T-Motor G26x8.5 Propeller Split Type 4pcs/pair

Features:

• Premium carbon fiber construction.

  
  

• Large 26-inch diameter.

  
  

• Efficient 8.5-inch pitch for lift.

  
  

• Folding "Split Type" design.

  
  

• Enhances portability and storage.

  
  

• Increases crash resistance.

  
  

• Excellent dynamic balance.

  
  

• Minimizes vibration and noise.

  
  

• High thrust for heavy payloads.

  
  

• Includes blades for 1 CW & 1 CCW prop.

Technical Specifications:

• Model: T-Motor G26x8.5 Propeller (G-Series)

• Type: Split Type Folding Carbon Fiber Propeller (Blades detach from hub)

• Propeller Diameter: 26 inches (approx. 660.4 mm)

• Propeller Pitch: 8.5 inches (approx. 215.9 mm)

• Number of Blades: 2 blades per assembled propeller (Total 4 individual blades included, forming 2 propellers)

• Material: High-Modulus Carbon Fiber Composite

• Weight (per single blade): Specific weight needed, but for a 26-inch CF blade, typically around 70-100g. Confirm with T-Motor's official spec.

• Thrust Limitation: Designed for very high thrust applications (e.g., often paired with T-Motor U10/U12 or similar large industrial motors for payloads of several kilograms per motor).

• Compatibility: Optimized for large multirotor UAVs, agricultural drones, industrial inspection, mapping, and heavy-lift platforms. Requires compatible T-Motor propeller adapters/hubs (typically sold separately or included with motors).

• Mounting: Uses a bolt-on method to attach individual blades to a central propeller hub.

• Dynamic Balance: Factory pre-balanced for smooth, stable operation, reducing jello effect.

• Operating Temperature: Typical for carbon composites, e.g., -40℃ to 85℃

Additional Details:

• Manufacturer: T-Motor

• Brand: T-Motor

• Generic Name: Carbon Fiber Propeller || Folding Drone Propeller || Heavy Lift Prop || UAV Propeller || Multirotor Propeller || Split Prop || Industrial Drone Prop || 2-Blade Propeller || High Efficiency Prop || Large Drone Prop

• Sold By: UAV Marketplace (an authorized seller of drone gear and accessories)

• Ideal For: Agricultural Drones || Heavy-Lift Logistics UAVs || Industrial Inspection Drones || Large Mapping & Surveying UAVs || Professional Cinematic Drones || Custom Multirotor Builds || Long Endurance Drone Platforms || Disaster Relief Drones || Enterprise Drone Solutions || Coaxial Propulsion Systems

Package Details:

Includes:

• 2x T-Motor G26x8.5 Carbon Fiber Propeller Blades (CW Rotation)

• 2x T-Motor G26x8.5 Carbon Fiber Propeller Blades (CCW Rotation)

Frequently Asked Questions:

Q1. What does "Split Type" mean for the T-Motor G26x8.5 propeller and what are its advantages?

Ans. "Split Type" means the propeller consists of individual blades that attach to a central hub, rather than a single fixed piece. The primary advantages are enhanced portability and reduced storage space for large drones, as blades can be easily detached. It also increases crash resilience, as individual blades might detach or flex upon impact, potentially saving the motor and the blade itself from more severe damage compared to a rigid prop.

Q2. Are these T-Motor G26x8.5 propellers suitable for standard FPV racing or freestyle drones?

Ans. No, the T-Motor G26x8.5 propellers are not suitable for standard FPV racing or freestyle drones. With their massive 26-inch diameter, they are specifically designed for very large, heavy-lift multirotor UAVs like agricultural or industrial drones. FPV racing/freestyle drones use much smaller propellers (typically 5-7 inches) to achieve high agility and rapid throttle response, which these large props are not designed for.

Q3. How does the carbon fiber material benefit the performance of these large propellers?

Ans. The carbon fiber material offers significant benefits for these large propellers by providing exceptional rigidity and lightweight construction. This rigidity ensures that the propeller blades maintain their optimal aerodynamic shape even under immense thrust loads, preventing flex and maximizing efficiency. Being lightweight reduces rotational inertia, allowing motors to be more responsive and consume less power, ultimately leading to more stable flight, longer endurance, and better payload capacity.