Methods for encasing bodies including smokeless tobacco or a tobacco substitute with a polymeric casing can include coating a compressed body with microfibers, applying tubular casings to compressed bodies, printing netting and webs on compressed bodies, injection molding around compressed bodies, applying a webbing to compressed bodies, placing compressed bodies into a skin forming bath, and including thermoplastic polymers in a compressed body.

An encapsulated flavorant or artificial sweetener for use with smokeless tobacco and related products. The encapsulated flavorant or artificial sweetener comprises a core encapsulated with a lipid-based coating that provides stability when in contact with tobacco, yet releases flavor over time when the product is used. The core comprises a carrier, such as silica, tobacco, beet fiber, citrus fiber, artificial sweetener, or the like, coated or loaded with a flavorant. Flavor loading may be in the range of approximately 10% to 60%, by weight. Flavorants include, but are not limited to, methyl salicylate (oil of wintergreen), cinnamon (e.g., cinnamon oil), peppermint (e.g., peppermint oil), and spearmint (oil of spearmint).

A filter for a smoking article or an aerosol generating product comprising a first filter section and a second filter section, the second filter section being located downstream of the first filter section the first filter section comprising filter material and two or more capsules comprising additive, the capsules being disposed in an axial region proximal a longitudinal axis of the filler and being spaced in sequence in a direction along the axis; the second filter section comprising at least one channel located in an axial region of the second filter section proximal a longitudinal axis of the filter, to facilitate, in use, drawing of an aerosol through the axial region of the first filter section in which the capsules are disposed.

A tobacco product reduces or mitigates some of the negative effects of tobacco consumption, particularly cancer development. The tobacco product contains (a) nicotine, (b) at least one of an isothiocyanate or isothiocyanate precursor, (c) myrosinase and (d) a synthetic isothiocyanate. The product can further include at least one of thymoquinone, resveratrol, synthetic vitamin C, thymoquinone resveratrol and a synthetic vitamin C.

Provided is a solid homogeneous composition comprising at least one cannabinoid and a carrier having at least two of: (i) a total cannabinoid concentration greater than 5%; (ii) being in comminuted particle form, wherein at least 70 wt % of said particles are of size greater than 0.3 millimeter and less than 4.2 millimeters; (iii) comprising less than 20 wt % water; (iv) said carrier comprising cellulose; (v) said carrier comprises less than 50% by weight cannabis or hemp non-cannabinoid plant material, wherein said composition is suitable for providing cannabinoid via inhalation. Further provided are products comprising the composition, methods of use and methods of preparation thereof.

A paste for delivery of a flavoring in water-pipe smoke is disclosed herein. The disclosed paste is produced by mixing ingredients that include granules of an inert material, an absorbent-binder, a solvent, a mist-maker, and a flavoring. The paste is configured to release the flavoring and mist-maker when heated without melting of the paste.

The present disclosure provides an aerosol delivery device comprising an aerosol source member. In an example embodiment, an aerosol source member of the present disclosure may comprise a substrate portion comprising a nanocellulose material impregnated with an aerosol precursor composition, a heat source configured to heat the aerosol precursor composition from the substrate portion forming an aerosol, and an aerosol pathway extending from the substrate portion to a mouth-end of the aerosol delivery device.

Delivery of additives in a smoking article is provided through thermally degradable, robust immobilized additive inserts. Additives can be immobilized in an elongated device or an insert, wherein the elongated device or the insert is sufficiently robust to allow the elongated device or the insert to be manually or machine inserted into a smoking article while maintaining the structure of the elongated device or the insert. By providing additives in the form of thermally degradable immobilized additive inserts, migration and/or loss of the additives in a smoking article prior to smoking can be reduced.

Encapsulated tobacco beads and processes of making the encapsulated tobacco beads are disclosed. According to an embodiment, a process of making encapsulated tobacco beads comprises mixing tobacco particles and menthol in an aqueous solution to form a wet mass; extruding the wet mass to form extrudates; spheronizing the extrudates to form tobacco beads; drying the tobacco beads; contacting the beads with a solution comprising a cation; and introducing the contacted tobacco beads into a solution of coating material in a concentration effective to induce ionic gelation of the coating material around the beads, to form encapsulated tobacco beads having gel coatings. According to another embodiment, an encapsulated tobacco bead comprises a core comprising tobacco particles and encapsulated menthol, an inner coating layer comprising hydroxypropyl methylcellulose or pectin, and an outer coating layer comprising an ionically-crosslinked gel.

A fiber-wrapped smokeless tobacco product includes smokeless tobacco and a plurality of polymeric fibers surrounding the smokeless tobacco. The polymeric fibers can have a basis weight of 5 gsm or less and a diameter of less than 100 microns. In some cases, the polymeric fibers are melt-blown polymeric fibers. In some cases, the polymeric fibers are centrifugal force spun polymeric fibers. A method of preparing a fiber-wrapped smokeless tobacco product includes melt-blowing or centrifugal force spinning a plurality of polymeric fibers to create an polymer deposition zone and passing a body comprising smokeless tobacco through the polymer deposition zone. In some cases, an electrostatic charge can be applied to the plurality of polymeric fibers, the body, or a combination thereof. In some cases, a spin is applied to the body when passing through the polymer deposition zone.