INDUSTRY CERTIFIED
DRONE-TECH FABRICATOR
INTERNATIONAL STANDARD
100% QUALITY TRAINING
Print the Future of Flight.!
This course teaches you to design and fabricate custom drone frames using advanced manufacturing techniques. You will master 3D printing principles, including material selection and optimal print orientation, and learn hybrid design by integrating lightweight carbon fiber composites. Through intensive practical work, you will slice, print, assemble, and stress-test a complete, custom drone frame. You will gain the skills to engineer stronger, lighter, and safer UAVs.
Duration
0
Days of Training
Upto
0
Seats Available
Modules
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In way of Practical
HANDS-ON PRACTICAL SESSIONS ON
3D Model
Slicing
Hands-on practice using software to prepare a digital model for the 3D printer.
Frame Part
Alignment
Practicing the accurate positioning and securing of all main frame elements.
Bonding & Joining
Test
Testing the strength of different adhesives and mechanical fasteners used in the assembly.
Strength
Evaluation
Subjecting the final frame to stress tests to verify structural integrity and durability.
Printing
Components
Operating the 3D printer to fabricate various custom drone parts.
Composite
Lay-Up Demo
Demonstration of the process for applying and curing composite materials like carbon fiber.
Load-Bearing
Check
Testing the completed frame to ensure it can withstand the expected weight of the motors and battery.
Fitting & Joint
Testing
Physically checking the precision and quality of connections between printed components.
Mold
Preparation
Learning how to create simple molds for making custom composite parts.
Final Frame
Build
Executing the complete, step-by-step construction of a custom hybrid drone frame.
THEORY SESSIONS ON
Basics of
3D Printing
Understanding the fundamental processes and types of additive manufacturing technology.
Print Orientation
Priniciples
Mastering how to position a part on the print bed to maximize its structural strength.
Use of
Lightweight Composites
Introduction to using materials like carbon fiber to reduce weight while boosting durability.
Assembly-Ready
Part Design
Designing components with features like clip joints and screw guides for easy final assembly.
Drone Design
Costraints
Learning the size, weight, and function limitations that govern effective drone component design.
Tolerance & Fitting
Basics
Learning to design parts with correct gaps to ensure components fit together perfectly after printing.
Carbon Fiber
Layering
Detailed instruction on the proper technique for embedding or layering carbon fiber sheets.
Material
Strength & Selection
Analyzing filament properties to choose the best material for specific drone parts.
Frame Load
Distribution
Understanding how to design the drone frame to evenly spread stress and forces during flight.
Hybrid Frame
Design
Learning to integrate 3D-printed parts with traditional materials for optimized performance.