Solid material comminution or disintegration – Processes – With solidifying – consolidating or shaping
Reexamination Certificate
2001-06-04
2004-09-21
Rosenbaum, Mark (Department: 3725)
Solid material comminution or disintegration
Processes
With solidifying, consolidating or shaping
C264S037290, C241S023000
Reexamination Certificate
active
06793163
ABSTRACT:
The present invention relates to a recycling process. In particular, the present invention relates to a recycling process that reclaims the fines produced during the manufacture of powder coatings, such that the fines can be reused in powder coatings. Additionally, the present invention provides a processing plant for carrying out such recycling process.
As an alternative to using traditional liquid paints, powder coatings are sprayed onto everyday items, for example, fridges, ovens, filing cabinets etc.
Powder coatings adhere to the metal substrate of the item that is sprayed, by electrostatic attraction. The painted or coated item is then heated in an oven, or cured by, for example, infra-red radiation. This produces the appropriate chemical reaction that provides the metal substrate with its finished surface.
Additionally, and by the use of NIR technology (Near Infra-Red), substrates such as wood or plastic can also be painted or coated using powder coating technology.
Regardless of the method of curing or heating utilised, in order to ensure an optimal adhesion of the powder coating to the substrate of the item being coated, a homogeneous temperature through the whole powder, substrate and boundary layer is required.
Generally, such powder coatings are manufactured by mixing the raw materials together, for example, resins, curing agents, fillers, pigments etc, and then extruding same into a continuous sheet by the application of heat and pressure. On cooling the resultant sheet, same is broken up into rough chips, which are then milled to produce a powder coating with a very specific particle size. The milling process is air fed to convey the product, as well as to take away the particles that are too small to meet the particular size specification. These small particles, which are commonly referred to in the industry as “fines”, and are referred to throughout this application as “fines”, are then collected on filters prior to being discharged into containers.
Although it is known to melt the fines into blocks and use the resulting blocks as an insulating material in building construction, as well as to use the fines as a filler or extender in battery casings, presently, the bulk of these collected fines are disposed of via landfill, which is not only costly, but is a waste of valuable raw materials and is environmentally unsound.
The reasons why such fines are mostly disposed of are that there are many problems associated with handling such fines. In particular:
1) Due to the extremely low bulk density of the fines, they occupy a large volume for storage, that is, given their very little mass;
2) Due to the physical nature of such fines, they are very difficult to handle and behave more like a liquid than a powder. Consequently, and due to their physical nature, they are not compatible with traditional powder handling techniques, or equipment for batch metering, blending or extrusion; and
3) Powder coating fines are by definition a “dust” and as a result thereof, they can easily be collected and contained as parts of a milling extraction plant. However, any attempt to re-utilise the collected fines as a raw material utilising standard equipment and technology, will energise the particles in such way as to have them extracted once again into the process dust collection system, or flow out, of any containing hoppers, thus defying any standard network operations.
Therefore, there is a need to provide a recycling process that converts the fines from a dust to a grain that is easier to handle. In particular, there is the need to provide a recycling process which can move the powder coatings industry towards a zero waste option.
In an attempt to devise such a process, we attempted a number of processes.
One of such processes involved processing the fines through a high pressure roll compactor. The roll pressure was varied from 5 to 100 bar and the screw feed was varied from minimum to maximum. It was observed that no compaction of the fines occurred and as a result thereof, it was concluded that such a method was not viable.
In a further attempt to provide a suitable process, the fines were placed in a high shear mixing vessel and heated via a steam jacket. The mixing blades and side refiner speeds were varied, together with the temperature. This resulted in the fines fusing into a solid block that almost destroyed the mixing vessel drive mechanism. In an attempt to overcome the observed problem, namely, the fines fusing into a solid block, several other attempts were made to cool down the mass, once the initial fusion temperature had been reached; however, all attempts in this regard failed, and no useful granulated material was produced. Once again, it was concluded that such a process was not viable.
With a view to trying to establish a more accurate profile of the fusion process, several experiments were undertaken in a laboratory oven. These involved placing 300 g of fines onto a tray and then subjecting the fines to different temperatures, for different durations of time. Such an approach was adopted with a view to narrowing down the range at which the fines would start to fuse. On doing so, it was observed that if the temperature and duration parameters were too low, no meaningful product could be produced, and if too high, the fines fused into solid block and hence, were unusable.
With reference to Table 1 below, the results of such experiments can be seen:
Duration
Temperature
% Product
1
1 hour
70° C.
58%
2 hours
70° C.
83%
1
The % Product column indicates final yield of granular material once the semi-fused mass was crushed and screened through a 3.0 mm screen and then sieved on a 212 micron screen to remove any fines.
It was observed that the resulting grains were easy to handle and could be readily used as either a finished, non-colour specific, powder coating, that is, once the grains had been crushed to the correct particle size, or as a raw material for use in producing a new, colour specific, powder coating. With reference to the latter use, the resulting grains are preferably added at an addition level of around 5% to the new, colour specific, powder coating.
In light of our findings it is believed that in order to make the fines reusable and more manageable, it is essential to heat the fines to a point where they become tacky or semi-fused i.e. up to a point where the fines are not fully melted or cross-linked. If over-heated, the coating is fully cured and cannot be reused as a powder coating.
EP06-83199 discloses a process in which a layer of fines is formed on a conveyor belt and subjected to heat up to coalescence of the powder by below decomposition or cross-linking.
According to the present invention there is provided a process for recycling fines produced during the production of powder coatings comprising the steps of:
depositing the fines onto conveyor means as a series of continuous lines;
heating the lines of fines without fully melting or cross-linking them until they become sufficiently tacky to form agglomerated masses;
cooling such agglomerated masses; and
collecting the agglomerated mass.
The invention further provides a process plant for recycling fines in accordance with a process for recycling fines the process plant including:
means for transporting the fines to be recycled as a series of continuous lines into a heating area and then into a cooling area.
It is an object of the present invention to provide a recycling process that enables the fines produced during the production of powder coatings to be reused as a powder coating.
The process of the invention preferably comprises the step of passing the fines under a profiled comb or plate to form the continuous lines. The lines preferably have triangular profiles and preferably have a depth of 0.5 to 1.0 cm.
Further preferably, the fines are heated at a temperature of 60-80° C., preferably 70° C.
Further preferably the resulting particles have a size of 3 mm to 212 microns.
Further preferably, any particles having a size of less than 212 microns are removed from the resultant product.
On
Drinker Biddle & Reath LLP
Rosenbaum Mark
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