CoolerMaster MasterLiquid PL240 Flux White Edition All In One Liquid CPU Cooler
CoolerMaster PL240 Flux White Edition, 240mm All-in-One Hydro CPU Cooler, 2x120mm PWM Fan, ARGB LEDs, Aluminium/Copper
240mm MasterLiquid PL240 Flux White Liquid CPU Cooler from Cooler Master
Cooling, Uncompromised CoolerMaster's Flux Series is the materialisation of revolutionary cooling performance. With enhancements from the pump to the radiator and fans, the Flux Series delivers precisely tuned performance for superior heat dissipation and cooling capabilities. The new Dual Chamber Pump is more compact than before while delivering the perfect volume of flow to pressure for impressive cooling performance.
AMD SocketAM5/AM4/AM3+/AM3/AM2+/AM2/FM2+/FM2/FM1/TR4
Intel LGA Socket1700/1200/2066/2011-v3/2011/1151/1150/1155/1156
240mmRadiator Size
Full RGB Illumination
Switch up your style with the controllerIncluded Addressable Gen 2 RGB controller works with CoolerMaster’s MasterPlus+ software to customise individual LED colours, effects, brightness and more – all from an intuitive, convenient interface.
Enhanced Air Balance Fan Blades
Maximum Airflow120mm square frame ARGB fan designed with inter-connecting air balance fan blades uniquely modified for the PL-Flux Series.
0-2300 RPM ± 10% Fan Speed
72.37 CFM (Max) Fan Airflow
32 dBA (Max) Fan Noise Level
2.96 mmH₂O (Max) Fan Pressure
Dual Chamber ARGB Pump
Perfect BalanceNew Compact Performance Dual Chamber pump delivers the perfect balance of water flow and pressure for impressive cooling.
Ultimate Heat Exchange
Efficient thermal balanceHigh speed motor utilising a ceramic bearing impeller forces balanced water flow to and from the radiator for ultimate efficiency of heat exchange.
Superior Cooling
Slim and sleek radiatorLow profile radiator with superior fin density coupled with performance fans dissipates heat rapidly.
Fine-Tuned Performance Ratio
Enlarged copper basePrecision engineered ultra-thin spaded fins maximises microchannels accurately targets heat spots. Enlarged copper base surface area optimised with ideal base thickness accelerates heat transfer.