The present invention relates to a heating device comprising: a base substrate; an electrically conductive layer, referred to as the heating layer, carried by the substrate, formed from at least one percolating network of nano-objects comprising metal nanowires; and a thermal diffusion layer made from aluminum nitride, covering all or part of the heating layer. The invention also concerns a method for preparing such a heating device.

A heating element includes first and second blocks made of microfibers of steel, each block having an electrical input and an electrical output, and an electrical connection that connects an electrical output of the first block to an electrical input of the second block. The microfibers have a diameter between 10 and 30 micrometers.

A carbon felt heating device is disclosed. The carbon felt heating device includes a carbon felt unit adapted to radiate heat upon supply of power, and power-connecting portions, which are provided at two ends of the carbon felt unit so as to electrically connect the carbon felt unit to a power source, wherein at least some of voids in the carbon felt unit are filled with resin or polymer.

A heating element is used, a periphery of the heating element is covered with a net-shaped conductor, the conductor and a carbon fiber bundle are electrically connected with a connecting tool at one end of the heating element, a periphery of the conductor is covered with an outer skin having flexibility, thermal conductivity and an insulating property, and the other end of the heating element is provided with a power supply terminal configured to supply power.

The invention of the present application provides a self-heating sheet-like material for moisture absorption and desorption which includes at least a self-heating layer and an adsorption layer in a laminate thereof, in which the self-heating layer and the adsorption layer are connected in a state in which heat conduction is enabled; a moisture absorption and desorption body formed of this material; and a moisture absorption and desorption device.

A disclosed component for a motor vehicle includes a component main body, with at least one reinforcing element integrated in a component matrix of the component main body. The at least one reinforcing element may be fastened to the component main body. The component for a motor vehicle has a high component stability, is able to be manufactured with relatively low production costs and enables integration of functional components. The component includes the reinforcing element as a band with a plastics matrix and embedded unidirectionally oriented continuous fibers. A method for manufacturing such a component is also disclosed.

A consumable cartridge for an aerosol generation device includes a casing, a heating element provided within the casing and arranged to be heated by receiving energy from the aerosol generation device, and a solid or semi-solid aerosol forming material provided within the casing that forms an aerosol when heated. The heating element includes a plurality of thermally or electrically conducting wires and/or fibres.

A warming blanket (8) has a metalized fabric exterior layer and a heating element formed from a random fiber carbon veil material (52). A conductive ink layer (56) is deposited onto opposite side edges of the carbon veil material as side rails. Lower conductive strips (58) are attached onto a bottom edge of the carbon veil material. Each lower conductive strip is electrically coupled to a side rail. The lower conductive strips have connecting ends (60) which are spaced from each other so as to accept a connection circuit board. Side conductive strips (62) are coupled to the conductive ink side rails. Electrical current controlled by the connection circuit board is passed through the carbon veil material to create heat.

A laminar heater with an electrically conductive laminar heating element having a pair of electrically conductive busbars disposed adjacent opposite ends of the heating element and at least a first area having a plurality of perforations with a generally polygonal geometry. Embodiments include those with Y-shaped perforations, including some with one prong diverging into a bulbous, optionally diamond-shaped, end, and those defined by an array of generally diamond shaped perforations intermeshed with an array of circular shaped perforations. Processes of manufacture and installation, heating systems including such heaters, and multi-ply embodiments having non-metal plies and an outer metal surface layer, are also disclosed.

An electrical heating device comprising a support and a heating layer made of carbon fibre composite on the support mid connected to an electrical power supply to warm the device. The heating layer has a volume which comprises an electrically conducting circuit part which extends along at least one continuous line, and an electrically non-conducting insulation part which fills the remainder of the volume of the heating layer.