Aerosol delivery devices and aerosol source members are disclosed herein. In one aspect, an aerosol delivery device may comprise a control body having a closed distal end and an open engaging end, a heating member, a control component located within the control body and configured to control the heating member, a power source located within the control body and configured to provide power to the control component, and a removable aerosol source member that includes a substrate portion. The substrate portion may include a continuous heat conductive framework integrated with an aerosol forming material, wherein the continuous thermally conductive framework is configured to enhance heat transfer from the heating member to the aerosol forming material.

Aerosol delivery devices and aerosol source members are disclosed herein. In one aspect, an aerosol delivery device may comprise a control body having a closed distal end and an open engaging end, a heating member, a control component located within the control body and configured to control the heating member, a power source located within the control body and configured to provide power to the control component, and a removable aerosol source member that includes a substrate portion. The substrate portion may include a continuous heat conductive framework integrated with an aerosol forming material, wherein the continuous thermally conductive framework is configured to enhance heat transfer from the heating member to the aerosol forming material.

A capsule for an aerosol-generating device may include a first heater, a second heater, and a frame sandwiched between the first heater and the second heater. The frame may define open spaces therein and have a rigidity that is adequate to support the first heater and the second heater. The open spaces within the frame may be interconnected and sized for aerosol-permeability and capillary action. A nicotine-containing material, such as tobacco, may be disposed within the capsule.

A cartridge includes a body with a side wall and at least one lid arranged to cover a top or a bottom, or both. The cartridge comprises a cavity inside the body configured for receiving an aerosol-forming substrate. The lid includes an inner layer facing the cavity and an outer layer facing an outside of the body. The inner layer comprises a weakened region. When the outer layer is removed, the weakened region of the inner layer forms an aperture. The cavity is in fluid communication with an outside of the cartridge body via the formed aperture. The aerosol-forming substrate may include tobacco. The cartridge may be a shisha cartridge and the aerosol-forming substrate may be a shisha substrate, such as hookah tobacco.

The present disclosure provides aerosol delivery devices. In an example implementation, an aerosol delivery device comprises an aerosol source member that defines an outer surface and an interior area and includes a substrate material having an aerosol precursor composition associated therewith, a control body having a housing that is configured to receive the aerosol source member, an electrical energy source coupled with the housing, and a heating assembly operatively connected to the electrical energy source. The heating assembly includes a plurality of spikes that may be configured to articulate between a retracted position, in which the plurality of spikes is not in contact with the aerosol source member, and a heating position, in which the plurality of spikes pierces through the outer surface of the substrate material and into a portion of the interior area thereof.

The present disclosure provides aerosol delivery devices. In an example implementation, an aerosol delivery device comprises an aerosol source member that defines an outer surface and an interior area and includes a substrate material having an aerosol precursor composition associated therewith, a control body having a housing that is configured to receive the aerosol source member, an electrical energy source coupled with the housing, and a heating assembly operatively connected to the electrical energy source. The heating assembly includes a plurality of spikes that may be configured to articulate between a retracted position, in which the plurality of spikes is not in contact with the aerosol source member, and a heating position, in which the plurality of spikes pierces through the outer surface of the substrate material and into a portion of the interior area thereof.

Described is a hookah device. The hookah device includes a unique hookah head and consumable pod. The hookah head includes a bowl portion with a pod recess formed therein to receive a consumable pod. An electronic heating mechanism is positioned within the hookah head for heating the consumable pod. An air pathway is formed through the hookah head to introduce air into the consumable pod and direct smoke from the consumable pod into a hookah body. The consumable pod is similarly formed to fit within the hookah head. Further, the consumable pod includes a pod inlet and pod outlet for directing air through the pod and through the hookah device for inhalation.

Described is a hookah device. The hookah device includes a unique hookah head and consumable pod. The hookah head includes a bowl portion with a pod recess formed therein to receive a consumable pod. An electronic heating mechanism is positioned within the hookah head for heating the consumable pod. An air pathway is formed through the hookah head to introduce air into the consumable pod and direct smoke from the consumable pod into a hookah body. The consumable pod is similarly formed to fit within the hookah head. Further, the consumable pod includes a pod inlet and pod outlet for directing air through the pod and through the hookah device for inhalation.

Disclosed is a cannabis briquette formed from compressed cannabis and having a hole defining an air channel through the cannabis briquette. The hole can enable an inside portion of the cannabis briquette to be lit and burned during use. In this way, the cannabis briquette can burn outward from the inside portion, which can help to facilitate an even burn of the cannabis briquette. The cannabis briquette is a pre-bowl configuration, which can be convenient for users because it circumvents any need to grind or compress any cannabis, and it is easy to place into a bowl.

Disclosed is a cannabis briquette formed from compressed cannabis and having a hole defining an air channel through the cannabis briquette. The hole can enable an inside portion of the cannabis briquette to be lit and burned during use. In this way, the cannabis briquette can burn outward from the inside portion, which can help to facilitate an even burn of the cannabis briquette. The cannabis briquette is a pre-bowl configuration, which can be convenient for users because it circumvents any need to grind or compress any cannabis, and it is easy to place into a bowl.