Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Patent
1987-02-20
1989-01-10
Schofer, Joseph L.
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
524 59, 524567, 524585, 528499, 528502, 428407, 428489, 4289033, 427222, 106277, C08L 2306, C08L 2706, C08L 9500
Patent
active
047974346
DESCRIPTION:
BRIEF SUMMARY
This specification relates to a process for the manufacture of particulate material and is particularly, but not exclusively, concerned with the manufacture of material for use as a horse riding surface.
It has been proposed to make a horse riding surface from raw granulated plastics material, such as PVC. Such material is readily available as the by-product of reclaiming metal from plastics coated electric wires, cables and the like, and is relatively inexpensive.
Riding surfaces made from this material have certain drawbacks. Firstly, the material does not compact very well and tends to slide away from under a horse's hooves. Secondly, the material is not very dense and, for example, can blow away in a breeze. Thirdly, the material tends to have a significant dust content, which is undesirable.
There is, therefore, disclosed herein a particulate material manufactured from raw granulated plastics material which has been bitumenized. This material is denser and compacts in a better manner than the raw material. Furthermore, dust is substantially eliminated. The bitumen used is relatively cheap, weather resistant and non-toxic. An important feature is that the bitumen remains adhered to the plastics granules but does not adhere to a horse's hooves.
In broad terms, a process for manufacturing the material includes the steps of mixing the raw granulated plastics material with bitumen emulsion and water in such a way that the granules are coated whilst significant agglomeration is avoided. To have the granules agglomerate into substantial lumps would be unacceptable.
In a preferred process, a mixing drum is filled with the raw plastics material, and there are added--generally simultaneously--the required quantity of bitumen, a relatively large quantity of water at low pressure, and a relatively small quantity of water at high pressure. This high pressure water agitates the mixture and promotes coating without agglomeration. Other mixing means--such as stirrers--could be used.
The bitumen and water could be added by completely separate nozzles, for example, or by three nozzles feeding into one outlet.
A particular example of a suitable process will now be described although it will be appreciated that modifications and variations will be possible.
In this example, a large rotatable mixing drum is used, of a type normally employed for mixing concrete. The drum has a capacity of 6 cubic meters. About 41/2 tons of raw granulated PVC is fed into the drum by a conveyor which receives the PVC from a hoper. The drum is then rotated.
Water and bitumen emulsion are then added. The preferred emulsion is cationic 40%, for example in accordance with British Standard 434, Part II, Class K1-40. Such an emulsion is available from Kelbit Limited. Other cationic bitumen emulsions might be usable, such as 60% or 55% but the 40% emulsion has been found to give particularly good results. Anionic emulsion will generally not adhere properly to the PVC.
The emulsion is added in a quantity in the range of about 40-50 liters per ton of PVC. The preferred quantity, which gives especially good results, is 44 liters per ton, which gives about 200 liters for the 41/2 ton PVC load in this example. In practice, for simplicity, a 200 kg drum could be added.
The quantity of water added for the full load of PVC and emulsion is about 230 gallons, i.e. 1046 liters. This is a ratio in the range of about 200 to 250 liters per tone of PVC, and in this case is about 230 liters per ton.
The major part of the water is added at a relatively low pressure whilst the smaller part is added at a high pressure. In this particular example, the ratio is 20:3, i.e. 200 gallons of low pressure to 30 gallons of high pressure for the full load. Ratios in the range of 5:1 to 10:1 might be acceptable.
The high pressure water can be distributed over the load by an operative, to ensure proper mixing and even bitumenizing without agglomeration, e.g. by moving a hose around.
Mixing in the drum continues for about five minutes, following which the bitumenized material is
REFERENCES:
patent: 4172821 (1979-10-01), Bloombaum et al.
patent: 4177079 (1979-12-01), Espenscheid
patent: 4410646 (1983-10-01), Romey et al.
patent: 4544690 (1985-10-01), Ladish
patent: 4576648 (1986-03-01), Demangeon et al.
Denehunt Ltd.
Schofer Joseph L.
Teskin Fred M.
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