Parametric Modeling & Assembly
Parametric Modeling & Assembly
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Course Objectives:
The students should able to understand the manufacturing drawings of aircraft components and assembly
The student should able to prepare the manufacturing drawings according to the requirement of aerospace industries
The students should able to create the 3D model and simulation of the part / assembly for various industrial aspects
Course Outcomes (CO’s):
After successful completion of this course, the student will be able to,
Identify the dimensions and datum references from the part/assembly drawings by using engineering graphics knowledge
Select appropriate tools/features in the 3D modeling software for sketching the aerospace components by following the user manual of the respective 3D modeling software
Illustrate the 3D component and Organize the parts in the assembly model of the complex aerospace system geometry by using the modeling software, user manual and engineering graphic skill
Create the rendered image/video of the 3D part/assembly related to the aeronautical or aerospace applications by using the user manual and appropriate color code of respective materials
Develop the orthogonal views of the complex part and assembly model with the complete bill of materials of the complete system assembly by considering manufacturing techniques and assembly sequence
Experiment -1
Experiment -1
Understanding the user interference and exploring the tools and features available in sketcher of the 3D modeling software ( 2hrs )
Interface Familiarization: Begin by acquainting users with the software's interface, including menus, panels, and navigation tools.
Basic Sketching Tools: Introduce fundamental sketching tools like lines, circles, and arcs.
Parametric Modeling: Explain the importance of parametric modeling for precise design and editing.
Advanced Features: Highlight advanced features such as fillets, chamfers, and patterns for more complex designs.
Experiment -2
Experiment -2
Creating the 3D solid model of the simple engineering components
Sketching the 2D model and converting to 3D
Extrusion extends the sketch along a straight path, while revolve creates a 3D
Use additional features and operations to refine your 3D model
Experiment -3
Experiment -3
Assembling the 3D solid model of the simple engineering components
Import individual component models into the assembly workspace.
Define their spatial relationships, including constraints and mates.
Ensure proper alignment and connections for functional integrity.
Validate the assembly's correctness and save it for further use or analysis.
Experiment -4
Experiment -4
Preparing drafting drawing for the created 3D models and assembly of engineering components
Generate 2D orthographic views, isometric views, and sections of the components.
Add dimensions, tolerances, annotations, and other essential details.
Arrange views on standardized drawing sheets with title blocks.
Ensure accuracy and adherence to industry standards for documentation.
Experiment -5
Experiment -5
Importing appropriate airfoil coordinates into the 2D sketcher and create 1:1 scaled sketch for different aircraft parts like wing, tail, compressor/turbine blade
Obtain the airfoil coordinates for specific aircraft parts.
Import these coordinates into the 2D sketcher of a modeling software.
Create 1:1 scaled sketches using the imported data for wings, tails, or blade profiles.
Use these sketches as the basis for designing and modeling aerodynamic components with precise airfoil shapes.
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Experiment -6
Experiment -6
Creating the 3D part models of Major aircraft systems like Wing / Engine Compressor blade Landing gear ,Missiles,Satellites.
Utilize 3D modeling software to design detailed part models.
Focus on major aircraft systems such as wings, engine compressor blades, landing gear, missiles, or satellites.
Implement precise dimensions, tolerances, and engineering specifications.
Create complex 3D models that accurately represent these critical components for analysis, simulation, or manufacturing.
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Experiment -7
Experiment -7
Assembling the 3D part models of Major aircraft system like Wing, Tail, Engine, Landing gear
Import 3D part models of major aircraft systems into an assembly workspace.
Define their spatial relationships and connections within the assembly.
Ensure proper alignment and functional integrity of the components.
Create a comprehensive 3D assembly of the aircraft, integrating wing, tail, engine, and landing gear for simulation and analysis.
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Experiment -8
Experiment -8
Preparing drafting drawing for the created 3D models and assembly for the aircraft system
IGenerate 2D engineering drawings from the 3D aircraft system models.
Include orthographic views, sections, and details with precise dimensions.
Arrange the drawings on standardized sheets, incorporating title blocks.
Produce comprehensive technical documentation essential for manufacturing and assembly.
Assessment Policy:
Assessment Policy:
In-Semester Evaluation :
(Continuous Assessment - Weightage 50 %)
One time submissions.
Proper report preparation
Attending the session regularly
In-Semester Evaluation : Activity Weightage 50%
Activity 1: Creating the 3D part models of Major aircraft system
Activity 2: Assembling the 3D part models of Major aircraft system
Activity 3: Preparing drafting drawing for the created 3D models and assembly for the aircraft system
End Semester Evaluation - Report Submission
(Weightage 50 %, Due Date )
Assessment Modes:
ISE : PA 15 Practical Assessment
Continuous Assessment Sheet
Attending and Active participation in all the Practical Sessions
Solving all the exercise problems and regular submission
Interaction with faculty for doubt clearance and learning
Attendance Considered only on Submissions
ISE : VCC 10 vocational course certification
Complete the Third Party evaluation
Course certification marks will be based on the grade you obtain the course (Class Relative will be considered)
ESE : OE . 15 Oral Examination
Presentation of the work completed throughout the course
ESE : PE 10 Practical Examination
Complete the Modeling ,Assembling, Drawing on the given time
Based on the completion work marks will be provided
For Further queries contact course coordinator
Google class room link : https://classroom.google.com/c/NjE5NDcxNzg4NjEw?cjc=u4mlaty
Google class room code : u4mlatyC
contact : dkp_aero@adcet.in
office hours : Friday 4.15 to 5.00 pm
parametric modeling with solidworks 2022 Paul J. Schilling, Randy H. Shih ,
SDC Publications
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