A method for increasing bulkiness of reconstituted tobacco by adding tobacco stem particles includes (1) pulverizing a first portion of tobacco stems to obtain tobacco stem particles; (2) classifying the tobacco stem particles with mesh sieves and selecting the tobacco stem particles with a predetermined mesh size; (3) extracting a second portion of the tobacco stems with water and grinding to form a tobacco stem slurry that has a beating degree of 12-14° SR, and mixing the tobacco stem slurry with tobacco leaves in a weight ratio of 6:4 and grinding to obtaining a tobacco slurry that has a beating degree of 18-20° SR; (4) cutting plant fiber pulp boards and dispersing in water to form a plant fiber pulp; (5) preparing a filler solution that contains 10 wt % of a mineral filler; (6) mixing, rolling and drying to obtain the reconstituted tobacco.

The invention relates to a population of particles for use in a non-combustible aerosol provision system, wherein each particle comprises (i) a binder, (ii) an absorbent, wherein the absorbent comprises silica or a silicate, and (iii) an aerosol-generating material, wherein the population of particles has a bulk density of between about 0.5 and about 1.1 g.Math.cm.sup.−3 or wherein the median particle size, D50, is between about 1 mm and about 2 mm. The invention also relates to a cartridge for use in a non-combustible aerosol provision system, to a non-combustible aerosol provision system and to a method of manufacturing the particles.

Herbage such as trimmed Cannabis flowers have a reflective coating that sparkles and improves shelf life. The invention includes a first coating of a first Cannabis plant extract including at least 60%-98% Tetrahydrocannabinol (THC) that forms a hardened layer on the dried herbage to mechanically preserve the shape of the herbage and enables handling and grinding of the herbage. A second coating of a second Cannabis plant extract, including at least 90-99% Tetrahydrocannabinolic acid (THCa) forms crystals, or “diamonds”, that are embedded in the first coating to improve aesthetics by reflecting light. The crystals improve shelf life by reducing absorption of light by the herbage. The weight sum of the combined coatings are in a particular ratio to the herbage. This ratio is between 1:4 and 2:1 on a weight to weight basis to cause the herbage to sparkle, to improve shelf life, and to enable grinding without sticking.

There is provided a heated aerosol-generating article for producing an inhalable aerosol, the heated aerosol-generating article including: an aerosol-forming substrate that is a homogenized tobacco material including tobacco, a fat having a melting point between 20° C. and 50° C., and one or more aerosol-formers, the homogenized tobacco material containing at least 60% tobacco on a dry weight basis. A homogenized tobacco material is also provided.

A composition adapted for oral use is providing, composition adapted for oral use, including one or more fillers present in a total filler content of about 20% by weight or higher, the one or more fillers comprising a first filler in the form of a dissolving grade pulp material or a non-woody microcrystalline cellulose, the first filler having an untapped bulk density of about 150 g/L or less; and at least one additional component such as active ingredients or flavorants. Also provided is a method of forming a composition adapted for oral use, which includes providing a dry dissolving grade pulp material, grinding the dissolving grade pulp material to form a pulp material having an untapped bulk density of about 150 g/L or less, and mixing the pulp material with at least one additional component such as active ingredients or flavorants.

Described is an oral pouched nicotine product having a filling material and a saliva-permeable pouch of a packaging material enclosing the filling material. The filling material includes (a) nicotine containing particles formed from a carrier material, said carrier material includes microcrystalline cellulose, said nicotine containing particles includes a nicotine source, said nicotine containing particles having a sphericity from 0.8 to 1.0 and a diameter from 0.1 mm to 2.0 mm. The oral pouched nicotine product is free from or is substantially free from a constituent having a coating containing a nicotine source and a binder. Also described is a method for preparing the described filling material.

A heat-conducting tobacco composition comprising at least one sort of tobacco in at least one confectioning of the tobacco for smoking tobacco consumption. The heat-conducting tobacco composition is configured or designed as a tobacco article for at least one smoking article selected from the following group: dry tobacco article for cigarettes, cigarillos, cigars, semi-dry tobacco article for smoking tobacco pipes, moist tobacco article for water pipes; wherein the heat-conducting tobacco composition further comprises at least one metallic, in particular noble metallic component which performs a physical heat-conducting function during smoking, in particular when exposed to heat by ember/glow or by heating elements of the smoking article, and which is chemically inert at least in the temperature range required for smoking, and which is admixed to the tobacco and distributed in the tobacco composition in such a way that the heat distribution within the tobacco composition is homogenized during smoking.

A pouched product including an outer water-permeable pouch defining a cavity and a composition configured for oral use situated within the cavity is provided. The composition is at least partially orally dissolvable, and includes one or more dissolvable fillers in an amount of at least about 45% by weight, based on the total weight of the composition; a humectant in an amount up to about 25% by weight, based on the total weight of the composition; and at least one active ingredient, at least one flavorant, or both at least one active ingredient and at least one flavorant.

An improved aeration of foam as well as a method of forming the foam for an aerosol-generating article includes (a) mixing an aerosol-forming agent, a foam-forming agent and optionally a solvent and/or at least one non-tobacco flavoring agent, preferably under heating; (b) adding to the mixture a tobacco-containing agent and/or an inhalable agent; (c) adding a foam-stabilizing agent; (d) cooling of the mixture; wherein the mixture is aerated after the adding of the foam-stabilizing agent and/or after cooling of the mixture, and wherein sodium bicarbonate is added to the mixture before cooling of the mixture, wherein the sodium bicarbonate content is less than 1 wt. % based on the total weight of the foam.

An aerosol releasing substrate for use in a heat-not-burn device is air permeable and includes tobacco particles and/or an inhalable agent, which contains at least one of a stimulant and/or a flavor, a gelling agent for gelling the aerosol releasing substrate, a degradation preventing and/or thickening stabilizer, and 30-70% humectant. The aerosol releasing substrate further has a soft granular texture. A method of producing a soft granular aerosol releasing substrate for use in a heat-not-burn device, which is air permeable, includes the steps: a) forming a mixture by mixing tobacco particles and/or an inhalable agent, which contains at least one of a stimulant and/or a flavor, a gelling agent for gelling the aerosol releasing substrate, a degradation preventing and/or thickening stabilizer, and 30-70% humectant, and b) forming a soft granular structure from the mixture.