Multiquip QC10871 - Enduro Quick Change Blade
Designed for 36" Diameter Rotors, these 8" x 14" Enduro Quick-Change Combo Blades feature a .092" steel thickness for superior durability and smooth concrete finishing. This 4-Pack ensures long-lasting performance and reliable results on every job. Order now to enhance efficiency and achieve professional-grade finishes.
Features:
Combo Enduro Blade
- Multi-Phase Enduro Blade: A high-performance hybrid blade designed to transition seamlessly from initial floating to final burnishing. Engineered with specialized Enduro alloy, it eliminates the need for mid-job blade changes while offering significantly extended wear life on large-scale pours.
8 x 14-Inch Blade
- High-Coverage 8" x 14" Blade: Optimized for maximum surface contact, this wider profile provides superior stability during the initial floating stages while transitioning seamlessly into a professional finish.
Ideal for Ride On Trowels
- Engineered for High-Output Ride-Ons: Optimized to withstand the intense torque and downward pressure of dual-rotor machines, ensuring consistent surface consolidation on high-production industrial slabs.
Wear Resistant
- Specially tempered to withstand the intense friction of high-speed finishing, this component maintains its structural integrity even when working with abrasive, high-aggregate concrete mixes.
21/200-Inch Thickness
- Precision-engineered with a 0.105-inch ($21/200"$) thickness, providing the structural rigidity required for high-pressure burnishing without the risk of blade curling.
Use with 36-Inch Trowels
- Precision-Matched for 36" Rotors: Specifically engineered to fit the diameter and torque profiles of 36-inch (900 mm) power trowels, ensuring a balanced rotation and seamless operation.
Enhanced Performance
- Engineered to accelerate the finishing process, allowing you to cover more square footage in less time while maintaining superior surface quality.
Extended Durability
- Engineered to significantly outlast standard alternatives, this component lowers your total cost-per-job by reducing the frequency of replacements and minimizing maintenance downtime.
