WO2023068214A1 - Substance pour article d'inhalation d'arôme, article d'inhalation d'arôme de type chauffant et procédé de production de substance pour article d'inhalation d'arôme - Google Patents
Substance pour article d'inhalation d'arôme, article d'inhalation d'arôme de type chauffant et procédé de production de substance pour article d'inhalation d'arôme Download PDFInfo
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- WO2023068214A1 WO2023068214A1 PCT/JP2022/038512 JP2022038512W WO2023068214A1 WO 2023068214 A1 WO2023068214 A1 WO 2023068214A1 JP 2022038512 W JP2022038512 W JP 2022038512W WO 2023068214 A1 WO2023068214 A1 WO 2023068214A1
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- tobacco
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
- A24B15/00—Chemical features or treatment of tobacco; Tobacco substitutes, e.g. in liquid form
- A24B15/10—Chemical features of tobacco products or tobacco substitutes
- A24B15/16—Chemical features of tobacco products or tobacco substitutes of tobacco substitutes
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
- A24B15/00—Chemical features or treatment of tobacco; Tobacco substitutes, e.g. in liquid form
- A24B15/18—Treatment of tobacco products or tobacco substitutes
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
- A24B3/00—Preparing tobacco in the factory
- A24B3/14—Forming reconstituted tobacco products, e.g. wrapper materials, sheets, imitation leaves, rods, cakes; Forms of such products
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D1/00—Cigars; Cigarettes
- A24D1/20—Cigarettes specially adapted for simulated smoking devices
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/20—Devices using solid inhalable precursors
Definitions
- the present invention relates to a material for flavor inhaling articles, a heating type flavor inhaling article, and a method for producing a material for flavor inhaling articles.
- Flavor inhalation article materials that form heated flavor inhalation articles contain nicotine, and there are also materials to which menthol is added as a fragrance.
- the material for the flavor inhalation article includes a cellulosic base, tobacco extract, and optionally a polyol as an aerosol base.
- the temperature of a device that heats a heating type flavor inhalation article is generally 200° C. or higher, and there are many that enjoy inhaling smoke derived from polyols.
- Patent Literature 1 discloses a heating type flavor inhaling article that heats a flavor inhaling article material based on a specific temperature profile including a temperature range of 200° C. or higher.
- an object of the present invention is to provide a material for a heating type flavor inhaling article that can be used at a low heating temperature.
- a material for flavor inhalation articles comprising a mixture of a cellulosic base material and nicotine.
- the material for flavor inhalation articles is a tobacco sheet for a non-combustion heating type flavor inhaler, The material for flavor inhaling articles according to aspect 1, wherein the thickness direction cross-section of the tobacco sheet has a corrugated shape.
- Aspect 3 A material for flavor inhalation articles according to aspect 2, wherein said tobacco sheet further comprises an aerosol-generating substrate.
- the material for flavor inhaling articles of the present invention can be used at a low heating temperature.
- FIG. 1 is a cross-sectional schematic diagram showing an example of a non-combustion heating smoking system.
- FIG. 2 is a schematic cross-sectional view showing an example of a non-combustion-heating flavor inhalation article.
- FIG. 3 is a graph showing the relationship between the nicotine filling amount and the nicotine release efficiency in the examples.
- FIG. 4 is a graph showing the relationship between the filling amount of menthol and the release efficiency of menthol in Examples.
- FIG. 5 is a cross-sectional view in the thickness direction showing an example of the tobacco sheet according to the first embodiment.
- the flavor inhalation article material comprises a mixture of a cellulosic-based substrate and nicotine.
- the method of mixing the cellulosic base material and nicotine is not particularly limited, but it is preferable to mix by supplying nicotine from the outside of the cellulosic base material.
- nicotine is more likely to be released to the outside of the material for flavor inhalation articles than when nicotine is present inside the cellulosic base material.
- the cellulose-based substrate may have a large number of pores on its surface (has a porous shape), and in this case, the surface of the cellulose-based substrate includes the inner portion of the pores. .
- Cellulose-based substrates are not particularly limited, but include tobacco leaves, aged tobacco leaves, processed tobacco leaves, tobacco fillers, non-tobacco materials, or combinations of two or more of these.
- non-tobacco-derived cellulose materials are preferable from the viewpoint of preventing impurities, but tobacco-derived cellulose is also acceptable as long as it contains few impurities.
- tobacco leaf is a general term for harvested tobacco leaves before ripening, which will be described later.
- One mode of aging includes curing.
- aged tobacco leaves before being processed into various forms used in tobacco products are referred to as “aged tobacco leaves.” ”.
- processed tobacco leaves are referred to as “processed tobacco leaves”.
- tobacco in which matured tobacco leaves are chopped into a predetermined size
- tobacco sheet obtained by molding a composition containing matured tobacco leaves pulverized to a predetermined particle size (hereinafter also referred to as "tobacco fine powder") into a sheet shape
- tobacco fine powder a composition containing matured tobacco leaves pulverized to a predetermined particle size
- Mention may also be made of "tobacco granules” obtained by molding into granular form.
- tobacco powder is also one form of processed tobacco leaves.
- Tobacco filling refers to a material filled with processed tobacco leaves in a predetermined manner.
- "Filled material” is the object into which the processed tobacco leaves are filled and is a part of the tobacco product.
- the stuff to be filled include, but are not limited to, a roll of paper rolled into a cylinder, a container having an air inlet and an air outlet, and the like.
- the processed tobacco leaves are wrapped in wrapping paper so that the processed tobacco leaves are on the inside (hereinafter also referred to as "tobacco rod”).
- a mode in which processed tobacco leaves are filled into a flow path of a container having an air inlet and an air outlet hereinafter also referred to as a "tobacco cartridge"
- Tobacco fillings include tobacco fillings composed of shredded tobacco filled in a material to be filled (hereinafter also referred to as "first tobacco filling"), and tobaccos composed of tobacco sheets filled in a material to be filled. Fillings (hereinafter also referred to as “second tobacco fillings”), tobacco fillings composed of tobacco granules filled in a filling material (hereinafter also referred to as “third tobacco fillings”), etc. be done.
- Non-tobacco materials include plant roots (including scales (bulbs), tuberous roots (potatoes), bulbs, etc.), stems, tubers, skins (including stem bark, bark, etc.), leaves, flowers (petals, pistils, etc.). , stamens, etc.), seeds, or tree trunks and branches.
- the content of the cellulosic base material with respect to the entire material for flavor inhaling articles is not particularly limited, but from the viewpoint of shape stability, it is preferably 0.1 to 80% by weight, more preferably 1 to 75% by weight, and 5 to 50% by weight. Weight percent is most preferred.
- Nicotine is not particularly limited, but can be selected from the group consisting of synthetic nicotine, isolated nicotine, and combinations thereof.
- the content of nicotine in the entire material for flavor inhalation articles is not particularly limited, but from the viewpoint of nicotine concentration in general cigarettes, the lower limit is preferably 2% by weight or more, and the upper limit is 10% by weight. 8% by weight or less, or 7% by weight or less.
- the numerical range of the nicotine content can be applied to the content of nicotine added from the outside, the content of nicotine derived from tobacco, or the sum of these contents.
- the material for flavor inhaling articles can further contain menthol.
- menthol By further including menthol in the material for flavor inhaling articles, a refreshing and cooling sensation can be obtained.
- the content of menthol in the entire flavor inhaling article material is not particularly limited, but from the viewpoint of the concentration in general tobacco products, the lower limit is 6% by weight or more.
- the upper limit may be 25% by weight or less, 23% by weight or less, or 20% by weight or less.
- the material for flavor inhaling articles can further contain myristic acid, palmitic acid, or a mixture thereof as other components.
- the form of the material for flavor inhalation articles is not particularly limited, but it can be granules or sheets (tobacco granules or tobacco sheets), and among these, granules are preferable from the viewpoint of stabilizing the filling weight. Further, since it is preferable to use a raw material derived from tobacco as the cellulosic base material, the material for flavor inhalation articles is more preferably tobacco granules or tobacco sheets, and particularly preferably tobacco granules. These will be described in detail below.
- tobacco granules are obtained by molding a composition containing aged tobacco leaves into granules.
- the method of forming tobacco granules is not particularly limited, but for example, tobacco powder, nicotine, a flavor development aid, a binder, and optionally an aerosol-generating base material and a flavoring agent are mixed, water is added to the mixture, and the mixture is kneaded.
- the obtained kneaded product is granulated (long columnar) with a wet extrusion granulator, and then granulated into a short columnar or spherical shape.
- Tobacco granules contain both nicotine from the tobacco-derived material and added nicotine.
- extrusion granulation it is preferred to extrude the kneaded material at ambient temperature and at a pressure of 2 kN or more. Due to this high-pressure extrusion, the temperature of the kneaded material at the outlet of the extrusion granulator instantaneously rises sharply from the ambient temperature to, for example, 90° C. to 100° C., and 2 to 4% by weight of water and volatile components evaporate. . Therefore, the amount of water to be blended for making the kneaded product can be used in an amount larger than the desired water content in the final tobacco granules by the amount of evaporation described above. Tobacco granules obtained by extrusion granulation may be further dried for moisture adjustment, if necessary.
- the loss on drying of tobacco granules obtained by extrusion granulation is measured, and if it is higher than the desired loss on drying (for example, 5% by weight or more and 17% by weight or less), tobacco is added to obtain the desired loss on drying.
- Granules may be further dried.
- the drying conditions (temperature and time) for obtaining the desired loss on drying should be determined in advance and set based on the drying conditions (temperature and time) required to reduce the loss on drying by a predetermined value. can be done.
- the tobacco sheet is obtained by forming a composition containing aged tobacco leaves and the like into a sheet shape.
- the aged tobacco leaf used for the tobacco sheet is not particularly limited, but examples thereof include those that have been deboned and separated into lamina and backbone.
- sheet refers to a shape having a pair of substantially parallel main surfaces and side surfaces.
- the method of forming the tobacco sheet is not particularly limited.
- the resulting kneaded product can be molded by a known method such as a papermaking method, a casting method, a rolling method, or the like.
- Various tobacco sheets formed by such a method are disclosed in detail in "Encyclopedia of Tobacco, Tobacco Research Center, March 31, 2009".
- the particle size of the granules is not particularly limited, but from the viewpoint of improving the release efficiency of nicotine and/or menthol, which will be described later, it is preferably 250 ⁇ m or more, and 250 to 850 ⁇ m. More preferably, 250-500 ⁇ m is most preferable.
- the average particle size (D50) of the granules is not limited to, but is preferably 250 to 450 ⁇ m, more preferably 250 to 400 ⁇ m, more preferably 250 to 300 ⁇ m, from the viewpoint of improving the release efficiency of nicotine and / or menthol described later. is most preferred.
- the particle size and average particle size (D50) of the granules can be measured based on the laser diffraction method under dry conditions using a scattering particle size distribution analyzer (Partica, manufactured by Yamato Scientific Co., Ltd.). can.
- the surface area of each granule is not particularly limited, but from the viewpoint of improving the nicotine and/or menthol release efficiency described later, it is 0.1-2. 5 mm 2 is preferred, 0.1-1.5 mm 2 is more preferred, and 0.1-0.8 mm 2 is most preferred.
- the surface area of each granule can be calculated based on the following formula (1) assuming that the granule is a sphere.
- the nicotine release efficiency per 10 suctions during heating suction at 55 ° C. of the material for flavor inhalation articles is not particularly limited, but the lower limit is preferably 0.6% or more, and The upper limit can also be 5.0% or less, 2.5% or less, or 2.1% or less.
- the nicotine release efficiency per 10 suctions during heating suction at 70° C. of the material for flavor inhalation articles is not particularly limited, but the lower limit is preferably 1.8% or more, and The upper limit can also be 6.0% or less, 5.5% or less, or 5.0% or less.
- the release efficiency of menthol per 10 times of heat suction at 55 ° C. of the material for flavor inhalation articles is not particularly limited, but the lower limit is preferably 4% or more, and the upper limit is can also be 15.0%, 13.0%, or 10.2%.
- the release efficiency of menthol per 10 times of heat suction at 70 ° C. of the material for flavor inhalation articles is not particularly limited, but the lower limit is preferably 7% or more, and the upper limit is can be 20.0% or less, 18.0% or less, or 16.6% or less.
- the total particulate matter (TPM) of the material for flavor inhalation articles when heated and inhaled at 55° C. is not particularly limited, but from the viewpoint of filling amount, it is 0.5 to 10.5. It can be 0 mg, 0.7-7.0 mg, or 0.8-5.0 mg.
- the total particulate matter (TPM) of the material for flavor inhalation articles when heated and inhaled at 70° C. is not particularly limited, but from the viewpoint of filling amount, 0.8 to 15.0 mg, 1. It can also be 0-10.0 mg, or 1.3-7.8 mg.
- the above 1.
- a tobacco-derived material is used as the cellulosic base material, which is preliminarily molded into tobacco granules or tobacco sheets.
- the finally obtained material for flavor inhalation articles can be in the form of tobacco granules or tobacco sheets.
- Supply of nicotine from the outside of the cellulosic base material is not particularly limited, but can be performed, for example, by spraying under pressure conditions of 0.1 MPa.
- the pressure conditions when nicotine is supplied by spraying are not particularly limited, but are preferably 0.05 to 2.5 MPa, more preferably 0.05 to 2.0 MPa, and most preferably 1.00 to 1.50 MPa.
- the pressure at the time of nicotine supply is within the above numerical range, nicotine can be efficiently adhered to the surface of the cellulosic substrate, and as a result, the above-mentioned nicotine and/or menthol release efficiency is further improved. can be done.
- Flavor Inhalation Articles In some embodiments, the method described in 1. above.
- flavor inhaling article means an inhaling article that allows the user to taste the flavor by inhaling.
- Flavor inhaling articles can be broadly classified into burning type flavor inhaling articles typified by conventional cigarettes and non-burning type flavor inhaling articles.
- Combustion-type flavor-inhaling articles include, for example, cigarettes, pipes, pipes, cigars, and cigarillos.
- the non-combustion heating type flavor inhaling article may be heated by a heating device separate from the article, or may be heated by a heating device integrated with the article.
- the non-combustion heating flavor inhalation article and the heating device are collectively referred to as a "non-combustion heating smoking system".
- An example of a non-combustion heating smoking system will now be described with reference to FIGS. 1 and 2.
- FIG. 1 An example of a non-combustion heating smoking system will now be described with reference to FIGS. 1 and 2.
- FIG. 1 is a cross-sectional schematic diagram showing an example of a non-combustion heating smoking system, showing a state before the heater 12 is inserted into the smoking segment 20A of the non-combustion heating flavor inhalation article 20.
- FIG. 1 is a cross-sectional schematic diagram showing an example of a non-combustion heating smoking system, showing a state before the heater 12 is inserted into the smoking segment 20A of the non-combustion heating flavor inhalation article 20.
- FIG. 2 is a cross-sectional view of a non-combustion heated flavor inhalation article 20. As shown in FIG.
- the non-combustion heating smoking system includes a non-combustion heating flavor inhalation article 20 and a heating device 10 that heats the smoking segment 20A from the inside.
- the non-combustion heating smoking system is not limited to the configuration of FIG.
- a heating device 10 shown in FIG. 1 includes a body 11 and a heater 12 .
- body 11 may include a battery unit and a control unit.
- Heater 12 which can be an electrical resistance heater, is inserted into smokable segment 20A to heat smokable segment 20A.
- the smoking segment 20A is heated from the inside in FIG. 1, the aspect of the non-combustion heating flavor inhalation article 20 is not limited to this, and in another aspect, the smoking segment 20A is heated from the outside.
- the heating temperature of the heating device 10 is not particularly limited, it is preferably 400°C or less, more preferably 50 to 400°C, and even more preferably 150 to 350°C.
- the heating temperature refers to the temperature of the heater 12 of the heating device 10 .
- the non-combustion heating type flavor inhaling article 20 (hereinafter simply referred to as "flavor inhaling article 20") has a cylindrical shape.
- the length of the circumference of the flavor inhaling article 20 is preferably 16 mm to 27 mm, more preferably 20 mm to 26 mm, even more preferably 21 mm to 25 mm.
- the overall length (horizontal length) of the flavor inhaling article 20 is not particularly limited, but is preferably 40 mm to 90 mm, more preferably 50 mm to 75 mm, and even more preferably 50 mm to 60 mm.
- the flavor inhaling article 20 is composed of a smoking segment 20A, a filter portion 20C forming a mouthpiece, and a connecting portion 20B connecting them.
- the smoking segment 20A has a cylindrical shape, and its total length (length in the axial direction) is, for example, preferably 5 to 100 mm, more preferably 10 to 50 mm, even 10 to 25 mm. More preferred.
- the cross-sectional shape of the smoking segment 20A is not particularly limited, but may be circular, elliptical, polygonal, or the like, for example.
- the smoking segment 20A has a smoking composition sheet or material 21 derived therefrom and a wrapper 22 wrapped around it.
- the filter part 20C has a cylindrical shape.
- the filter part 20C has a rod-shaped first segment 25 filled with cellulose acetate fibers and a rod-shaped second segment 26 similarly filled with cellulose acetate fibers.
- the first segment 25 is positioned on the smoking segment 20A side.
- the first segment 25 may have a hollow portion.
- the second segment 26 is located on the mouthpiece side.
- the second segment 26 is solid.
- the first segment 25 is composed of a first filling layer (cellulose acetate fiber) 25a and an inner plug wrapper 25b wound around the first filling layer 25a.
- the second segment 26 is composed of a second packing layer (cellulose acetate fiber) 26a and an inner plug wrapper 26b wrapped around the second packing layer 26a.
- the first segment 25 and second segment 26 are connected by an outer plug wrapper 27 .
- the outer plug wrapper 27 is adhered to the first segment 25 and the second segment 26 with a vinyl acetate emulsion adhesive or the like.
- the length of the filter portion 20C is 10 to 30 mm
- the length of the connecting portion 20B is 10 to 30 mm
- the length of the first segment 25 is 5 to 15 mm
- the length of the second segment 26 is 5 to 15 mm. can do.
- the length of each of these segments is an example, and can be changed as appropriate according to manufacturability, required quality, length of smoking segment 20A, and the like.
- the first segment 25 (center hole segment) is composed of a first filling layer 25a having one or more hollow portions and an inner plug wrapper 25b covering the first filling layer 25a.
- the first segment 25 has the function of increasing the strength of the second segment 26 .
- the first filling layer 25a of the first segment 25 is filled with, for example, cellulose acetate fibers at a high density.
- a plasticizer containing triacetin is added to the cellulose acetate fibers in an amount of, for example, 6 to 20% by weight based on the weight of the cellulose acetate, and hardened.
- the hollow portion of the first segment 25 has an inner diameter of ⁇ 1.0 to ⁇ 5.0 mm, for example.
- the first packing layer 25a of the first segment 25 may, for example, be configured with a relatively high fiber packing density, or have a fiber packing density equivalent to that of the second packing layer 26a of the second segment 26, which will be described later. good too. Therefore, air and aerosol flow only through the hollow portion during suction, and hardly any air or aerosol flows through the first filling layer 25a.
- the length of the second segment 26 can be shortened and the first segment 25 can be lengthened accordingly.
- Replacing the shortened second segment 26 with the first segment 25 is effective for increasing the delivery amount of the aerosol component. Since the first filling layer 25a of the first segment 25 is a fiber filling layer, the feeling of touch from the outside during use does not make the user feel uncomfortable.
- the second segment 26 is composed of a second filling layer 26a and an inner plug wrapper 26b covering the second filling layer 26a.
- the second segment 26 (filter segment) is packed with cellulose acetate fibers at a typical density and has typical aerosol component filtering performance.
- the first segment 25 and the second segment 26 may have different filtration performances for filtering the aerosol (mainstream smoke) released from the smoking segment 20A. At least one of the first segment 25 and the second segment 26 may contain perfume.
- the structure of the filter part 20C is arbitrary, and may be a structure having a plurality of segments as described above, or may be composed of a single segment. Alternatively, the filter section 20C may be composed of one segment. In this case, the filter section 20C may be composed of either the first segment or the second segment.
- the connecting part 20B has a cylindrical shape.
- the connecting portion 20B has a cylindrical paper tube 23 made of, for example, thick paper.
- the connecting portion 20B may be filled with a cooling member for cooling the aerosol.
- the cooling member include a sheet of a polymer such as polylactic acid, and the sheet can be folded and filled.
- a support portion may be provided between the smoking segment 20A and the connecting portion 20B to prevent the position of the smoking segment 20A from fluctuating.
- the support can be constructed of known materials such as center hole filters such as the first segment 25 .
- the wrapper 28 is cylindrically wound around the smoking segment 20A, the connecting portion 20B, and the filter portion 20C to integrally connect them.
- One surface (inner surface) of the wrapper 28 is coated with a vinyl acetate emulsion-based adhesive over the entire surface or substantially the entire surface except for the vicinity of the air hole portion 24 .
- the air hole portion 24 has two or more through holes so as to pass through the connecting portion 20B in the thickness direction.
- the two or more through-holes are formed so as to be radially arranged when viewed from the extension of the central axis of the flavor inhaling article 20 .
- the ventilation hole portion 24 is provided in the connecting portion 20B, but may be provided in the filter portion 20C.
- the two or more through holes of the ventilation hole portion 24 are arranged in a row on one circular ring at regular intervals. Alternatively, one or two rows of vent holes 24 may be arranged discontinuously or irregularly. When the user holds the mouthpiece and inhales, outside air is taken into the mainstream smoke through the ventilation hole portion 24 . However, the ventilation hole portion 24 may not be provided.
- the heating type flavor inhaling article is the above 1.
- a pouch containing the material for the flavor inhaling article described in section 1 above can be included.
- the pouch is not limited, and any known pouch can be used as long as it can pack the filling, does not dissolve in water, and can permeate liquids (water, saliva, etc.) and water-soluble components in the filling.
- non-woven pouches can be used.
- Materials for the pouch include, for example, cellulose-based nonwoven fabrics, and commercially available nonwoven fabrics may be used.
- a pouch product can be produced by forming a sheet made of such a material into a bag shape, filling the bag with a filler, and sealing the bag by means of heat sealing or the like.
- the basis weight of the sheet is not particularly limited, and is usually 12 gsm or more and 54 gsm or less, preferably 24 gsm or more and 30 gsm or less.
- the thickness of the sheet is not particularly limited, and is usually 100 ⁇ m or more and 300 ⁇ m or less, preferably 175 ⁇ m or more and 215 ⁇ m or less.
- At least one of the inner and outer surfaces of the pouch may be partially coated with a water-repellent material.
- a water-repellent fluorine-based resin is suitable as the water-repellent material.
- this type of water-repellent fluorine-based resin includes Asahi Guard (registered trademark) manufactured by Asahi Glass Co., Ltd.
- Water-repellent fluorine-based resins are applied to packaging materials for foods and products containing oils and fats, such as confectionery, dairy products, side dishes, fast food, and pet food. Therefore, this type of water-repellent fluororesin is safe even when applied to pouches placed in the oral cavity.
- the water-repellent material is not limited to the fluorine-based resin, and may be, for example, a material having a water-repellent action such as a paraffin resin, a silicon-based resin, or an epoxy-based resin.
- the non-combustion heating type flavor inhaler can include a tobacco-containing segment filled with tobacco sheets or the like, a cooling segment, and a filter segment.
- Flavor inhaler is synonymous with flavor inhaling article and both are used interchangeably.
- the axial length of the tobacco-containing segment of the non-combustion-heating flavor inhaler is generally shorter than the axial length of the tobacco-containing segment of the normal combustion-type flavor inhaler in relation to the heater. Therefore, in the non-combustion heating type flavor inhaler, a large amount of tobacco sheets are filled in the short tobacco-containing segments in order to secure the amount of aerosol generated during heating.
- non-combustion heating type flavor inhalers In order to fill a large amount of tobacco sheets in a short section, non-combustion heating type flavor inhalers usually use tobacco sheets with low swelling, that is, high density tobacco sheets.
- the swelling property is a value indicating the volume of a tobacco sheet having a predetermined weight when notches are compressed under a constant pressure for a certain period of time.
- the inventors of the present invention believe that if a tobacco sheet with low swelling (high density) is used, the total heat capacity of the tobacco-containing segment increases. It was found that the tobacco sheet filled in the tobacco-containing segment did not contribute sufficiently to aerosol generation, depending on the method and heater capacity. In order to solve this problem, it is conceivable to reduce the total heat capacity of the tobacco-containing segment.
- the present inventors (1) reduce the specific heat of the tobacco raw material contained in the tobacco sheet, and (2) use a highly bulky (low-density) tobacco sheet. I considered using it.
- the specific heat of the tobacco raw material it is difficult to reduce the specific heat of the tobacco raw material itself, so it was considered effective to reduce the total heat capacity of the tobacco-containing segment by (2). Therefore, as a preferred first aspect, the aspect in which the material for the flavor inhaling article is a highly bulky (low density) tobacco sheet suitable for use in a non-combustion heating type flavor inhaler will be described below.
- tobacco sheet for non-combustion heating type flavor inhaler The tobacco sheet for a non-combustion heating type flavor inhaler (hereinafter also referred to as "tobacco sheet") according to this aspect has a wavy cross-section in the thickness direction of the sheet. Since the tobacco sheet according to this aspect has a corrugated cross-sectional shape in the thickness direction, it is bulky and has a high swelling property. Therefore, by using the tobacco sheet according to this aspect, the total heat capacity of the tobacco-containing segment can be reduced, and the tobacco sheet filled in the tobacco-containing segment can sufficiently contribute to aerosol generation.
- the tobacco sheet according to this aspect preferably further contains an aerosol-generating base material and one or more molding agents. improve more.
- the tobacco sheet according to this aspect has a wavy cross-section in the thickness direction. That is, when the tobacco sheet according to this aspect is cut in the thickness direction in one plane direction, the cross-section has a corrugated shape.
- the plane direction may be, for example, the longitudinal direction or the lateral direction of the tobacco sheet.
- the “wavy shape” is not particularly limited as long as it has a shape that undulates vertically, and the crests of the waves may have a straight shape or a curved shape. Also, the waves may be regular or irregular.
- Fig. 5 shows an example of the cross-sectional shape in the thickness direction of the tobacco sheet according to this aspect.
- the tobacco sheet 1 shown in FIG. 5 has waves 2 in a cross-section in the thickness direction.
- the width w1 of the wave 2 is not particularly limited, it is preferably within the range of 0.1 to 10.0 mm.
- the height w2 of the wave 2 is not particularly limited, but is preferably within the range of 0.1 to 5.0 mm.
- the thickness w3 of the tobacco sheet 1 is preferably within the range of 100-1000 ⁇ m.
- the wave 2 may have a sawtooth shape 3, as shown in FIG.
- the size of the tobacco sheet according to this aspect in the planar direction is not particularly limited, but may be, for example, length: 5.0 to 40.0 mm and width: 0.5 to 2.0 mm.
- the tobacco raw material contained in the tobacco sheet according to this aspect is one of the aforementioned cellulosic base materials and is derived from tobacco.
- Tobacco raw materials include, for example, tobacco powder.
- Tobacco powder includes, for example, leaf tobacco, core bones, residual stems, and the like. These may be used alone or in combination of two or more. By chopping these into a predetermined size, they can be used as tobacco powder.
- the size of the tobacco powder it is preferable that the cumulative 90% particle size (D90) in the volume-based particle size distribution measured by the dry laser diffraction method is 200 ⁇ m or more from the viewpoint of further improving the swelling property.
- the tobacco powder content in 100% by weight of the tobacco sheet is preferably 45 to 95% by weight, more preferably 50 to 93% by weight, and more preferably 60 to 85% by weight. % is more preferred.
- a nicotine-containing tobacco extract may be used as nicotine.
- the tobacco extract for example, leaf tobacco is crushed, mixed and stirred with a solvent such as water to extract a water-soluble component from the leaf tobacco, and the resulting water extract is dried under reduced pressure and concentrated. Tobacco extract obtained in.
- the tobacco sheet according to this aspect preferably further contains an aerosol-generating substrate.
- Aerosol-forming substrates include, for example, glycerin, propylene glycol, 1,3-butanediol, and the like. These may be used alone or in combination of two or more.
- the ratio of the aerosol-generating base material contained in 100% by weight of the tobacco sheet is preferably 4 to 50% by weight.
- the proportion of the aerosol-generating base material is 4% by weight or more, sufficient aerosol can be generated upon heating from the viewpoint of quantity.
- the proportion of the aerosol-generating base material is 50% by weight or less, sufficient aerosol can be generated during heating from the viewpoint of heat capacity.
- the proportion of the aerosol-generating substrate is more preferably 6-40% by weight, even more preferably 8-30% by weight, and particularly preferably 10-20% by weight.
- the tobacco sheet according to this aspect preferably further contains a molding agent.
- Molding agents are one type of the aforementioned binders.
- the tobacco sheet according to this aspect can sufficiently achieve both the retention performance of the aerosol-generating substrate and the retention performance of the corrugated shape of the tobacco sheet.
- the first molding agent and the second molding agent may be of different types, or the types of molding agents may be the same but the forms may be different.
- the first molding agent include polysaccharides, proteins, synthetic polymers and the like. Examples of polysaccharides include cellulose derivatives and naturally occurring polysaccharides.
- Cellulose derivatives include, for example, cellulose ethers such as methylcellulose, ethylcellulose, hydroxyethylcellulose, hydroxymethylethylcellulose, hydroxypropylcellulose, hydroxypropylmethylcellulose, benzylcellulose, tritylcellulose, cyanoethylcellulose, carboxymethylcellulose, carboxyethylcellulose, aminoethylcellulose; Organic acid esters such as cellulose, cellulose formate, cellulose propionate, cellulose butyrate, cellulose benzoate, cellulose phthalate, and tosyl cellulose; and inorganic acid esters such as cellulose nitrate, cellulose sulfate, cellulose phosphate, and cellulose xanthate. be done.
- cellulose ethers such as methylcellulose, ethylcellulose, hydroxyethylcellulose, hydroxymethylethylcellulose, hydroxypropylcellulose, hydroxypropylmethylcellulose, benzylcellulose, tritylcellulose
- Naturally-derived polysaccharides include guar gum, tara gum, roasted bean gum, tamarind seed gum, pectin, arabic gum, tragacanth gum, karaya gum, gutti gum, arabinogalactan, amaseed gum, cascha gum, psyllium seed gum, and mugwort seed gum.
- plant-derived polysaccharides agar, alginic acid, propylene glycol alginate, furcelleran, algae-derived polysaccharides such as fukuronori extract; xanthan gum, gellan gum, curdlan, pullulan, Agrobacterium succinoglycan, welan gum, macro Microorganism-derived polysaccharides such as homopsis gum and rhamzan gum; crustacean-derived polysaccharides such as chitin, chitosan, and glucosamine; and starches such as starch, sodium starch glycolate, pregelatinized starch, and dextrin.
- proteins examples include grain proteins such as wheat gluten and rye gluten.
- Synthetic polymers include, for example, polyphosphoric acid, sodium polyacrylate, polyvinylpyrrolidone, and the like.
- the second molding agent although different from the first molding agent, the same polysaccharides, proteins, synthetic polymers, etc. as those of the first molding agent can be used.
- the ratio of the first molding agent contained in 100% by weight of the tobacco sheet is preferably 0.1 to 15% by weight.
- the ratio of the first molding agent is 0.1% by weight or more, the raw material mixture can be easily molded into a sheet. Further, since the ratio of the first molding agent is 15% by weight or less, it is possible to sufficiently use other raw materials for securing the functions required for the tobacco-containing segment of the non-combustion heating type flavor inhaler.
- the ratio of the first molding agent is more preferably 0.1 to 12% by weight, more preferably 0.1 to 10% by weight, particularly 0.1 to 7% by weight. preferable.
- the ratio of the second molding agent contained in 100% by weight of the tobacco sheet is preferably 0.1 to 15% by weight.
- the ratio of the second molding agent is 0.1% by weight or more, the raw material mixture can be easily molded into a sheet. Further, since the ratio of the second molding agent is 15% by weight or less, it is possible to sufficiently use other raw materials for securing the functions required for the tobacco-containing segment of the non-combustion heating type flavor inhaler.
- the proportion of the second molding agent is more preferably 0.1 to 12% by weight, more preferably 0.1 to 10% by weight, particularly 0.1 to 7% by weight. preferable.
- the first molding agent and the second molding agent are the same type of molding agent but different in form
- the first molding agent may be powder and the second molding agent may be solution or slurry.
- a molding agent is directly mixed as a powder as a first molding agent, and a molding agent is dispersed or swollen in a solvent such as water and mixed as a second molding agent. can be done.
- a solvent such as water
- the tobacco sheet according to this aspect may further contain a reinforcing agent from the viewpoint of further improving physical properties.
- a reinforcing agent include fibrous substances such as fibrous pulp and fibrous synthetic cellulose, and liquid substances such as pectin suspension having a surface coating function that forms a film when dried. These may be used alone or in combination of two or more.
- the proportion of the reinforcing agent contained in 100% by weight of the tobacco sheet is preferably 4 to 40% by weight. Within this range, other raw materials can be sufficiently used to secure the functions required for the tobacco-containing segment of the non-combustion-heating flavor inhaler.
- the ratio of the reinforcing agent is more preferably 4.5 to 35% by weight, more preferably 5 to 30% by weight.
- the tobacco sheet according to this aspect may further contain a humectant from the viewpoint of maintaining quality.
- moisturizing agents include sugar alcohols such as sorbitol, erythritol, xylitol, maltitol, lactitol, mannitol, and reduced maltose starch syrup. These may be used alone or in combination of two or more.
- the ratio of the humectant contained in 100% by weight of the tobacco sheet is preferably 1 to 15% by weight. Within this range, other raw materials can be sufficiently used to secure the functions required for the tobacco-containing segment of the non-combustion-heating flavor inhaler.
- the ratio of the moisturizing agent is more preferably 2 to 12% by weight, more preferably 3 to 10% by weight.
- the tobacco sheet according to this aspect may contain, in addition to the tobacco raw material, the aerosol-generating base material, the molding agent (the first and second molding agents), the reinforcing agent, and the moisturizing agent, if necessary, a flavoring agent and a presenting agent.
- Flavoring agents such as seasonings, coloring agents, humectants, preservatives, diluents such as inorganic substances, and the like can be included.
- the swelling property of the tobacco sheet according to this aspect is preferably 190 cc/100 g or more.
- the swelling property is 190 cc/100 g or more, the total heat capacity of the tobacco-containing segment of the non-combustion heating type flavor inhaler can be sufficiently reduced, and the tobacco sheet filled in the tobacco-containing segment is generated by aerosol generation. be able to contribute.
- the swelling property is more preferably 210 cc/100 g or more, more preferably 230 cc/100 g or more.
- the upper limit of the swelling range is not particularly limited, it can be, for example, 800 cc/100 g or less.
- the swelling property was evaluated by cutting a tobacco sheet into a size of 0.8 mm ⁇ 20 mm, leaving it in a conditioned room at 22° C. and 60% for 48 hours, and applying it to DD-60A (trade name, manufactured by Borgwald). It is a value measured by The measurement is carried out by placing 15 g of cut tobacco sheets in a cylindrical container with an inner diameter of 60 mm and compressing the container with a load of 3 kg for 30 seconds to obtain the volume.
- the tobacco sheet according to this aspect can be produced by, for example, preparing a mixture comprising a tobacco raw material as a cellulosic base material, an aerosol-generating base material, a first molding agent, and a second molding agent, and rolling the mixture.
- the method can include a step of forming a roll-formed product, and a step of cutting the roll-formed product into strips by pressing a rotary roll blade against the roll-formed product and imparting a corrugated shape. Note that the process of imparting a wave shape is also called a rippling process.
- the tobacco sheet according to this aspect can be produced by the following method.
- a sheet cut into strips by a rotary roll blade is given a wavy shape and sawtooth shape as shown in FIG.
- the rolled product is not cut by a rotary roll blade, for example, by peeling off the rolled product on the rolling roller with a doctor knife, resistance is applied when peeled from the roll, and the wavy shape is also applied. and a sawtooth shape.
- the surface of the pressure roller may be heated or cooled, and the number of revolutions of the pressure roller may be adjusted depending on the purpose. Furthermore, by adjusting the spacing between the rolling rollers, it is possible to obtain a tobacco sheet with a desired basis weight.
- step (1) and (2), between (2) and (3), or after (3) the nicotine is externally supplied to the cellulosic substrate to at least partially
- a step of applying to the surface of the cellulosic base material may be provided.
- the resulting kneaded product is put into a wet extrusion granulator (TDG-80A-1, manufactured by Dalton Co., Ltd.) and granulated into long columns under the conditions of pressure: 250 kN and temperature: 80 ° C., and then spherically. After sizing, tobacco granules (spherical) (particle size: 250-500 ⁇ m, average particle size (D50): 352 ⁇ m) were obtained.
- TDG-80A-1 wet extrusion granulator
- Tobacco granules (spherical) (particle size: 500 to 850 ⁇ m, average particle size (D50): 643 ⁇ m) were prepared in the same manner as described above, except that the granulation conditions of the wet extrusion granulator were changed to pressure: 200 kN and temperature: 75°C. ).
- the particle size of the above granules was dried at 100° C. for 2 hours, and then measured by laser diffraction under dry conditions using a scattering particle size distribution analyzer (Partica, manufactured by Yamato Scientific Co., Ltd.). .
- each tobacco granule obtained as described above was sprayed with nicotine (( -)-nicotine, manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.): a solution of 1 g dissolved in 10 g of water, and menthol (l-menthol, manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.): 10 g of propylene glycol (PG) and 10 g
- nicotine (( -)-nicotine, manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.): a solution of 1 g dissolved in 10 g of water
- menthol l-menthol, manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.
- PG propylene glycol
- tobacco granules A particle size 250-500 ⁇ m, average particle size (D50) 352 ⁇ m)
- tobacco granules B 2.125 mg nicotine and 6.584 mg menthol per 100 mg of tobacco attached to its surface Granules (with respect to the total tobacco granules, the nicotine content and menthol content are 2.125% by weight and 6.584% by weight, respectively, particle size 500 to 850 ⁇ m, average particle size (D50) 643 ⁇ m) (hereinafter “tobacco granules B ) was obtained.
- the surface area per tobacco granules A and B is calculated to be 0.196 to 0.785 mm 2 (average value 0.442 mm 2 ) and 0.785 to 2.270 mm 2 (average value 1.431 mm 2 ).
- a cylindrical body containing tobacco granules was externally heated by a heater (set temperature: 55° C. or 70° C.) to generate steam and aerosol, and the generated steam and aerosol were inhaled with a smoking device.
- a heater set temperature: 55° C. or 70° C.
- 1 puff was 55 ml/2 seconds (1 puff is an interval of 30 seconds, i.e., suction for 2 seconds and waiting for 28 seconds), and a total of 10 puffs were performed.
- the amount of nicotine and menthol collected by the glass fiber filter was quantified to obtain the amount of nicotine or menthol collected (inhaled amount) per 10 puffs.
- the quantification was carried out by extracting the collected components with 10 ml of isopropanol (IPA) as an extraction solvent with shaking at 200 rpm for 20 minutes, and subjecting the resulting extract to GC analysis under the following conditions.
- IPA isopropanol
- the weight of the glass fiber filter before smoking is subtracted from the weight of the glass fiber filter after smoking to calculate the difference in weight of the glass fiber filter before and after smoking, and the weight difference is transferred to the vapor and aerosol inhaled by the smoking device. It is the amount of total particulate matter (TPM) contained.
- TPM total particulate matter
- the ratio of the amount captured per 10 puffs to the filling amount of nicotine or menthol was calculated. The results obtained are shown in Table 1 and FIGS.
- the materials for flavor inhaling articles of Examples 1 to 12 are materials for flavor inhaling articles obtained by mixing a cellulosic base material and nicotine. From the results in Table 1 and FIGS. 3 and 4, the materials for flavor inhalation articles of Examples 1 to 12 were heated to 70° C., which is lower than the conventional heating temperature of 200° C. or higher. The nicotine release efficiency was 1.8% or higher, indicating that nicotine is easily released. In addition, the materials for flavor inhalation articles of Examples 1 to 12 have a menthol release efficiency of 7% or more per 10 inhalations even when the heating temperature is as low as 70°C, indicating that menthol is easily released. have understood.
- the materials for flavor inhalation articles of Examples 1 to 12 had a nicotine release efficiency of 0.6% or more per 10 inhalations even when the heating temperature was further lowered from 70°C to an extremely low temperature of 55°C. , and it was found that nicotine is still easily released.
- the materials for flavor inhalation articles of Examples 1 to 12 had a menthol release efficiency of 4% or more per 10 inhalations, even when the heating temperature was set to an extremely low temperature of 55°C, and menthol is still easily released. I understand.
- the materials for flavor inhalation articles of Examples 1 to 12 were formed by supplying nicotine and menthol from the outside of tobacco granules, nicotine and menthol were formed on the surface of the material for flavor inhalation articles and on the surface. It is believed that they adhere to the inside of the pores. Nicotine and menthol adhering to the surface of the material for flavor inhalation articles and the inside of the pores are closer to the external surface than nicotine, etc. existing inside due to the original ingredients of the material for flavor inhalation articles. It is thought that it is more easily released because it exists in Therefore, even when the heating temperature is low, nicotine and menthol are sufficiently released to the outside, and the release efficiency is considered to be high.
- tobacco granules A which have a smaller particle size, have a higher nicotine release efficiency per 10 inhalations than tobacco granules B, which have a larger particle size. It was found that there is a tendency In this regard, it is considered that the total surface area of all the tobacco granules increases as the particle size of the tobacco granules decreases when the tobacco granules have the same filling amount. Such an increase in surface area is thought to increase the amount of nicotine present on the surface of the tobacco granules to be released, thereby increasing the nicotine release efficiency. Furthermore, it was found that the lower the nicotine loading, the higher the nicotine release efficiency per 10 puffs.
- the particle size of the tobacco granules when the particle size of the tobacco granules is the same, the lower the nicotine filling amount, the thinner the nicotine layer adhering to the surface of the tobacco granules. It is believed that if the nicotine layer is thick, the nicotine below the layer is less likely to be released. On the other hand, if the nicotine layer is thin, the nicotine is more likely to be released from the entire layer, which is thought to increase the nicotine release efficiency. These trends seen for nicotine were similarly seen for menthol release efficiency. It is believed that these trends in release efficiency of menthol are caused by the same cause as menthol.
- the material for flavor inhaling articles of the present application can be used at a low heating temperature.
- Tobacco lamina (leaf tobacco) was dry pulverized with a Hosokawa Micron ACM machine to obtain tobacco powder.
- the cumulative 90% particle diameter (D90) in the volume-based particle size distribution measured by the dry laser diffraction method is measured using a Mastersizer (trade name, manufactured by Spectris Co., Ltd., Malvern Panalytical Division). As a result, it was 200 ⁇ m.
- a tobacco sheet was manufactured using the tobacco powder as a tobacco raw material. Specifically, 70 parts by weight of the tobacco raw material, 12 parts by weight of glycerin as an aerosol-generating base material, 4 parts by weight of powdered carboxymethyl cellulose as a first molding agent, and water as a second molding agent. 1 part by weight of carboxymethyl cellulose swollen with , 5 parts by weight of fibrous pulp as a reinforcing agent, and 8 parts by weight of cocoa powder as a perfume were mixed and kneaded in an extruder. The kneaded product was formed into a sheet by two pairs of metal rolls to obtain a rolled product.
- a rotary roll blade for noodle making was pressed against the rolled product, and the product was cut into strips and given a corrugated shape. Further, it was cut into 20 mm lengths and dried to obtain tobacco sheets with a length of 20 mm and a width of 0.8 mm.
- the thickness direction cross-section of the tobacco sheet had a cross-sectional shape as shown in FIG.
- the swelling property of the obtained tobacco sheet was measured. Specifically, after leaving the tobacco sheet in a conditioned room at 22° C. and 60% for 48 hours, the swelling property was measured with DD-60A (trade name, manufactured by Borgwald). The measurement was carried out by placing 15 g of tobacco sheet in a cylindrical container with an inner diameter of 60 mm and compressing the container with a load of 3 kg for 30 seconds to obtain the volume. Table 1 shows the results. The swelling property of the ice 2 is shown as an increase rate (%) of the swelling property with respect to the standard value of the swelling property value of Reference Comparative Example 1, which will be described later.
- Reference Comparative Example 1 A roll-formed product was produced in the same manner as in Reference Example 1. After that, it was cut into strips with a plurality of ring-shaped rotary blades. Further, the tobacco sheet was cut to a length of 20 mm to obtain a tobacco sheet having a length of 20 mm and a width of 0.8 mm. The swelling property of the obtained tobacco sheet was measured in the same manner as in Reference Example 1. Table 2 shows the results.
- the tobacco sheet of Reference Example 1 which is the tobacco sheet according to the present embodiment, has improved swelling properties compared to the tobacco sheet of Reference Comparative Example 1, which is not provided with a corrugated shape.
- a material for flavor inhalation articles which is obtained by mixing a cellulosic base material and nicotine.
- [5] The material for flavor inhaling articles according to any one of [1] to [4], further comprising menthol.
- [6] The material for flavor inhaling articles according to [5], wherein the content of the menthol relative to the entire material for flavor inhaling articles is 6% by weight or more.
- [12] The material for flavor inhalation articles according to any one of [1] to [11], which has a nicotine release efficiency of 1.8% or more per 10 inhalations with heating at 70°C.
- a heated flavor inhalation article comprising the material for flavor inhalation articles according to any one of [1] to [13].
- the heated flavor inhalation article according to [14] further comprising a pouch containing the material for the flavor inhalation article.
- the heated flavor inhalation article according to [15] wherein the pouch is a non-woven fabric pouch.
- [17] A method for producing the material for flavor inhaling articles according to any one of [1] to [13], providing the cellulosic substrate and the nicotine; and supplying the nicotine from outside the cellulosic substrate and applying at least a portion of the nicotine to the surface of the cellulosic substrate.
- a method for producing a material for flavor inhalation articles is any one of [1] to [13], providing the cellulosic substrate and the nicotine; and supplying the nicotine from outside the cellulosic substrate and applying at least a portion of the nicotine to the surface of the cellulosic substrate.
- the aerosol-generating substrate is at least one selected from the group consisting of glycerin, propylene glycol and 1,3-butanediol.
- the second molding agent is at least one selected from the group consisting of polysaccharides, proteins and synthetic polymers, which is different from the first molding agent.
- non-combustion heated flavor inhaler tobacco sheet (8)
- Dexterous cigarette sheet (9) The non-combustion heating type flavor inhalation according to any one of (5) to (8), wherein the ratio of the second molding agent contained in 100% by weight of the tobacco sheet is 0.1 to 15% by weight. Dexterous cigarette sheet.
- a non-combustion heating flavor inhaler comprising a tobacco-containing segment including the tobacco sheet for a non-combustion heating flavor inhaler according to any one of (1) to (9).
- a method for producing a tobacco sheet for a non-combustion heating type flavor inhaler according to any one of (1) to (9), preparing a mixture comprising a tobacco material, an aerosol-generating substrate, a first shaping agent, and a second shaping agent; rolling the mixture to form a rolled article; A step of pressing a rotary roll blade against the rolled product to cut it into strips while imparting a corrugated shape; method including.
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Abstract
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WO2018019855A1 (fr) | 2016-07-26 | 2018-02-01 | British American Tobacco (Investments) Limited | Procédé de génération d'aérosol |
JP2018516075A (ja) * | 2015-05-29 | 2018-06-21 | フィリップ・モーリス・プロダクツ・ソシエテ・アノニム | たばこカットフィラーを作製する方法 |
JP2020114206A (ja) * | 2018-12-20 | 2020-07-30 | フィリップ・モーリス・プロダクツ・ソシエテ・アノニム | 軽い中空セグメントを備えたエアロゾル発生物品 |
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JP2018516075A (ja) * | 2015-05-29 | 2018-06-21 | フィリップ・モーリス・プロダクツ・ソシエテ・アノニム | たばこカットフィラーを作製する方法 |
WO2018019855A1 (fr) | 2016-07-26 | 2018-02-01 | British American Tobacco (Investments) Limited | Procédé de génération d'aérosol |
JP2020114206A (ja) * | 2018-12-20 | 2020-07-30 | フィリップ・モーリス・プロダクツ・ソシエテ・アノニム | 軽い中空セグメントを備えたエアロゾル発生物品 |
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