A capsule for an aerosol-generating device includes an inner frame defining an opening and a corrugated heater. The corrugated heater is supported by the inner frame and extends across at least a portion of the opening defined by the inner frame. An aerosol-forming substrate is at least partially disposed within the opening, such that the aerosol-forming substrate is on each side of the corrugated heater.

The present disclosure relates to an aerosol-delivery component, comprising: a vaporizer disposed in a vaporizing chamber; and an electrical contact for electrically connecting the vaporizer to a power supply, the contact extending through a base member of the component and into the vaporizing chamber. The component further comprises a sealing element configured to seal between the electrical contact and the base member.

A base structure includes a base, a first conductor layer, and a via conductor. The base has a first surface. The first conductor layer is positioned along the first surface in the base. The via conductor includes a first part and a second part in a section that includes the via conductor and that extends in a first direction perpendicular to the first surface. The length of the first part in the first direction is larger than the thickness of the first conductor layer. The length of the second part in the first direction is larger than the thickness of the first conductor layer. The second part is continuous with the first part, and at least a portion of the outer edge of the second part is displaced from the outer edge of the first part when viewed in the first direction.

A termination assembly for a heater assembly includes a plurality of resistive heaters arranged in discrete power phases, each resistive heater comprising a resistive heating element surrounded by dielectric material and a sheath. The termination assembly includes a plurality of electrically nonconductive members. Each electrically nonconductive member includes a plurality of apertures configured to receive power pins of the plurality of resistive heaters. The termination assembly includes a plurality of connectors configured to connect the power pins to the electrically nonconductive members. Each electrically nonconductive member includes a number of the plurality of connectors corresponding to a number of power pins being terminated. The termination assembly includes an electrical circuit embedded in or disposed on at least one of the plurality of electrically nonconductive members.

A thin film heater is provided containing conductive nanofiller particles and a base material, wherein the conductive nanofiller particles are uniformly distributed within the base material and is soluble in water. When introduced to electric current, the thin film heater raises in temperature and lowers in resistance. A method of manufacturing a thin film heater is also provided, including the steps of mixing the conductive nanofiller particles with water to form a precursor, mixing the precursor with a base material, and applying the mixture to a substrate. Once the thin film heater cures on the substrate, the thin film heater will resistively heat the substrate when introduced to electric current.

A mirror replacement system includes a camera having a frontal lens on an outer surface of the camera. The frontal lens includes an inner surface and an outer surface. A nano-etched coating is deposited on at least one of the inner and outer surfaces of the lens.

A multifunctional assembly having a resistive element a conductive element in electrical communication with the resistive element, the conductive element defining at least one of a plurality of multifunctional zones of the resistive element, wherein the conductive element is configured to direct a flow of electricity across at least one of the plurality of multifunctional zones of the resistive element in a preselected manner.

A heating element for use in a system for melting materials during the production of a glass or ceramic material is disclosed. A method for melting materials during the production of a glass or ceramic material is also disclosed. The heating element comprises a first coupling member configured to couple to a first side of the interior of a melt tank; a second coupling member configured to couple to a second side of the interior of the melt tank; and at least one elongate strip extending between the first coupling member and the second coupling member. The at least one elongate strip is integral with the first coupling member and the second coupling member. The heating element is configured such that during a heating operation, current flows between the first coupling member and the second coupling member of the heating element, along the at least one elongate strip to thereby radiate heat to materials located within the interior of the melt tank.

An electric connection member comprises a conductive member, a fixing member which brings the conductive member into contact with a connection target member and holds the conductive member in a state of compression in a thickness direction Z. The conductive member has a compressive stress of 1.0 N/mm.sup.2 or more and 15.0 N/mm.sup.2 or less when compressed by 25% in the thickness direction. The fixing member has an elongation of 400 μm or less when drawn at 96 kPa for 30 minutes in a direction along the thickness direction Z.

A vaporizer heating element has a heating element body formed from a single sheet of electrically conductive material having a constant sheet thickness. A peripheral conduction portion has spaced apart positive and negative support arms each having an interior edge. A central heating portion has a plurality of parallel heating strips, spaces between the heating strips defining flow channels through the element body. The central heating portion is intermediate the interior edges of the support arms. A first bridge strip connects the interior edge of the positive support arm to the central heating portion and a second bridge strip connects the interior edge of the negative support arm to the central heating portion. A plurality of peripheral support tabs extend from exterior edges of the support arms and a plurality of central support tabs extend from the central heating portion.