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.

The invention provides a method of manufacturing an amorphous solid, the method comprising: a) forming a slurry comprising a particulate botanical material, a gelling agent and an aerosol-former material; b) forming a layer of the slurry; and c) drying the slurry to provide the amorphous solid.

Disclosed is a cartridge for use with apparatus for heating smokable material to volatilize at least one component of the smokable material, the cartridge including: a container defining a cavity, and smokable material located in the cavity, wherein the cartridge includes heating material that is heatable by penetration with a varying magnetic field to heat the smokable material. Also disclosed is apparatus for heating smokable material to volatilize at least one component of the smokable material, the apparatus including: an interface for cooperating with an article comprising smokable material, a magnetic field generator for generating a varying magnetic field for penetrating the article when the interface is cooperating with the article, and a device for puncturing the article.

Disclosed is a cartridge for use with apparatus for heating smokable material to volatilize at least one component of the smokable material, the cartridge including: a container defining a cavity, and smokable material located in the cavity, wherein the cartridge includes heating material that is heatable by penetration with a varying magnetic field to heat the smokable material. Also disclosed is apparatus for heating smokable material to volatilize at least one component of the smokable material, the apparatus including: an interface for cooperating with an article comprising smokable material, a magnetic field generator for generating a varying magnetic field for penetrating the article when the interface is cooperating with the article, and a device for puncturing the article.

A composite heat source for use in a smoking article is provided, including a non-combustible porous ceramic matrix; and a particulate combustible fuel embedded within the non-combustible porous ceramic matrix. The non-combustible porous ceramic matrix is formed from one or more particulate materials having a median D50 particle size at least five times less than the median D50 particle size of the particulate combustible fuel. Preferably, the non-combustible porous ceramic matrix includes one or more transition metal oxides.

An additive assembly for an e-vaping device includes an adsorbent material that includes adsorbed carbon dioxide. The additive assembly may be in fluid communication with a vaporizer assembly that forms a generated vapor. The adsorbent material may release the carbon dioxide into the generated vapor based on at least a portion of the generated vapor adsorbing on the adsorbent material. The additive assembly may include a flavor material including a flavorant. The adsorbent material may generate heat based on at least a portion of the generated vapor adsorbing on the adsorbent material, and the flavor material may release flavorant into the generated vapor based at least in part on the heat generated by the adsorbent material. One or more of the adsorbent material and the flavor material may be included in beads. Adsorbent material and flavor material may be included in multiple additive structures within the additive assembly.

An additive assembly for an e-vaping device includes an adsorbent material that includes adsorbed carbon dioxide. The additive assembly may be in fluid communication with a vaporizer assembly that forms a generated vapor. The adsorbent material may release the carbon dioxide into the generated vapor based on at least a portion of the generated vapor adsorbing on the adsorbent material. The additive assembly may include a flavor material including a flavorant. The adsorbent material may generate heat based on at least a portion of the generated vapor adsorbing on the adsorbent material, and the flavor material may release flavorant into the generated vapor based at least in part on the heat generated by the adsorbent material. One or more of the adsorbent material and the flavor material may be included in beads. Adsorbent material and flavor material may be included in multiple additive structures within the additive assembly.

An e-vaping device may include a pre-vapor formulation tank configured to hold a pre-vapor formulation, an adaptor that includes a vaporizer assembly configured to vaporize the pre-vapor formulation, and a flavor insert positioned to receive vapors formed by the vaporizer assembly. The flavor insert may hold at least one flavorant. The tank, adaptor, and flavor insert may be a non-combustible vaping element that includes a channel into which the flavor insert may be inserted to be positioned to receive the vapors. The flavor insert and the vaporizer assembly may be at opposing ends of the channel. The flavor insert may be a detachable insert configured to be inserted into the tank element. The flavor element may be a tobacco element. The tobacco element may be at least a portion of a cigarette.

An e-vaping device may include a pre-vapor formulation tank configured to hold a pre-vapor formulation, an adaptor that includes a vaporizer assembly configured to vaporize the pre-vapor formulation, and a flavor insert positioned to receive vapors formed by the vaporizer assembly. The flavor insert may hold at least one flavorant. The tank, adaptor, and flavor insert may be a non-combustible vaping element that includes a channel into which the flavor insert may be inserted to be positioned to receive the vapors. The flavor insert and the vaporizer assembly may be at opposing ends of the channel. The flavor insert may be a detachable insert configured to be inserted into the tank element. The flavor element may be a tobacco element. The tobacco element may be at least a portion of a cigarette.

A method of manufacturing a flavored piece includes providing a matrix material providing at least one of a flavorant and an aroma, mixing the matrix material with the at least one of the flavorant and the aroma to form a mixture, and performing a fabricating process of the flavored piece. A flavored mouth-end piece for an e-vaping device includes a matrix material and at least one of a flavorant and an aroma, wherein the at least one of the flavorant and the aroma are distributed within the matrix material.