The present disclosure provides a substrate which includes microcrystalline cellulose, a binder, an aerosol forming material, and optionally an active ingredient, a flavorant, or both an active ingredient and a flavorant. The final form of the substrate can be configured for use in aerosol generating components for aerosol delivery devices. Further provided are aerosol generating components and aerosol delivery devices including the substrate. Such devices utilize electrically generated heat or combustible ignition sources to heat the substrate, providing an inhalable substance in the form of an aerosol.

The present disclosure relates to a hashish product having improved consistency, texture and/or appearance. For example, the hashish product may include a cohesive mass of isolated trichomes and a moisture content that is distributed throughout in the cohesive mass. The present disclosure also relates to a process for making the hashish product which includes incorporating water in a mass of isolated trichomes prior to pressing same.

The present disclosure relates to a hashish product having improved consistency, texture and/or appearance. For example, the hashish product may include a cohesive mass of isolated trichomes and a moisture content that is distributed throughout in the cohesive mass. The present disclosure also relates to a process for making the hashish product which includes incorporating water in a mass of isolated trichomes prior to pressing same.

The present disclosure relates to a heat-not-burn (HNB) aerosol-generating article, which comprises aerosol-generating raw material, aerosol-generating agent, and water. The aerosol-generating raw material is pre-pulverized and then sieved through a 40-200 mesh sieve. The aerosol-generating raw material, the aerosol-generating agent, and water are mixed in a certain proportion and blended into paste, so that the HNB aerosol-generating article is in a shape of paste stick when extruded, and is used to be injected into the HNB cartridge tube by extrusion into the paste stick. The paste stick HNB aerosol-generating article has internal pores in a form of loose paste stick. When the user performs a suction action, the pores are convenient for the aerosol passing through the paste stick HNB aerosol-generating article into the human mouth smoothly. The above-mentioned HNB aerosol-generating article is suitable for HNB non-tobacco products or HNB tobacco products and the like.

The disclosure provides methods of modulating release of water-soluble components from a composition situated with a cavity of an outer water-permeable pouch. Such release can be modulated, e.g., by modifying a packing density of the composition and/or by modifying a shape of the outer water-permeable pouch. Pouched products prepared according to such methods are also described.

The disclosure provides methods of modulating release of water-soluble components from a composition situated with a cavity of an outer water-permeable pouch. Such release can be modulated, e.g., by modifying a packing density of the composition and/or by modifying a shape of the outer water-permeable pouch. Pouched products prepared according to such methods are also described.

The present disclosure provides an aerosol generating component containing a substrate impregnated with one or more aerosol forming materials, the substrate including a cellulosic material substantially free of sulfur compounds, and further including one or more of a tobacco pulp, an aqueous tobacco extract, a filler, and a binder. Further provided is an aerosol delivery device including the aerosol generating component. Such devices utilize electrically generated heat or combustible ignition sources to heat the aerosol forming materials, providing an inhalable substance in the form of an aerosol.

Some embodiments of a smokeless tobacco system include one or more silicone smokeless tobacco products configured to generally retain their shape during processing, shipping, and consumer handling. In particular embodiments, each silicone smokeless tobacco product can comprise a moist smokeless tobacco in combination with a silicone binder such that the final product has tobacco exposed along an exterior surface and is configured to have material properties providing improved handling, an improved mouth feel, and a satisfying flavor profile.

Some embodiments of a smokeless tobacco system include one or more silicone smokeless tobacco products configured to generally retain their shape during processing, shipping, and consumer handling. In particular embodiments, each silicone smokeless tobacco product can comprise a moist smokeless tobacco in combination with a silicone binder such that the final product has tobacco exposed along an exterior surface and is configured to have material properties providing improved handling, an improved mouth feel, and a satisfying flavor profile.

The present disclosure provides an electronic atomizing apparatus and an atomizer, a power supply assembly, a control method thereof. The electronic atomizing apparatus may include a housing and a heater, a battery, an angle detection mechanism and a processor arranged in the housing. The housing may be configured to define a liquid storage chamber and a mouthpiece. The liquid storage chamber may be configured to storage aerosol-generating liquid and may be arranged between the mouthpiece and the heater. The heater may be configured to be powered by the power supply assembly. The angle detection mechanism may be configured to detect the tilt angle of the electronic atomizing apparatus. The processor may be connected with both the heater and the angle detection mechanism and may be configured to control the heater to stop heating when it is determined that a tilt angle is greater or equal to an angle threshold.