US 20050013984 A1
A plastic-based composite product comprising a plastic mass in which particles are homogeneously embedded, which particles have tensile strength in a first particle direction, the product having a chosen principal product direction, wherein the particles comprise: small particles being elongated plates of fibres and having a random orientation and a length of 0.2-2 mm; and large particles dominantly orientated such that their first particle direction is in the chosen principal product direction, the large particles having a length in the first particle direction of about 2-6 mm.
1. Plastic-based composite product which is comprised least partially of a plastic having a plurality of particles homogeneously embedded in said plastic, which particles have tensile strength in at least one principal direction.
said plurality of particles comprising:
small particles, in the form of plates or fibres with a random orientation and a length of 0.2-2 mm, and
large particles with a dominant orientation, of the said principal direction of the particles in a chosen product principal direction and a length in the particle principal direction of about 2-6 mm.
2. Product as claimed in
characterized in that the large particles are plates and the particle principal direction extends in the main plane thereof.
3. Product as claimed in
characterized in that the plates have an at least more or less isotropic tensile strength in their main plane.
4. Product as claimed in
characterized in that the plates consist substantially of mica.
5. Product as claimed in
characterized in that the large particles are fibres wherein the principal direction of the particles is the longitudinal direction of each fibre.
6. Product as claimed in
characterized in that the particles consist predominantly of wood material and the plastic is a thermoplastic polymer material,
a. the transverse dimension of the large wood particles is such that the ratio between the length in the principal direction of the particles and this transverse dimension amounts to a minimum of 4.
b. the wood particles are present in a quantity of 40-80% by mass, in relation to the mass of product.
c. the obtained product complies minimally with the following requirements relating to mechanical properties in
bending strength in the fibre direction: 8 MPa
bending modulus in the fibre direction: 3 GPa
tensile strength in the fibre direction: 6 MPa
tensile stress modulus in fibre direction: 3 GPa
tensile strength transversely of fibre direction: 0.3 MPa
tensile stress modulus transversely of fibre direction: 1 GPa.
7. Product as claimed in
characterized in that the wood particles originate from softwood or hardwood.
8. Product as claimed in
characterized in that other particles with tensile strength are present in an amount of 3-25% by mass.
9. Product as claimed in
characterized in that other particles with tensile strength are present which originate from at least one type of from the class of inorganic polymers on a basis of silicates.
10. Product as claimed in
characterized in that other fibres with tensile strength are present consisting of glass fibres, chopped strands with a length of 4-5 mm and a diameter of 0.013 mm and a ratio of length to diameter in the range of 300-400.
11. Product as claimed in
characterized in that other fibres with tensile strength are present which are at least one of the class of the natural biopolymers on a basis of cellulose, wherein the percentage of said natural biopolymers present depends on the number of external appendages on the fibres.
12. Product as claimed in
characterized in that the polymer material consists of polypropylene, polystyrene, polyethylene or polyacrylate.
13. Product as claimed in
characterized in that the polymer material consists of one or more olefinic homo-or copolymerisates with an H.F.I. (230/2,16) of 1-30 dg/min; and which polymeric matrix material forms 10-50% by mass of the wood.
14. Product as claimed in
characterized by at least one additive for obtaining desired properties, which additive is added to the process flow at a suitable position in the compushtruding process during manufacture of the product.
15. Product as claimed in
characterized by an additive with a desired influence on chosen properties of the product and belonging to at least one of the following classes:
influencers of adhesion between particles with tensile strength and matrix poly (class H),
influencers of the properties of the surface of the product, particularly in respect of coatings or adhesives for applying in sandwich structures (class 0),
influencers of the pyrogenic properties (class F),
influencers of the particle durability (class D),
blowing means for obtaining a foamed structure (class B),
in the case of an unintended, sufficiently great temperature increase.
16. Product as claimed in
characterized in that as additives with a positive influence on the desired properties of the technical wood one or more of the following are present therein indicating the class or classes and the applied percentage related to the mass of technical wood:
17. Product as claimed in
characterized in that at least one colouring agent or pigment is added to the product during manufacture.
18. Product as claimed in
characterized in that the product comprises:
a plastic-based composite layer
a first skin layer adhered thereto on a first side thereof
optionally a second skin layer adhered thereto on a second side thereof; and which layers are mutually adhered.
19. Product as claimed in
characterized in that at least one skin layer is of the type as claimed in
20. Apparatus for manufacturing a product as claimed in
a compounder operating at low pressure for plasticizing a mixture of plastic and particles with tensile strength, which particles are mixed with the plastic either beforehand or in the compounder, and pressing the plastic mixture to the outside via an outlet;
a rotating displacement pump further transporting the plastic mixture;
a distribution head further guiding the mixture in order to further transport the plastic mixture substantially as a plug flow;
orienting means further guiding the mixture, comprising at least one bundle of substantially parallel channels through which the plastic mixture can flow, which channels are dimensioned relative to the long particles such that, other than to a dominating extent in the particle principal direction, said channels being too small to allow passage of the long particles present in the plastic mixture; and
a substantially prismatic mould head which connects onto outlets of the channels, said outlets having a form which corresponds with a desired cross sectional form of the product;
such that the particle principal direction corresponds with the longitudinal direction of the mould head and the product principal direction;
which mould head is so long and has a temperature curve in the longitudinal direction such that at the end of the mouth the product has cooled to below its Vicat softening temperature.
21. Apparatus as claimed in
22. Apparatus as claimed in
23. Apparatus as claimed in
24. Apparatus as claimed in
25. Apparatus as claimed in
26. Apparatus as claimed in
27. Apparatus as claimed in
28. Method for manufacturing a product as claimed in
characterized in that the finished product is subjected to an after-treatment comprising heating the product to a temperature above the Vicat softening temperature of the applied plastic respectively the highest Vicat softening temperature of all the applied plastics, modelling the product to a desired shape and while maintaining a chosen pressure causing the product to cool in this shape to below the said Vicat softening temperature.
29. Product obtained with the method as claimed in
30. Method for manufacturing a product as claimed in
characterized in that as starting polymer material is used a prepolymer on the basis of a styrene or an acrylate.
31. Product as set forth in
32. Product as set forth in
33. Product as set forth in
34. Product as set forth in
35. Product as set forth in
36. Product as set forth in
37. Product as set forth in
38. Product as set forth in
39. Product as set forth in
The invention relates to a plastic-based composite product which consists at least partially of a plastic in which a material consisting substantially of particles is homogeneously embedded, which particles have tensile strength in at least one principal direction.
It is an object of the invention to provide a product which can be manufactured at low cost but which nevertheless meets high standards which may be required in respect of diverse properties. Such properties can relate for instance to mechanical properties, fire resistance, weather resistance, non-ageing properties and the like.
With a view to the above, the invention provides a product of the stated type which has the special feature that the particles comprise:
A specific embodiment has the characteristic that the large particles comprise plates and the particle principal direction extends in the main plane thereof.
In order to easily obtain the desired orientation of the plates the embodiment is recommended wherein the plates have an at least more or less isotropic tensile strength in their main plane.
Very suitable in this latter context is the variant wherein the plates consist substantially of mica.
It is noted that according to the invention the particles can also possess a generally elongate form, whereby they may be designated as fibres.
A specific and very advantageous variant has the feature that the particles consist predominantly of wood material and the plastic is a thermoplastic polymer material, in particular at least one polyolefin or one polymer on a basis of styrene, wherein
The invention herewith provides a product which in the manner to be described hereinbelow can be manufactured on a basis of wood without waste and, if desired, as a continuous process, which product not only possesses mechanical and physical/chemical properties corresponding with wood but which product can be manufactured on the basis of basic wood which can if desired be inferior and can be classified as interior wood, exterior wood or construction wood. This product according to the invention will hereinafter be designated as technical wood.
The invention provides the possibility of applying the obtained product at locations where tropical hardwood is still indicated.
For this purpose particles with tensile strength such as wood particles, preferably originating from waste wood or wood waste, optionally together with suitable strengthening particles are predominately oriented and bound by means of a thermoplastic polymer, preferably on a basis of olefins or styrene, wherein the proportion of applied particles is extreme relative to the binder polymer such that there is no question of this being a fibre-filled thermoplastic material but an exceptionally wood-like material which, can be processed in a manner usual for an expert.
It is important that the method can be performed continuously and comprises the stages of compressing, compounding, fibre-orienting and shaping, wherein the following requirements must be fulfilled.
1. the compression stage wherein expulsion of included gases, both inter- and intrafibular, must likewise take place under conditions wherein the fibres remain intact.
2. the compounding phase wherein the mixing of components and wetting with polymer melt must take place under conditions wherein fibres sensitive to breakage and splitting remain intact.
3. the orienting phase wherein a dominant orientation of long particles in the compressed plastic material must take place under conditions such that the mutual position of the particles in the mix is by and large retained, that is, the orientation proceeds along fluent flow lines, gradually and without such high shear stresses that there would thereby be a danger of thermal degradation.
4. the shaping phase wherein the mix acquires its fixed shape and dimensioning on the cross section perpendicularly of the flow direction, likewise under conditions wherein the relative mutual position of the particles remains practically unchanged, for which purpose the material flows under overpressure out of the mould head and remains at pressure in the calibrating unit until the binding polymer phase has cooled to below the Vicat softening temperature.
There is no extrusion here, since in extrusion the melted mass, after leaving the extrusion head, is relatively pressureless or is at least under a relatively small overpressure such as is necessary to allow an after-flow of the plastic core of the shaped product in the calibrating unit in order to thus enable replenishing of the material deficit resulting from shrinkage. This after-flow must always be avoided because it would be accompanied by delamination and a decrease in cohesion between particles and plastic and the desired properties would consequently not be obtained.
There is also no question of pulltrusion since tensile forces are therein exerted on the shaped product after and in the final part of the consolidation phase for the purpose of continuous discharge of the shaped product, which otherwise acquires its shape in pressureless manner or under relatively small overpressure from a fusing of thermoplastic and fibre reinforcement.
The method according to the invention involves a shaping process under continuous significant overpressure, wherein the material does not flow but is pushed forward as a plastic plug through orientation, shaping and consolidation phase.
This method is therefore designated with the name of pushtrusion.
The obtained product on the basis of wood particles and plastic, technical wood, is fully recyclable due to the fibre binding by means of a thermoplastic. It will be apparent that recycled polyolefins and styrenes can also be used as fibre binder.
Additives can moreover be added during the compounding phase, whereby properties are given to the technical wood which surpass those of natural wood, particularly when fast-growers such as firs, pines, birches and poplars are used as starting point.
The method as continuous process will be designated as compushtrusion and the apparatus in which the method is performed will be designated compushtruder.
Examples are known from the patent literature wherein plastic products resembling wood are manufactured but wherein the mechanical properties as obtained according to the method of the invention are not obtained therein.
The known methods, insofar as a relatively high proportion of wood mass is processed into the product, moreover make use without exception of a machine with a strong kneading action, such as for instance the Banbury mixer or the Buss Co-kneader, which is deliberately not used in the new method in respect of the harmful effect of such a kneading machine on the dimensions and properties of the applied wood fibres.
The applications of the products according to the known methods are limited to ornamentation, covering, fence palings etc., wherein the wood part is considered as filler:
On the compushtruder can be distinguished:
The function of the compounder, as for instance from the series Theysohn TSK-N, Leistritz ZSE-GL, is to encapsulate particles, in particular wood fibres, in the liquid thermoplastic. This must take place such that the wood fibre is completely enclosed with polymer, however, without the fibres effectively being shortened herein through breaking in the length. The wood fibres may however split longitudinally. This situation is achieved by the polymer melt wetting the fibres. Due to the relatively strong adhesion properties of the melt in relation to the fibres the latter are carried along and dispersed homogeneously further on in the melt phase. Adapting the screw geometry prevents too intensive a kneading action being applied to the mixture, as is usually the case with, for instance, the Banbury mixer or a standard compounder. A conscious choice has been made for a long compounding path instead of a short sharp one, wherein the wood particles are handled carefully while a homogeneous dispersion nevertheless occurs. The wood particles are preferably introduced under compression and compacted to prevent excess air inclusion which could affect the quality of the end product.
By successively compressing, decompressing and degassing under vacuum the mixtures by means of the chosen screw geometry, air and gases are expelled, both from the mixture and from the pores in the fibres. In the case of a single-screw compounder, the mixture is driven in a compressed plug flow, whereafter the thermoplastic part is melted.
The adhesion between wood particles and polymer melt is so great and adheres such that optional further additions can be made to the mixture without breaking the adhesion between polymer and wood particles.
Optional reinforcing fibres on a basis of cellulose, such as flax, hemp or mlneral fibres or glass, (mica) plates or the like can be carried along in the above path.
The pressure on the mixture for the purpose of the shaping phase is not provided, as is usual, by the principle of the extruding action of the screw but by a rotating displacement pump interposed for this purpose.
(2) Rotating Displacement Pump
The pressure required to press the mixture through the distribution head (to be described below), the orienting means and the mould head/calibrating device is produced by a displacement pump, preferably a screw pump of a gear pump, for example Maag, Expac type Extrrex 56/56 or Witte type ESTHF 92.6LKK. High pressures can be realized without any significant effect on particle shape and dimensions. Moreover, since large shearing forces are practically absent, the desired pressure increase can be realized without excessive thermal load and degradation of the mixture.
(3) Distribution Head
The distribution head is a necessary “interface” between rotating displacement pump and orienting means. The laminar flow pattern from the rotating displacement pump must be converted to a plug flow.
The particle orienting means must be supplied with a constant flow of mixture which in quantity and speed is distributed equally over the flow surface of the orienting means, this in order to prevent blockage and turbulence as result of speed differences after each phase of the particle orientation. The distribution head thus initiates the required placidity within the flow profile, The plug flow can be optimalized:
The form of the distribution head depends partly or wholly on the desired product.
(4) Orienting Means.
The orienting means consist of a plurality of plates connected in series with slits (in the case of plates) or (cylindrical) holes (in the case of fibres) in the flow direction. The total through-flow surface per plate is mutually equal. The diameter of the holes decreases over the plates connected in series. The diameter and the decrease thereof over the plates depends on the particle dimensions and the desired degree of orientation. When short fibres with a length of 2 mm and an L/D ratio of 4 are guided through a hole of 2.5 mm, little or no orientation will occur.
If a long fibre with a length of 4 mm and an LID ratio of 8 passes through the same hole, then orientation will occur.
The number of plates depends on the degree of uniformity in the fibre length, the LLD ratios thereof and the desired degree of orientation.
The length of the slits or cylindrical hole is preferably at least equal to the maximum linear particle dimension.
Transition plates between the hole plates with different diameters have of course the same through-flow surface as the hole plates.
(5) Mould Head/Calibrating Device
In order to make a two-dimensionally shaped endless product from the “wood mixture” with the oriented particles a mould head and a calibrating device are necessary. In contrast to the typically used extrusion shaping process, mould head and calibrating device are constructed integrally in the compushtrusion process, since the pushtrudate may not be pulled or have pressure exerted thereon in lengthwise direction.
An essential condition for obtaining technical wood is that after shaping the mixture is cooled under pressure to below the Vicat softening temperature of the binder thermoplastic. This consolidation process is necessary to prevent delamination and matrix failure.
The system pressure is derived from the flow resistance between mixture and mould head/calibration.
In order to prevent delamination and matrix failure in the calibration the first part hereof is covered with a coating which substantially reduces the surface resistance to a value wherein no delamination and matrix failure occurs. The outer part of the product meanwhile cooled to below the Vicat softening temperature in the calibration provides matrix support of that part of the product, the material core, still lying below the Vicat softening temperature.
It will be apparent that in the compushtrusion process many parameters can be distinguished which all have their influence on the creation, quality and properties of the technical wood.
The process parameters can be sub-divided as follows:
(1) The variable parameters can be further sub-divided into two categories:
The method is performed in a compushtruder as described above with a capacity of 200 kg per hour.
The composition of the mixture is as follows:
The most important process parameters are as follows:
Six samples were measured wherein the following results were obtained in respect of the length orientation of the wood particles:
Addition of 10% glass or flax fibre with a length of 4 mm and L/D 150 to 400 gives values about 25% higher than shown above.
A product can in principle be manufactured in any suitable manner, starting from pre-compounded material or semi-manufacture, for instance by (isostatic) pressing, injection moulding, extruding, compushtruding.
A specific embodiment has the feature that the product consists substantially of a laminate comprising a plastic-based composite layer according to the above stated specifications; a first skin layer adhered thereto on one side and possessing chosen properties; optionally a second skin layer adhered thereto on the other side and possessing chosen properties; and which layers are mutually adhered by for instance gluing, welding, mirror-welding, with an infrared laser, with hot air or other suitable treatment.
Another embodiment is characterized by at least one additive for obtaining desired properties, which additive is added to the process flow at a suitable position in the compushtruding process during manufacture of the product.
The said chosen properties of the skin layers may relate for instance to the adherability of paint, lacquer and glue.
A variant of this latter embodiment has the feature that the skin layer or at least one of the skin layers is of the type according to the invention and the long particle orientation thereof has a chosen direction relative to this orientation of the first mentioned plastic layer. Specific mechanical properties can hereby be achieved. These can be based for instance on the Stringer effect.
As already noted, the product according to the invention lends itself very well for manufacture by means of a process which can best be described as compushtrusion. In this respect the invention likewise provides a compushtrusion apparatus for manufacturing a product of the above specified type, which apparatus comprises: a compounder operating at low pressure for plasticizing a mixture consisting substantially of plastic and particles with tensile strength, which particles are mixed with the plastic either beforehand or in the compounder, and pressing the plastic mixture to the outside via an outlet;
As already discussed, the adhesion of lacquer, paint and glue can be enhanced by mechanical means, for instance due to a certain porosity and protruding fibres. Another embodiment which achieves the same effect in chemo-physical manner is characterized by an additive with a desired influence on chosen properties of the product and belonging to at least one of the following classes:
The invention will now be elucidated with reference to the annexed drawings, wherein:
For greater thicknesses a product can be manufactured from a plurality of laminates placed one on top of another and mutually adhered by a thermal treatment and pressure.
It is further noted in general that binders can also be added to the basic plastic in order to improve the adhesion between fibres, plastic and other additives. The adhesion to the product according to the invention of paints and lacquers on acryl-water basis can hereby also improve.
The use of colouring agents or pigments in the mass can provide the advantage that a uniform product is obtained.
With reference to
In contrast to the above mentioned prior art the invention provides a product which lends itself for processing and treating as wood. The following considerations are paramount here.
The product according to the invention can have a linear expansion similar to wood and also has a similar strength and stiffness with a comparatively great toughness and excellent cracking strength. The product can display fire characteristics which, by making use of environmentally-friendly provisions, must be at least the equal of the fire characteristics of normal wood and which when it burns may not produce any more smoke and harmful substances than normal wood. At a specific weight of 750-1250 kg/m3, the process and the required raw materials and additives may not exceed the price of normally processed wood.
In terms of appearance and weight the product according to the invention can if desired display a striking similarity with natural wood or traditionally pressed wood such as MDF or wood fibre board.
The product according to the invention can be worked with normal tools and normal wood processing machines. In the usual manner of wood it can be nailed, sawn, screwed, glued, painted and lacquered.
The product according to the invention can possess an excellent resistance to climatological conditions such as moisture, sunlight with ultraviolet component, temperature changes etc.
The products according to the invention are better suitable for recycling after use than natural wood.
The products according to the invention are superior to wood in respect of moisture absorption, rotting, swelling and the like.
Via a collection space 35 the plastic mixture allowed through is fed to a bundle 36 of channels which is bounded by plates extending one on top of another in transverse direction. By means of channels 37 sufficient heat can be supplied to the through-flowing mixture to keep it in plastic state. A second bundle 38 follows the first bundle 36 via an interspace 37. A third bundle 40 follows via an interspace 39.
Downstream of this latter bundle 40 is situated the mould head 41 of the compushtruder 21. By means of calibrating and cooling means the product is then cooled gradually while a sufficient pressure is maintained, and is carried to the outside in the correct dimensions. Product 42 according to
The diameters of the mutually adjacent round channels in bundles 36, 38, 40 amount in this embodiment to respectively 14 mm, 8 mm and 6 mm while retaining the same through-flow surface.
It will be apparent from the structure shown in
It is noted that in all compushtruders the mixture with the fibres embedded therein is introduced into the mould head by the rotating displacement pump at a relatively high temperature above the Vicat softening temperature, for instance 180° C., cools during the transport through the mould head and has reached a reduced temperature at the end such that the exiting product has a temperature below the Vicat softening temperature, whereby it is sufficiently cured that it will no longer undergo any substantial change in shape.