       Purpose and importance of power copy

·       Create washer replication using power copy

·       Perform pad and hole replication using power copy

·       To perform level-3, part design

·       To perform level-4, part design

·       To perform level-5, part design

·       To analyze drafted part body document

·       Purpose and importance of using Boolean operation

·       Replication using power copy

·       Perform structured modeling to complete the part design

Course Structure:

•       Lesson 1: Boolean Operations

•       Lesson 2: Power Copy

•       Lesson 3: Level -3 Part Body Creation

•       Lesson 4: Level-4 Part Body Creation

•       Lesson 5: Level-5 Part Body Creation

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course name: Simplified Technical English

Course code: AE20TM4002V0

Course Duration : 1 Hrs

Course Overview:

•       Learn the philosophy of simplified technical English

•       Familiarize with the salient features of ASD-STE100

•       Understand the use of simplified English

•       Learn the principles and structure of STE

•       Familiarize with parts of dictionary

•       Understand the sections of writing rules

•       Know how to use the dictionary

Course Structure:

Unit1: Wiring diagram manual

• Lesson 0: Importance of simplified technical English
• Lesson 1: simplified technical English

Pre-requisite:   Aeronautical/Electrical/Mechanical Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 2

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :24^th April 2024

Course End Date : 

Course Description : Aerospace Technical Publication

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 3

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :10^th Aug 2021

Course End Date : 12^th Oct 2021

Course Description :

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :11^th1 DEC 2023

Course End Date : 11^th MAR 2024

Course Description :

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name :  Aerospace Technical Publication Batch - 3

Course Code : B305TSE

Course Duration : 270 Hrs

Course Start Date :10^th Aug 2021

Course End Date : 12^th Oct 2021

Course Description :

• Aircraft basics and systems

• Engineering graphics

• Aircraft maintenance and inspections

• Technical publications standards

• Aircraft technical publications

• Software Tools on Authoring and illustrations

• Maintenance, Repair and Overhaul (MRO)

• Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

• To develop and design maintenance manuals as per standards

• To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

• To create and develop illustrations as per model

• To understand and create wiring diagram manuals

• To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1. Aircraft Basics
2. Aircraft Mechanical Systems
3. Aircraft Electrical Systems
4. Aircraft Avionics System
5. Aircraft Propulsion Systems
6. Environmental Control Systems
7. Aircraft Interior
8. Human Factor
9. Fundamentals of Engineering Graphic
10. Technical Publications Overview
11. Aircraft Maintenance & Inspections
12. Emerging Trends in Technical Publications
13. Technical Publications Standards - iSpec2200
14. Simplified Technical English
15. S1000D Overview
16. Aircraft Maintenance Manual
17. Component Maintenance Manual
18. Wiring Diagram Manual
19. Aircraft Illustrated Parts Catalogue
20. Structure Repair Manual
21. Arbortext Editor
22. Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name : Aerospace Technical Publications Batch - 2

Course Code : QP AAS Q2101

Course Duration : 270 Hrs

Course Start Date : 22^nd Mar 2021

Course End Date : 26^th May 2021

Course Description :

In this course the learners will get insight about the below topics.

·       Aircraft basics and systems

·       Engineering graphics

·       Aircraft maintenance and inspections

·       Technical publications standards

·       Aircraft technical publications

·       Software Tools on Authoring and illustrations

·       Maintenance, Repair and Overhaul (MRO)

·       Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

·       To develop and design maintenance manuals as per standards

·       To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

·       To create and develop illustrations as per model

·        To understand and create wiring diagram manuals

·       To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1.      Aircraft Basics

2.     Aircraft Mechanical Systems

3.     Aircraft Electrical Systems

4.     Aircraft Avionics System

5.     Aircraft Propulsion Systems

6.     Environmental Control Systems

7.     Aircraft Interior

8.     Human Factor

9.     Fundamentals of Engineering Graphic

10.   Technical Publications Overview

11.    Aircraft Maintenance & Inspections

12.   Emerging Trends in Technical Publications

13.   Technical Publications Standards - iSpec2200

14.   Simplified Technical English

15.   S1000D Overview

16.   Aircraft Maintenance Manual

17.   Component Maintenance Manual

18.   Wiring Diagram Manual

19.   Aircraft Illustrated Parts Catalogue

20.  Structure Repair Manual

21.   Arbortext Editor

22.  Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course Name: Technical Services Engineer

Course Code: AETAS05

Course Duration: 5 hour

Course description :

Hello, everyone, welcome to this introductory course on Aerospace Technical Publication from BridgeNow Academy.

Key pointers about the course are given below.  

·       Major aircraft structural components and their functions and role

·       Classification of aircraft and aircraft structural components

·       Explanation of aviation terminologies

·       Background of technical publication

·       Difference between conventional writing and technical writing

·       Why standardization of publication and standards

·       Classifications of aircraft technical publications

·       Relate with documentation workflow

·       Current emerging trends on paperless documentation

·       Interactive electronics technical manual and publication

·       Classes of interactive electronics technical manual

·       Why standards needed

·       Features of interactive electronic technical manual

·       Workflow related with interactive electronic technical manual

Course Takeaways / Overview

·       Major aircraft components, their functions, and classification

·       Knowledge of conventional and technical writing

·       Define technical writing and publication

·       Background and challenges of technical writing

·       Maintenance and maintenance definition

·       Steps involved in technical writing

·       Differentiate aerospace technical manual

·       Standards and specification of technical publication

·       Use of technical publication

·       Classify the interactive electronics technical manual

·       Classes and uses of interactive technical manuals

·       Current trends in paperless documentation

Course Structure:

·       Lesson 1: Aircraft structures

·       Lesson 2: Technical publication overview

·       Lesson 3: Emerging trends in technical documentation (Paperless documentation)

Pre-requisite:   Mechanical/Aeronautical/Automobile Engineer/Electrical and electronics

Training Method: Instruction based

Course Validity: 5 days from the date of enrolment.

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name : Aerospace Technical Publications

Course Code : QP AAS Q2101

Course Duration : 270 Hrs

Course Start Date : 22^nd Mar 2021

Course End Date : 26^th May 2021

Course Description :

In this course the learners will get insight about the below topics.

·       Aircraft basics and systems

·       Engineering graphics

·       Aircraft maintenance and inspections

·       Technical publications standards

·       Aircraft technical publications

·       Software Tools on Authoring and illustrations

·       Maintenance, Repair and Overhaul (MRO)

·       Workflow Process related to Technical publication, Creating mockup, Manual creation etc.

Course Outcome :

By end of this course learners will be able

·       To develop and design maintenance manuals as per standards

·       To revise/ update/ customize maintenance manuals for aircraft modifications and upgrades

·       To create and develop illustrations as per model

·        To understand and create wiring diagram manuals

·       To interpret engineering drawing and create Illustrated parts catalogue

Course Content:

1.      Aircraft Basics

2.     Aircraft Mechanical Systems

3.     Aircraft Electrical Systems

4.     Aircraft Avionics System

5.     Aircraft Propulsion Systems

6.     Environmental Control Systems

7.     Aircraft Interior

8.     Human Factor

9.     Fundamentals of Engineering Graphic

10.   Technical Publications Overview

11.    Aircraft Maintenance & Inspections

12.   Emerging Trends in Technical Publications

13.   Technical Publications Standards - iSpec2200

14.   Simplified Technical English

15.   S1000D Overview

16.   Aircraft Maintenance Manual

17.   Component Maintenance Manual

18.   Wiring Diagram Manual

19.   Aircraft Illustrated Parts Catalogue

20.  Structure Repair Manual

21.   Arbortext Editor

22.  Arbortext IsoDraw

Pre-requisite:   Mechanical/Aeronautical/Automobile /Electrical Engineer or Engineering Students

Training Method: Instruction Based Online Training & Virtual Classroom

Course name: Fundamentals of Engineering Graphic

Course code : AE20TM2001V0

Course Duration : 4 hrs

Course Overview:

• Familiarization with engineering graphic
• Differentiate between dimensioning and sectioning
• Learn about the different methods of projections

Course Structure:

Unit1: Wiring diagram manual

• Lesson 0: Importance of engineering graphics
• Lesson 1: Introduction of introduction to graphic
• Lesson 2: Types of dimensioning and sectioning
• Lesson 3: Methods of projections
• Lesson 4:  Introduction to GD&T 

Pre-requisite:   Aeronautical/Electrical/Mechanical Engineer

Training Method: Instruction based

Course Validity: 90 days from the date of enrolment

Downloadable Exercises: NA

Recommended Practice Hours: NA

Course Name: Airspace technical publication

Corse code:  AE20M3001V0

Course duration: 6 Hrs

·       This course gives exposure to importance of aerospace technical publication-overview and technical writing process used in creation of publication

·       Technical publications are mandatory requirement for the manufacturers in obtaining airworthiness certifications and are essential for the maintenance, repair, overhaul and operational support

·       Aerospace industry is a most documented industry in the world, needs publications for each activity done on and around the aircraft

·       Aerospace industry always requires a standard up to date technical publication for all the activities from assembly to operations

·       In modern changing environment of complex aviation technologies the technical publication is essential to certify operations, service, regulatory compliance and safety

·       Technical publication updates needed frequently due to change in maintenance procedures and system with aircraft service life

·       Legacy aircraft publications need to be converted to new interactive electronic forms for ease of update, access on devices and centralized revision

Course Overview

·       Understand the proper terminology related to aerospace technical publication

·       Know about the aerospace technical publication

·       Able to differentiate the technical publications standards

·       Identify the challenges of creating the technical publication

·       Focus on workflow involved in writing of technical publication

·       Recognize the inputs for creation of publication

·       Capture the output as different technical publications

·       Classify the different aircraft manuals

Course Structure

Lesson 1: Introduction aerospace technical publication

Lesson 2: Standards and work process

Lesson 3: aircraft manuals (Overview)