INDUSTRY CERTIFIED
ROTORRELIABILITY ANALYST
INTERNATIONAL STANDARD
100% QUALITY TRAINING
Diagnose. Maintain. Maximize Uptime.!
This course trains Industry Partners as Rotor Reliability Analysts. You will master the theory of rotor structure, aerodynamic stress, and material defects, learning to use drone logs for performance diagnostics. The training involves hands-on vibration analysis, component balancing, and log data interpretation. You will gain the expertise to predict, diagnose, and prevent rotor failure for maximum fleet uptime and safety.
Duration
0
Days of Training
Upto
0
Seats Available
Modules
0
In way of Practical
HANDS-ON PRACTICAL SESSIONS ON
Blade Surface
Check
Hands-on practice in visually inspecting propeller blades for damage and wear.
Torque Value
Measurement
Learning to accurately measure and apply the correct tightness to rotor mounting screws.
Log File
Extraction
Practicing the process of downloading flight data logs from the drone's flight controller.
Replacement
Planning
Developing a schedule and procedure for timely and safe rotor component replacement.
Vibration Tool
Setup
Setting up and using specialized equipment to measure and quantify rotor vibration levels.
Stress
Simulation
Using software or physical tools to model how loads affect propeller stress points.
Flight Data
Analysis
Interpreting log files to diagnose the root cause of observed rotor performance issues.
New vs Used
Rotor Test
Comparing the performance and vibration data between new and well-used propeller sets.
Sensor
Calbration
Adjusting and validating the accuracy of vibration and motor sensors that monitor rotor health.
Rotor Rebalance
Demo
Demonstration of techniques to correct imbalances in propellers to reduce vibration.
THEORY SESSIONS ON
Rotor Structure
Basics
Understanding the physical components and design of propellers, hubs, and rotor systems.
Material Defect
Types
Identifying common flaws (e.g., cracks, delamination) in rotor materials that compromise safety.
Sensor Data
Overview
Learning which onboard sensor data (e.g., vibration, motor current) relates to rotor health.
Drone Log Diagnostics
for Performance
Using flight logs to identify and analyze abnormal rotor or motor performance patterns.
Load Impact
during Flight
Learning how payload weight and maneuvers stress the rotor and propeller components.
Temperature related
Wear
Understanding how extreme heat and cold affect the structural integrity of rotor materials.
Rotor Lifespan
Estimation
Methods for predicting when a rotor component should be replaced based on usage and stress.
Aerodynamic Stress
Effects
Analyzing how air movement and speed cause fatigue and wear on blade surfaces.
Shaft Misalignment
Issues
Diagnosing problems caused by incorrect motor shaft positioning or bent components.
Safety Compliance
Standards
Reviewing industry guidelines for rotor inspection and maintenance to ensure safe operation.