The LF pumps play a particularly important role in furane binder systems, delivering sulphuric or sulphonic acid
to act as a catalyst on furane resin. The highly corrosive nature of the acid was a key factor in Integrated Sand Systems’ choice of pump.
The LF Range of progressing cavity pumps can be run at low speeds, thereby reducing wear and offering extended service life. The corrosion resistance of the pump’s polyethylene body and hypalon stator, coupled with the limited number of component parts, further minimises the maintenance requirements.
The LF Range features Mono’s Flexishaft which provides a single component link between the rotary motion of the
drive shaft and the eccentric motion of the helical rotor. The reduced number of moving parts in the drive train
eliminates wear and makes lubrication unnecessary, reducing the risk of product contamination. The simplicity
of the Flexishaft drive, and consequently the pump design, means that the pump is easily dismantled and reassembled when routine maintenance is required.
In addition to low component wear rates and optimum ease of maintenance, the furane sand binder systems
demand a high degree of accuracy and consistency. The sulphuric acid gives off sulphur dioxide fumes during casting, and it is therefore a key requirement to keep the release into atmosphere, caused by excess acid, to an absolute minimum.
The Temcon system uses two catalysts, working at slow and fast setting rates, blended to give a specific setting time, which is dependent on the temperature of the sand. Steady, consistent flow which can be adjusted to adapt to
a change in temperture is therefore important.
The diaphragm pumps used previously, could not easily be programmed for low dosage, and showed a tendency to
deliver the chemical in spurts which did not blend well.
The LF Range is specifically designed for accurate, intermittent or continuous dosing with a repeatability of +2%.
The furane sand binder systems come in capacities from 2 tonne/h to 40 tonne/h, incorporating pumps delivering
chemicals at 5 l/h up to 55 l/h. Typically the sand is blended with 0.9% resin and 0.3% chemical catalyst.