KR970063298A - Thermal element and its manufacturing method - Google Patents

Abstract

The present invention relates to a thermal element with improved performance, in particular with improved power density and performance at high temperatures. Such a thermal element comprises a silicon based electrically insulating material on its surface. On the surface of the first layer is placed a second layer comprising a silicon based electrically resistive material. Two or more separate regions of silicon-based electroconductive material are attached to the second layer, each of which is suitable for connecting to a power supply.

Description

Thermal element and its manufacturing method

As this is a public information case, the full text was not included.

Claims (7)

Board; A first layer of electrically insulating material obtained by curing a composition comprising a silicone resin, located on a surface of a substrate; A second layer of electrically resistive material obtained by curing a composition comprising a silicone resin and an electrically conductive filler, located on the surface of the first layer; And at least two separate regions of electrically conductive third material, which are obtained by curing a composition comprising a silicone resin and an electrically conductive filler, respectively, attached to a second layer and suitable for connection to a power supply. . The device of claim 1, wherein the substrate is selected from the group consisting of anodized aluminum, aluminum, stainless steel, enameled steel, and copper. A thermal element according to claim 1, wherein the electrically insulating layer contains a thermally conductive filler. The electrical resistance layer according to any one of claims 1 to 3, wherein the electrical resistance layer comprises particles selected from the group consisting of graphite and carbon black, the third material comprises silver particles, and the electrical insulation layer And a phenyl group in which a silicon resin used in the electrical resistance layer and the electrically conductive region is silicon-bonded. A substrate containing an electrically insulating, electrically conductive material; A first layer made of an electrically resistive material obtained by curing a composition comprising a silicone resin and an electrically conductive filler, located on the surface of the substrate; And at least two separate regions made of an electrically conductive third material, which is obtained by curing a composition comprising a silicone resin and an electrically conductive filler, respectively, attached to the first layer and suitable for connecting to the power supply. . Providing a substrate; Applying a first composition comprising a silicone resin to a surface of the substrate; Curing the first composition to form an electrical insulation layer; Applying a second composition comprising a silicone resin and an electrically conductive filler to form an electrically resistive element on the surface of the electrically insulating layer; Heating the second composition at a temperature sufficient to cure some or all of the second composition for a period of time; And applying a third composition comprising a silicone resin and an electrically conductive filler to form an electrically conductive element on two or more separate regions of the second composition, each region suitable for connecting to a power supply device; And curing the second composition and the third composition. Providing an electrically insulating thermally conductive substrate; Applying to the surface of the substrate a first composition comprising a silicone resin and an electrically conductive filler for forming an electrically resistive element; Heating the first composition at a temperature sufficient to cure a portion of the first composition for a period of time; And applying a second composition comprising a silicone resin and an electrically conductive filler to form an electrically conductive element to two or more separate regions of the first composition, each region suitable for connecting to a power supply device; And curing the first composition and the second composition. ※ Note: The disclosure is based on the initial application.