Description
CB55 / AT-2332 is a high performance low nitrite – molybdate corrosion inhibitor scientifically formulated for the treatment of closed circuit systems including closed chilled water and low pressure heating systems.
Based on a blend of organic and inorganic corrosion inhibitors Accepta 2332 is proven to provide superior protection for steel, copper and other non-ferrous metals.
CB55 / AT-2332 is a highly efficient formulation providing the ideal treatment for closed chilled water and low pressure heating systems.
IMPORTANT – CB55 / AT-2332 is NOT intended for use in systems containing Aluminium.
Product Benefits
- Superior quality corrosion inhibitor
- Developed specifically for use in closed circuit systems
- Proven protection for steel, copper and other non-ferrous metals
- Ideal for closed chilled water and low pressure heating systems
Product Properties
Fprm: | Liquid |
Colour: | Colourless |
Odour: | Odourless |
pH: | ~11 |
Relative density: | ~1.18 |
Solubility in water: | Miscible |
Flammability: | Non flammable |
*Full details of the product properties are available in the Safety Data Sheet. See below.
Application & Dosage Information
Typically CB55 / AT-2332 should be dosed at 1.5-2.0 kg/m3 in order to give an active reserve of 55-75mg/L molybdate (as Mo04) and 410-560 mg/l (as NaNO2).
Control limits of 8-10.5 pH and a maximum of 2000mg/l TDS are recommended.
CB55 / AT-2332 is typically dosed alongside a biocide such as BC-ITA / AT-2827 Isothiazolone to control bacterial levels in the closed system.
NOTE: CB55 / AT-2332 is NOT intended for use in systems containing Aluminium.
It is always advisable to carry out a ‘Control Of Substances Hazardous to Health’ (COSHH) assessment before use.
For further technical assistance concerning CB55 / AT-2332 please contact Accepta.
Safety, Storage & Handling
For full details concerning safety precautions, storage and handling procedures for this product please refer to the latest Safety Data Sheet.
To request the latest MSDS for this product please fill out the form below.