Liquiflo's ENDURA MC-Series Centrifugal Metering Pumps - The ENDURA MC-Series is the standard line of Group I & Group II ANSI-Dimensional Magnetically-Coupled Centrifugal Pumps. Seven standard models are available to cover a wide range of flow rates.
Model MC 1½ x 1 x 6
Model MC 3 x 1½ x 6
Model MC 1½ x 1 x 8
Model MC 3 x 2 x 8
Model MC 4 x 3 x 8G
Model MC 3 x 2 x 10
Model MC 4 x 3 x 10H
•7 ANSI sizes available
•316 SS or Alloy-C construction
•NdFeB or SmCo magnetic couplings
•Vertical models available
•No seals to leak
•Over-sized shafts minimize deflections
•Close-Coupled or Power Frame
Available Sealing Configurations
Magnetically Coupled (sealless)
The magnetically coupled or mag-drive pump is the best method for handling toxic, noxious, crystallizing, or most other hazardous liquids since it completely contains the pumpage by isolating the drive shaft inside the pump housing. With no dynamic seal to leak or replace, the maintenance issues associated with seal leakage are eliminated. All Centry centrifugal pumps are available with magnetic drive.
Available Options & Accessories
The Endura Module is a complete wet-end mag-drive pump assembly less the volute. A module replacement is recommended when a quick turn-around is essential for plant operation
The Endura pumps can be long-coupled to the motor using the Power Frame option.
Accessories & Spare Parts
Mechanical couplings, coupling guards, risers, base plates, adapters, brackets, impellers and all other individual pump components can be purchased separately
Base Plate Mounting
Liquiflo Endura pumps are available with base-mounts to simplify installation. Liquiflo also offers base-mounts with or without the motor pre-installed.
Ceramic Containment Shell
The standard metal containment shell for the MC-Series can be replaced with optional ceramic transformation-toughened zirconia (TTZ). Ceramic shells are non-conductive and therefore do not produce eddy current power losses or the associated heat, like metallic shells. MC pumps utilizing the ceramic containment can will have a significantly higher efficiency.