Method for producing a rod-shaped composite part and...

Coating implements with material supply – Solid material for rubbing contact or support therefor – Including holder

Reexamination Certificate

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C264S129000, C264S176100

Reexamination Certificate

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06478494

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention concerns a method for producing a substantially rod-shaped composite body from a core surrounded by at least one polymer through plastification of the polymer and extruding same onto the continuously fed core.
Composite bodies of this type are known e.g. as writing and drawing instruments, such as pencils or colored pencils and as pencils for decorative cosmetics. The core is thereby formed by a coloring agent which is usually surrounded by massive wood. For producing such pencils, shells are formed from wooden blanks, a groove for receiving the coloring agent is milled into each shell and the shells are subsequently glued together and optionally painted. This method is demanding and expensive due to the many method steps and also produces a large amount of high-quality wood waste due to the cutting.
Pencils are also known with which the wood covering is replaced by synthetic polymers, such as artificial resins. They can be produced in an extrusion process, which is considerably easier. However, synthetic polymers are known to be ecologically disadvantageous. Due to the variety of materials used, the waste must be burned and the burning of synthetic polymers produces undesired CO
2
emissions. For the above-mentioned reasons, one would generally like to replace the largest possible amount of synthetic polymers with materials which are less harmful to the environment.
A further problem with the use of synthetic polymers, in particular for pencils and colored pencils, is the softeners with which the polymers must be mixed to be able to process them through extrusion and to improve their material properties. Most examples of the currently used softeners, such as phthalates, phosphates or adipates are harmful to the health or even toxic. In particular, the phthalates (which are most frequently used) are assumed to have an endocrine effect. The health risk, in particular for children who tend to chew on the pencils, is obvious since softeners generally volatilize in air, can easily loosen from the plastic and, in contact with saliva, are absorbed when chewing on such pencils.
For the above-mentioned reasons one is generally motivated to replace as much synthetic polymer as possible with environmentally friendly materials. WO 91/11 335A discloses manufacture of the shaft of a pencil substantially from ground wood pulp or wood dust, i.e., fine particle wood waste or from papermache with the addition of wood glue, bone glue or dispersion adhesive, wherein the material is injection molded or extruded onto the coloring agent. The proposed natural glues must be added in substantial quantities to obtain an injection moldable or extrudable mass and to guarantee attainment of the required properties of the pencil, i.e., good flexural strength and breaking strength. The natural glues used are only somewhat water-resistant. The shaft is therefore covered with plastic, rubber or paper.
GB 420 368 describes a method for the production of pencil shafts for the acceptance of a pencil lead, wherein wood fibers are disposed in a cellulose solution, a portion of the solvent is evaporated to produce a pasty matrix which is then shaped into the pencil shaft. Although the resulting pencil is substantially made from natural materials, the manufacturing procedure is demanding and expensive.
U.S. Pat. No. 5,736,206A discloses a method for the manufacture of plates made from a fiber reinforced starch matrix, wherein a watery mixture of starch, distilled cellulose, and fibers or filling materials are calendered with hot rollers. The plates are subsequently dried and further processed in dependence on the application: for example, cut to size, folded, perforated or the like. The plates principal use is for food and drink containers.
Finally, materials are known based on the natural lignin polymer. WO 98/35 800A1 describes a method for the manufacture of composite particles from lignin and cellulose, wherein lignin which is not dissolvable in water is brought into contact with ligno-cellulose at increased pressure and temperature.
SUMMARY OF THE INVENTION
It is the underlying purpose of the invention to propose a method for the production of a substantially rod-shaped composite body, wherein a polymer is plastified and extruded onto a continuously fed core, the method producing an environmentally friendly product using available raw materials. The invention is also directed to a composite body produced by a method of this type.
The method part of this object is achieved in accordance with the invention in that at least one natural polymer is used and a sliding agent comprising at least one of native oils and/or waxes is added to the plastified polymer before or during extrusion.
Natural polymers gained from grown resources, such as lignin, collagen, keratin, casein or chitin are harmless to the environment. They can easily be biologically disintegrated or composted, generally without residues, and have an ecologically neutral CO
2
balance, since burning of natural polymers emits an amount of CO
2
into the atmosphere which is not larger than the amount used during growth of the resources.
Materials on the basis of natural polymers or natural polymers modified through oxidation, enzyme treatment or the like, such as duroplasts of casein or thermoplastics of cellulose nitrates, acetates, esters and ethers are already known. A disadvantage of many known natural polymers is their material properties which are worse than those of most synthetic polymers, such as high brittleness, porosity or hygroscopic properties, wherein the latter is even increased through addition of softeners. In addition, these polymers often smell. The sliding agents on the basis of native oils or waxes, added in accordance with the invention before or during extrusion, have remedial action. The effect of the sliding agents corresponds to that of known synthetic softeners which only physically interact with the polymer due to their solvent or swelling properties, without chemical reaction therewith and form a homogeneous system together with the polymer. This improves the physical properties of the natural polymer, e.g. reduces the melting temperature, increases shapeability, increases the elastic properties, reduces brittleness and optionally increases adhesion.
In contrast to synthetic softeners on the basis of organic ester, native oils and waxes consist substantially of higher-molecular fatty acids or esters of higher-molecular fatty acids, e.g. glycerides, and are not or are only slightly toxic. Sliding agents obtained from growing resources have an ecologically neutral CO
2
balance. Addition of the inventive sliding agents leads to an extruded substance having a smooth surface. It is possible to considerably reduce the extrusion temperature through adding native oils or waxes which reduce the melting or flow transition region of the polymers such that the polymer undergoes less thermal loading during processing. A natural polymer mixed with native oils represents a high-quality material which is completely made from natural materials and which is environmentally friendly and biologically easily degradable or compostable.
In particular, the addition of native oils has turned out to have the surprising effect of reducing the otherwise unavoidable odor of most natural polymers. If part of the native oils is added as distilled oils, the odor is further reduced or even completely eliminated since the volatile low-molecular components contained in many natural polymers are bound such that a composite body consisting of natural polymers mixed with distilled oils must not be sealed, e.g. with paint. Distilled oils consist substantially of slightly volatile alcohols, aldehydes, ketones, esters, lactones, compounds containing sulfur and nitrogen as well as hydrocarbons.
In a preferred embodiment, lignin-based natural polymers are used. Lignin is a highly-molecular polyphenolic macromolecule which fills the spaces between the cell membranes in lignifying plants and turns them into wood, wherein a mixe

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