The present invention relates to a low-density plastic composite material such as the WPC (wood plastic composite) material, and an extruder, equipment and method for manufacturing the material.
As we already know, composite materials consist of matrix materials and reinforcements, e.g., WPC. The reinforcements, which may also be referred to as reinforcing materials, ensures that the composite material has the required mechanical properties. Meanwhile the matrix materials ensures that the reinforcement constituents of the composite are bound together in order to form monolith and unity for the composite. Typical matrix materials include plastics (also called resins), metal, mineral, ceramic; wherein the plastic matrix comprises 2 main types, which include thermosetting plastics such as phenolic resin, furan resin, amine plastics, epoxy resin and thermosoftening plastics, such as PVC, polyethylene, polypropylene, polyamide, etc.
WPC has been known as a composite material which includes compatible ratio of the wood as reinforcing material and thermoplastic as matrix material. WPC can be produced by various methods. Currently, the most popular technology is extrusion, using a screw extruder, wherein the screw mixes the wood flour, thermoplastics and additives into a mixture in melted state within the cylinder of the extruder and continuously extrudes this mixture through an opening with constant cross-section (extrusion die) which cools and shapes the final products. To have the mixture evenly mixed and plasticized within the cylinder, and to increase tightness of the structure and sparkle of the product, the screw of the extruder always includes the conventional structures comprising:
In general, the applied method includes changing the groove depth, changing the screw pitch, or a combination of both to form ascending high pressure during the mixing process and extruding the mixture within the cylinder, thereby reaching a compression rate of 1.5-5 of the WPC material mixture in the melted state.
Another factor contributing to the increase of the mixture pressure in melted state is the process of cooling the mixture to the curing temperature and the shaping of the mixture within the extrusion die. This process forms a considerable resistance to the flow during the extrusion of the mixture out of the extruder cylinder, increasing the pressure of the mixture.
Hence, as discussed above, the production of WPC by screw extruder in the prior art eventually forms high pressure for the material mixture in melted state, which may be up to 300-500 kg/cm2. As a result, wood constituent in the conventional WPC mixture is compressed and its density can increase from 600-800 kg/m3 to 1100-1500 kg/m3, leading to an increase of WPC density up to 1100-1400 kg/m3, eventually leading to an increase of the final product weight. This in turn leads to an increase of the WPC prices and, in some cases, difficulty for shipping or works in complicated conditions such as construction sites or works at height.
In order to reduce density of the WPC material, the prior art applies the foaming method using foaming agents and particular die structure to form empty air bubbles inside of the WPC material block, but this method can only be applied for PVC and does not effectively work for other thermoplastics. This method still uses the screw extruder with features of continuously creating high pressure to the material mixture in melted state before being cooled and shaped in the shaping mold as discussed above.
The present invention has been proposed to solve the aforementioned problems, particularly to provide a plastic low density composite material, with constant ratio of the reinforcing materials and plastic compared to the equivalents, such as WPC equivalents.
For the aforementioned object and others, the invention provides a plastic low density composite material and a method for manufacturing this material which is referred to as the low-pressure extrusion method. Unlike materials of the prior art, e.g. conventional WPC, the plastic low density composite material is produced by the method wherein the wood (pulverized or ground with larger size depending on the required characteristics of the product), thermoplastics and additives are mixed in melted state within the cylinder of the extruder with screw having composition different from the conventional extruder in order not to form high pressure for the material mixture extruded out of the extruder via an extrusion die which has the temperature sufficient to maintain the melted state of the material in order not to form resistance to the flow in the process of extruding the material mixture out of the cylinder of the extruder, after which being cooled and shaped by the structures that allow easy release of the redundant material in order not to form high pressure in this process.
The material according to present disclosure is manufactured by the low-pressure extruder, which is used to produce the low-density plastic composite material, which comprises:
That is, the material mixture will be extruded with the pressure not as high as that of the prior art (which may be referred to as low pressure) due to the structure of the screw and the heater. The wood constituent in the mixture according to this method for manufacturing WPC is compressed under a lower pressure than that of conventional extrusion process, thereby leading to low density for the WPC material sheet.
In an aspect, the invention provides equipment including the above low-pressure extruder.
In another aspect, the invention also provides method for manufacturing the low density plastic composite material wherein the mixture is continuously extruded in melted state under a low pressure through extrusion die due to the volume between the cylinder and the screw per unit length not being reduced, thus not creating high pressure; and the die is heated to maintain the melted state of the material in order not to form resistance to the flow in the process of extruding the material mixture out of the cylinder of the extruder.
Furthermore, to enhance mechanical properties and bonding of the WPC constituents, the invention proposes producing the spine structure bound with thermoplastics (or other matrix materials) from the coating into the center of or throughout the WPC block.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The contents described herein are for illustrative purposes only and are not intended to limit the scope of the present disclosure, wherein:
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings are used to identify like or similar components.
The term WPC is used in the description, but it should be understood that, the present disclosure encompasses various embodiments wherein reinforcing materials are not wood, WPC is only an embodiment of the present disclosure.
As shown in
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As discussed above, with any ratio of thermoplastics and wood (commonly 30%-70% thermoplastics-wood to 70%-30% thermoplastics-wood) the density of the WPC manufactured by the low pressure extrusion method is always lower than the density of 1100-1400 kg/m3 of the WPC manufactured by conventional method with the same ratio of thermoplastics-wood, except that the conventional WPC uses PVC with the foaming method using foaming agents and particular mold structures to form empty air bubbles within the WPC material block. Depending on the material type, density of the wood-based composite material according to present is about 775-875 kg/m3.
As shown in
The volume between the cylinder and the screw per unit length is not decreased along the direction from the hopper 8 to the die in order that the mixture is extruded at low pressure in the melted state out of the cylinder of the extruder.
The die 4 is heated by the heater 5 to maintain the melted state of the material in order not to form resistance to the flow in the process of extruding the material mixture out of the cylinder of the extruder.
In various embodiments, the reinforcing material may be wood beads, wood chips, vegetal fibers, fiberglass, fabric fibers, chaff, fabric scraps or the like.
In an alternative embodiment, the reinforcing material is pellets pre-formed with the pelletizing granulation extrusion technology, wherein loose materials such as wood beads, wood chips, vegetal fibers, fiberglass, fabric fibers, chaff, fabric scraps or the like are ground into beads sized 0.5-5 mm, the thermoplastics and additives are mixed in melted state before being shaped into strings with diameter of 1-5 mm in an extrusion die, then cooled and cut into beads sized 1-15 mm. With this reinforcing material, density of the obtained plastic composite material is low, depending on specific materials, but generally lower than 1000 kg/m3.
In another aspect, the invention provides a method for manufacturing the low-density WPC material. The method for manufacturing the low-density WPC materials is discussed in further detail below.
Referring to
In an aspect, as shown in
In an alternative embodiment, also with the purpose of not increasing pressure on the wood in the material mixture, as shown in
In an alternative embodiment, as shown in
In an alternative embodiment, as shown in
In an embodiment, to enhance mechanical properties and bonding of the WPC constituents, the invention proposes producing the spine structure bound with thermoplastics (or other matrix materials) from the coating into the center of or throughout the WPC block. One of the methods for manufacturing the spine structure is as follows.
Referring to
In an aspect, the invention provides manufacturing method of the low-density plastic composite material, comprising:
In this description, aspects and embodiments of the present invention are described in relation with the objects of products, processes, and equipment. The present disclosure is described for the purpose of illustration of the objects and it should be understood that, to a person skilled in the art to which the present invention pertains, the features described for the extruder can be used to infer the equivalent features of implementation steps as well as the equivalent features of the products and vice versa.
Although the present invention is described by specific embodiments, it is obvious that various changes and modifications may be made by a person skilled in the art to which the present invention pertains. The scope of the present invention is limited only by the appended claims.
Number | Date | Country | Kind |
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1-2020-06645 | Nov 2020 | VN | national |