The invention relates to a method for manufacture of a product or in completion of a product. A flexible mat (20) is manufactured from an incompletely cured thermo-setting plastic, wherein the mat comprises an article (10) of electrically conductive material. The incompletely cured mat (20) including the article (10) is then formed as a function of a forming tool or to lie against or for contact with a product, whereafter final curing of the mat (20) is executed by supplying electric power to the article (10) or by external heat application or ultraviolet light. The invention also relates to an arrangement and uses.

A flexible heating apparatus can heat a heated body. The flexible heating apparatus includes a flexible carrier, a heating unit and a control module. The heating unit is at least one layer arranged inside the flexible carrier. The control module is arranged inside the flexible carrier and is electrically connected to the heating unit. Moreover, the control module is connected to an external electric apparatus, and is controlled by the external electric apparatus to control the heating unit to proceed a heating control to the heated body.

Disclosed embodiments describe approaches for warming a portion of a human body. The warming is based on heated apparel (e.g., a heated glove) coupled to an electrical power supply through a heater controller. The heated apparel (e.g., a glove) can be fabricated using a narrow knit electronic textile. A heater can be constructed from the narrow knit electronic textile. The heater is coupled to the heated apparel (e.g., a glove) for warming a portion (e.g., a hand) of a human body, wherein heating by the heater is accomplished using electrical power from the electrical power supply. The heater is controlled by a heater controller which is interposed between the heater and the electrical power supply.

A portable heating apparatus includes a top layer and a bottom layer connected to the top layer to form a cavity. An electric heating element is disposed within the cavity, and a temperature-retaining component, such as a gel layer, is affixed within the cavity adjacent to the electric heating element and adjacent to the top layer. A power cord is in electrical communication with the electric heating element and connectable to a power source to provide power to the electric heating element, the power cord detachable from the portable heating apparatus. The temperature-retaining component is capable of retaining heat generated by the electric heating element and creating a generally uniform distribution of heat across the top layer.

A graphene silicone sticky sheet and compound structure using the same is provided. The graphene silicone with PU function group is used as substrate which is further combined with an adhering layer so as to form as a graphene silicone sticky sheet. Therefore, it is adhered to various application objects, especially clothes or wearing objects, such as an eye mask. Further, the graphene silicone can be combined with conductive wires which extend outwards and thus it can be made as electrode adhesive sheet or electric heating sheet.

A knitted fabric having a heat generating function has a four-layer structure and can be knitted by a flat knitting machine. Knit stitching is used to knit first and second layers such that the second layer is fully covered under the first layer. Tuck stitching is used to knit the third layer such that one stitch is made to the third layer per a preset number of stitches made to each of first and second layers. Knit stitching is used to knit the fourth layer. After knitting, the fabric is soaked with water and spin-dried to form protrusions, spatially distributed as a centered rectangular lattice, on fabric surface. The second layer is electrically conductive for generating heat and is hidden inside the fabric. This layer is not easily hooked by a user during use and cleaning. The fabric is elastic and soft, and provides a comfortable feeling to the user.

The invention relates to an apparatus for a heating mat (10) comprising two mats (11, 12) of thermoplastic between which mats a heat emitting device (15) is arranged. The device (15) is produced by knitting or crocheting. The invention also relates to methods and uses.

In an exemplary embodiment, an interior heating system for occupant seats of a vehicle is provided. The interior heating system uses a weft co-knit fabric combined with at least one conductive electrode to heat selective regions of a vehicle seat. The interior heating system includes the weft co-knit fabric that contains a set of weft knit active or plated emitting yarn configured with at least one conductive electrode. The knit active or plated emitting yarn is co-knit with at least one parent yarn for enhanced uniformity of an electrical current applied to at least one conductive electrode from the weft co-knit fabric, and a plurality of conductive electrodes arranged in an interdigitated layout to combine together each conductive electrode with a set of a plurality of conductive co-knit active emitting yarns which attach to each electrode tine of the conductive electrode in a select region.

An electrical connection assembly includes a cable having a conductor, a metallic textile in electrical contact with the conductor, and a crimp element creating a pressure between the conductor and the metallic textile.

The present disclosure generally relates to a textile (100) and a manufacturing method (200) thereof. The textile (100) comprises: a fabric body (102) formed from one or more types of yarns; a continuous channel (104) formed within the fabric body (102); and an insulated conductive element (106) disposed within the continuous channel (104), wherein the textile (100) is heatable in response to electrical current being conducted through the insulated conductive element (106).