This disclosure relates to a running board assembly for a motor vehicle, and in particular relates to a heated running board and a corresponding method. An exemplary running board assembly includes a running board with a deck having a plurality of spaced-apart raised sections. The raised sections are made of a thermally conductive polymer and include an electrically conductive element configured to allow electric current to flow through the raised sections.

This disclosure relates to a running board assembly for a motor vehicle, and in particular relates to a heated running board and a corresponding method. An exemplary running board assembly includes a running board with a deck having a plurality of spaced-apart raised sections. The raised sections are made of a thermally conductive polymer and include an electrically conductive element configured to allow electric current to flow through the raised sections.

An electric heating device in an exhaust gas system, the device having an outer circumferential, circular, housing, wherein a rib structure is arranged in the housing. The rib structure can be heated by applying an electric current. The rib structure is arranged with rib rows parallel to one another in the housing, wherein the parallel-arranged rib rows are arranged such that they are electrically connected to one another in series or in parallel.

An electric heating device in an exhaust gas system, the device having an outer circumferential, circular, housing, wherein a rib structure is arranged in the housing. The rib structure can be heated by applying an electric current. The rib structure is arranged with rib rows parallel to one another in the housing, wherein the parallel-arranged rib rows are arranged such that they are electrically connected to one another in series or in parallel.

A laundry appliance including a cabinet, a tub, and a drum. The tub is positioned inside the cabinet. The tub includes a front tub wall having a front tub opening, a rear tub wall, and a tub sidewall that extends between the front tub wall and the rear tub wall. The drum is rotatably supported within the tub. The drum includes a front drum opening, a rear drum wall, a drum sidewall that extends between the front drum opening and the rear drum wall, and a laundry compartment positioned inside the drum that is accessible through the front drum opening. An air gap is positioned radially between the tub sidewall and the drum sidewall. At least one heating element is positioned on or in the tub sidewall to heat the tub sidewall and therefore air flowing through the air gap.

A conductive ink may comprise a high temperature thermoplastic polyurethane (TPU) and a plurality of conductive particles disposed in the high temperature TPU. The plurality of conductive particles may comprise between 60% and 95% of the conductive ink by weight. The high temperature TPU may include a melting point between 120 C. and 200 C. The conductive ink may be used for external heated composite structures, such as rotor blades, fixed wings, faring, engine lip electrothermal ice protection, or the like. The conductive ink may have enhanced mechanical fatigue resistance.

A conductive ink may comprise a high temperature thermoplastic polyurethane (TPU) and a plurality of conductive particles disposed in the high temperature TPU. The plurality of conductive particles may comprise between 60% and 95% of the conductive ink by weight. The high temperature TPU may include a melting point between 120 C. and 200 C. The conductive ink may be used for external heated composite structures, such as rotor blades, fixed wings, faring, engine lip electrothermal ice protection, or the like. The conductive ink may have enhanced mechanical fatigue resistance.

A temperature adjusting member includes a base body, an insulator substrate including a built-in heat-generating element and an opening portion through which a part of the heat-generating element is exposed, an electric wire connected to the heat-generating element through the opening portion, and an adhesive layer bonding the base body and the insulator substrate. The base body includes a through-hole connecting to the opening portion, through which the electric wire passes. The adhesive layer has a first part between the base body and the insulator substrate, and a second part filling the through-hole.

A temperature adjusting member includes a base body, an insulator substrate including a built-in heat-generating element and an opening portion through which a part of the heat-generating element is exposed, an electric wire connected to the heat-generating element through the opening portion, and an adhesive layer bonding the base body and the insulator substrate. The base body includes a through-hole connecting to the opening portion, through which the electric wire passes. The adhesive layer has a first part between the base body and the insulator substrate, and a second part filling the through-hole.

In order to heat a bag filled, for example, with a food product to a predeterminable temperature, the entire cassette (1) has been heated in the past. The invention relates to a cassette (1) made of plastic, wherein in each of the cassette shells (2, 3) a receiving recess (10) is formed, in each of which a respective heat-conducting plate (11) is arranged securely in position. A heating element (20) is applied to the heat-conducting plate (11) and the heat-conducting plate (11) is retained in an insulated manner on the respective cassette shell (2, 3) such that a thermal insulating air gap remains between the heat-conducting plate (11) or the heating element (20) and the cassette shell (2, 3).