CS829886A2 - Electroresistive material - Google Patents

Description

The invention relates to an electro-resistance material for radiant heating.

A non-metallic electro-resistance material is known for electric radiant heating, which has the following composition and graphite gray or black - 100 wt. parts, neutral filler 0 to 50 wt. parts, black varnish for burning - 75 to 100 wt. parts and coresiline - 60 to 120 wt. parts. The disadvantages are that gray or black graphite, as well as the black varnish for burning, are used as binders. Heating elements made of gray or black graphite and black baking varnish need mechanical treatment to achieve the required electrical ratings Black baking varnish has a relatively low mechanical strength, bursts quickly and breaks and becomes useless. In doing so, this material can only be used2 up to a temperature of 8d C and a specific power of up to 700 W / m. SUMMARY OF THE INVENTION It is an object of the present invention to provide an electro-resistant mat which has a long service life, does not have the necessary additional mechanical treatment, can be used at temperatures up to 10C | C and specific power up to 1000 W / m and in practice is easy to apply.

This task is solved by the electro-resistive material of the radiant heating, which has the following composition: amorphous graphite 100 wt. parts polyvinylaselate 10 to 18 wt. parts denatured alcohol 20 to 36 wt. parts of coresiline 1 to 150 wt. The advantages of the invention are as follows. This material can be applied to both small and large surfaces, and can be used for temperatures up to 10 ° C, while at the same time achieving a specific power of 1000 W / m. The mate- rial is non-flammable and is evenly heated and warm when used.

This material can be applied to various electro-insulating foundations, such as concrete slabs, marble slabs, etc., on ceilings walls, floors. Paint is done by brush, gun, or machine. When using radiant heating electro-resistive material, up to 3 to 40% less electricity is consumed due to the fact that heat radiates from a large area.

The invention will now be described in more detail with reference to the following examples. EXAMPLE 1 To 54 g of amorphous graphite was added 54 co-vinyl acetate. 110 g of cannulated alcohol and 615 g of coresiline are added to this mixture. This mixture 5 min. mix. The example applies to a heating element of 600 x 1200 mm and a power of 630 W and a specific output of 875 W / m2 and a temperature of ?C) ° C.

The amounts of the individual components are as follows: amorphous graphite 600 g, polyvinyl acetate 70 S, denatured alcohol 147, coresiline 822 g.

The material production technology is the same as in Example 1. The heating element dimensions in this case are 800 x 1200 mm, power 800 W and specific power 835 W / M 2 at 65 ° C.

The amounts of the individual components are as follows: amorphous graphite 750 g, polyvinyl acetate 50 g, denatured alcohol 187 g, coresiline 1032 g. 0. The technique of material production is the same as in the example.

The electro-resistance material according to the invention is applied in the form of a paint or paste on the insulating base or walls of the heated space. This material is mainly used for radiant heating.

Claims (1)

SUMMARY OF THE INVENTION [0002] An electro-resistance material for radiant heating, comprising 100 wt. parts of amorphous graphite, 10 to 18 wt. parts of polyvinyl acetate, 20 to 16 wt. parts of denatured alcohol and 1 to 150 parts by weight of coresiline. <o C \ t