RU2083146C1 - Method for manufacture of filament from cellulose acetate (version), cigarette filter (version) - Google Patents

Abstract

Described are methods of manufacturing a cellulose-acetate bundle, the filaments making up the bundle being produced by extruding a solution containing, in addition to cellulose-(2,5)-acetate and solvent, non-toxic compounds which are only slightly soluble in the solution and whose molecular diameter is at least 30 % less than the diameter of the filaments. Water-soluble or bacteriologically degradable organic compounds, in particular starch, starch derivatives or dextrins, are used as the additives.

Description

 The invention relates to the production of cigarette filters from a tow made of cellulose acetate.

 Modern cigarette filters are made almost exclusively from cellulose- (2,5) -acetate. Compared to the previously used paper and cotton filters, this material has the advantage that the bundle used for the manufacture of the filter can be made in a variety of specifications, especially with regard to the fiber cross-section, and can be easily processed into filters, which for their part can be used in high-speed cigarette making machines. Filters obtained from cellulose acetate also look good when smoked. The hardeners triacetin (glycerol triacetate) or triethylene glycol diacetate added to the tow (no longer fibers) in the manufacture of filter columns give the filter high selectivity with respect to some health hazardous tobacco smoke ingredients such as phenols and N-nitrosamines.

 The disadvantage of this material compared with chemically unmodified cellulose is its slow destruction by microorganisms. According to newer research work, pure cellulose- (2,5) -acetate in the form of filter columns, when composted under optimal conditions, is destroyed by microorganisms for approximately 6 to 9 months, and 12-15 months should be taken into account in the aquatic environment of sedimentation tanks. This destruction is hindered by the compactness of the filter, the addition of the aforementioned “hardeners”, and also the tobacco smoke condensate adsorbed by it.

 We can proceed from the fact that the problem of environmental pollution by cigarette filters due to this relative duration of destruction in the case of composting and in settling tanks has not yet been solved.

 If possible, the benefits of conventional cellulose acetate filters are fully retained, they must be modified in such a way that the destruction by microbes is clearly accelerated compared to the time requirement indicated in the latest relevant literature.

 The known method shows the manufacture of cellulose-acetate cable, when the individual fibers are provided with water-soluble salts. The application of salts is carried out after extruding the fibers from the spinning solution, while the finished fibers are placed in an aqueous salt solution, and then dried. Since water-soluble salts cover only the surface of the fibers, they do not affect the destruction of the fibers as a result of moisture.

 The problem is solved in that a method for manufacturing a tow of cellulose acetate for a cigarette filter is proposed, including extruding a dope solution containing cellulose- (2,5) -acetate and a solvent, according to which the dope contains filter-destroying additives that are soluble in water and sparingly soluble in dope or which are bacterially degradable organic compounds.

 The known method could be illustrated by the following comparative example.

 Comparative example. A cellulose acetate dope was prepared with a solids content of 28 wt. cellulose acetate and 0.5 wt. titanium dioxide in acetone. The water content of this dope was set at 3 wt.

 The cellulose acetate used had an acetyl number of 55.4 and a polymerization degree (DP) of 220. This spinning dope was filtered and produced by dry spinning in a traditional spinning unit of filter tows. The formed cellulose acetate filaments were combined into a web.

The specification of the filter tow so made was 3 Y 35 HK. This specification designation means:
Filtered filter 3.3 dtex
Total titer 38,500 dtex
Cross sectional shape of cellulose acetate filaments Y
The breaking strength of the filter tow, correlated with the total titer of this filter tow, was 4.3 • 10 ^-4 daN / dtex.

The filter tow mentioned above has been redesigned into filter rods of the following specification:
Length 126 mm
Diameter 7.85 mm
Tensile Resistance 390 daPa
Cellulose acetate weight 690 mg
In the manufacture of these filter rods, triacetin was applied as a plasticizer for cellulose acetate, namely, that the finished filter rods contained 55 mg of triacetin per filter rod.

 This comparative example, related to the prior art, was modified according to the invention so that rice starch was added to the dope solution. From the fibers thus obtained, the fabric was made in the same way as from the compared fibers, and their aerobic decomposition was investigated. The result is shown in the table.

 In another experiment, instead of rice starch, starch type Solamil from Agran was used. Designated as SOL 10 sieve fraction greater than 10μ, which was used for experiments, had the following distribution of the size of the sieve.

Starch was distributed in a thin layer between two glasses (object carriers). After this, a sample of the object’s carrier was applied to a layer of glue and a web was sprayed on it. 20 pictures were taken of randomly selected areas of the drug. 200 starch grains (two photographs) were measured and distributed by size class,
0 2 μm 18
2 4 μm 51
4 6 μm 25
6 8 μm 5
8 10 μm 1
More than 10 microns 0
When sampling photographs with approximately 100,150 starch grains, only one starch grain was found on each, which was about 5 microns x 11 microns in size.

 As water-soluble materials used according to the invention, di- and trisaccharides, alkali and alkaline-earth metal salts of organic and certain mineral acids (for example, magnesium chloride, magnesium sulfate, sodium chloride, sodium sulfate, etc.) are used.

 Under the influence of moisture, water-soluble material is released from cigarette filters and thus the structure of individual fibers is destroyed. The resulting large surface of the remaining pieces of fiber breakage makes it possible for microbes to more quickly destroy cellulose (2,5) acetate.

 If, on the other hand, starch, chemically or biologically partially destroyed starch, starch derivatives, starch derivatives, such as grain flour, dextrins, are suspended in the spinning solution, then these additives are destroyed by soil microorganisms in sedimentation tanks, etc. Therefore, here the structure of individual fibers of the smoked cigarette filter is also destroyed and the further microbiological destruction of the remaining cellulose- (2,5) -acetate is facilitated and accelerated.

 Experiments on the aerobic decomposition of cellulose acetate stockings with rice starch as an additive or without it.

 In the present experiment, it was investigated whether cellulose acetate fibers containing rice starch inclusions disintegrate due to decomposition using microbes faster than the fibers of the corresponding cellulose acetate control tissue.

 Conducting an experiment.

Samples of a cellulose acetate stocking about 2 cm in size and a stocking of cellulose acetate and starch (starch fraction is approximately 2) were washed in water, dried and weighed. Then the samples were shaken each in 50 ml of water from the pond and together with 1 ml of land filtrate in 100-ml vessels at 30 ^o C for two weeks. Samples were taken at different times, and the decomposition was determined using the determination of weight loss (see table).

 All data are averages, respectively, from double definitions.

 Examination of fibers under a microscope shows that starch grains not only decompose, but also swell strongly, resulting in destruction sites in cellulose-acetate fibers.

 Conclusion: cellulose acetate stockings that contain rice starch as an additive show a clearly higher weight loss in the experiment described above than the cellulose acetate sample.

Claims (6)

 1. A method of manufacturing a tow of cellulose acetate, comprising extruding a dope solution containing cellulose- (2,5) -acetate and a solvent, characterized in that the dope solution includes filter-disrupting additives that are soluble in water and sparingly soluble in the dope solution.  2. The method according to claim 1, characterized in that the amount of additives in the dope is 0.1 to 5.0 wt. in terms of cellulose- (2,5) -acetate.  3. A method of manufacturing a tow of cellulose acetate, comprising extruding a dope solution containing cellulose- (2,5) -acetate and a solvent, characterized in that the dope contains additives that destroy the filter, which are bacterially destructible organic compounds.  4. The method according to claim 3, characterized in that the additives are starch, or its derivatives, or dextrins.  5. Cigarette filter, characterized in that it is made of a bundle made by the method according to claims 1 and 2.  6. Cigarette filter, characterized in that it is made of a bundle made by the method according to claims 3 and 4.

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