A heating device for being attached to and heating a heated object that requires to be heated and has an uneven exterior shape. The heating device including: a conductive member having thermal conductivity and being configured to be attached to a recess of the heated object; and a heater configured to cover and heat the heated object and the conductive member in a state where the conductive member is attached to the recess of the heated object. The heater has a portion to be in contact with a bulge portion of the heated object in a state where the conductive member is attached to the recess of the heated object and where the heated object and the conductive member are covered with the heater.

A cartridge for an aerosol-generating system may include a first chamber housing defining a first chamber and a second chamber housing defining a second chamber that is separate from the first chamber. The first chamber may contain an aerosol-forming substrate in the form of a gel, and the second chamber may contain a source of a desired compound. The first and second chamber housings may be separate or separable structures.

A cartridge for an aerosol-generating system is provided, including a liquid storage portion including a housing containing a liquid aerosol-forming substrate, the housing having an open end; and a heater assembly including: an electrical heating element configured to heat the substrate to form an aerosol, the heating element including a planar filament arrangement having one or more electrically conductive filaments, an electrically insulating substrate having a planar attachment face, the filament arrangement disposed on the planar attachment face, and connectors arranged at opposite ends of the heating element and forming two separate electrical contacts configured to apply power to the filament arrangement, at least a portion of the heater assembly is fluid-permeable, and the heater assembly is arranged over the open end of the housing.

An electronic cigarette, an electronic cigarette atomizer and an atomization assembly. The electronic cigarette atomizer comprises: an e-liquid storage chamber (12), which stores an e-liquid matrix; a porous body (30), which is in fluid communication with the e-liquid storage chamber (12) to absorb the e-liquid matrix; and a heating element (40), which comprises a first electrode connection part (41), a second electrode connection part (42), and a resistance heating track (43) extending between the first electrode connection part (41) and the second electrode connection part (42), wherein the curvature of any position of a part of the resistance heating track (43) that is close to and is connected to the first electrode connection part (41) and/or the second electrode connection part (42) is not zero. The heating element (40) of the electronic cigarette atomizer performs heating by using the resistance heating track (43), and the part of the resistance heating track (43) that is close to and is connected to the electrode connection parts is of a curved shape having non-zero curvature, such that an internal tensile stress formed by a difference in expansion and contraction is eliminated, thereby preventing the heating element (40) from being deformed or broken in hot-cold cycles.

A heater (1a) includes: a substrate (10); a heat-generation layer (20) that is a conductive metal oxide layer (22); a pair of power supply electrodes (30); and a pressure-sensitive adhesive bonding laminate (40). The substrate (10) is formed of an organic polymer. The heat-generation layer (20) is disposed in contact with the substrate (10) in the thickness direction of the substrate (10). The pair of power supply electrodes (30) are electrically connected to the heat-generation layer (20). The pressure-sensitive adhesive bonding laminate (40) has a pressure-sensitive adhesive surface (41a) used for pressure-sensitive adhesive bonding with an adherend. In the pressure-sensitive adhesive bonding laminate (40), a plurality of pressure-sensitive adhesive layers (41, 42) and at least one support (45) for the plurality of pressure-sensitive adhesive layers are alternately laminated between the pressure-sensitive adhesive surface (41a) and the heat-generating layer (20).

A composite ceramic atomizer includes a first main body and a second main body that are integrally formed by using a glazing and sealing process, and the first main body is connected to the second main body through a glazed surface formed by glazing. The glazed surface completely or partially covers a surface at the joint between the first main body and the second main body. The first main body includes a heating carrier and a conductive path for heating, where the conductive path is formed on a surface of or inside the heating carrier and has a first contact part and a second contact part connected to a power supply. The second main body is used for liquid conduction. Further provided is a method for preparing the composite ceramic atomizer.

A manufacturing method for a heating tube includes: step S1: preparing a tubular blank including a substrate blank, an electric heating blank layer being arranged on an inner side of the substrate blank, and an infrared radiation blank layer being arranged on an inner side of the electric heating blank layer; and step S2: molding the tubular blank by sintering.

A heater assembly for an aerosol-generating system includes a perforated glass substrate and a heater element. The heater element is provided in the glass substrate, on the glass substrate, or both in and on the glass substrate. The heater element includes a plurality of parallel strips between alternating rows of the perforations.

A porous body for an electronic vaporization device includes: a first surface; a second surface opposite the first surface; and at least two unit layers sequentially arranged along a direction from the first surface to the second surface, one layer of the at least two unit layers including at least a liquid storage advantage layer or a liquid locking advantage layer, and each other unit layer of the at least two unit layers including a liquid storage advantage layer and a liquid locking advantage layer combined with the liquid storage advantage layer.

A vaporization core for an electronic vaporization device includes: a porous body; and a heating film arranged on a surface of the porous body. The porous body has at least one unit layer, the at least one unit layer having a liquid storage advantage layer and a liquid locking advantage layer combined with the liquid storage advantage layer. The heating film is combined with a surface of the liquid locking advantage layer and at least partially infiltrates in the liquid locking advantage layer.