DE2220125C2 - Method for the local irradiation of flat structures - Google Patents

Description

25th

The invention relates to a method for locally irradiating flat structures with a homogeneous one corpuscular radiation field in which the homogeneous corpuscular radiation field by electrical and / or magnetic fields on local areas of the fabric is distracted.

There are methods for the local irradiation of flat structures with a homogeneous corpuscular radiation field known, in which the homogeneous corpuscular radiation field by electrical fields on local Areas of the fabric is deflected (DE-OS 15 77 503). The distraction takes place through deflection systems. For the irradiation of flat structures with high-energy electrons is from DE-AS 12 85 629 known, the electrons by scattering by a gaseous substance on the flat structure distract.

Local radiation effects have also been suggested on high polymer materials irradiated in a homogeneous radiation field achieve that after the homogeneous irradiation, especially with electron beams, which through the Irradiating formed reactive species (preferably radicals) locally by means of radical-destroying Media are destroyed (DE-PS 21 10 886).

The invention is based on the problem of the deflection in a method of the type mentioned at the beginning of the homogeneous corpuscular radiation field on local areas of the surface structure without the use of To achieve deflection systems.

According to the invention, the object is achieved in that the deflection of the homogeneous corpuscular radiation field on local areas of the flat structure by arranged on and / or below the flat structure ferromagnetic, magnetic, non-magnetic or current-carrying molded body is effected.

With the method according to the invention, local areas of the planar structure can have certain Structures are irradiated economically and in particular Structure and color effects on textile fabrics can be obtained more economically.

It is advantageous to use cylindrical magnets and / or steel balls and / or magnetic ones as the molded body Apply platelets to the fabric. It is also useful as a molded body above or below the Flat structures to arrange electrical conductors, preferably metal rods through which current flows.

The invention is to be explained in more detail below using a few exemplary embodiments. In the drawing shows

F i g. 1 the conveyor belt with cross bars and

F i g. 2 the unwinding of the conveyor belt.

example 1

On a rotating belt arranged under the scanner an electron accelerator are Cylindrical magnets formed The electron beams are formed in accordance with the course of the magnetic fields distracted and hit the polyamide silk warp knitted fabric that is running synchronously with the belt, which is equipped with magnets. The polyamide silk warp knitted fabric locally irradiated in this way is then with a 20% acrylamide solution, causing a graft of acrylamide to the irradiated Place takes place and thereby a structural effect occurs.

Example 2

In addition to the magnet mentioned in Example 1, steel balls are applied to the circumferential belt. The knitted fabric is treated as in Example 1.

Example 3

Magnetic platelets are applied to a polyamide warp knitted fabric from a container before the irradiation square, round or specially designed, brought to the circumferential belt by placing them next to each other Cross-shaped or other patterns arise on further treatment as in Example 1.

Example 4

On the revolving belt 1 (Fig. 1), metal cross bars 2 are arranged isolated from one another, which are passed under the scanner 3 synchronously with the thread. The cross bars 2 are according to F i g. 2 electrically connected to each other. The electrons exiting the accelerator of 0.5 MeV are generated at a current of 50 A through the magnetic field that forms around each rod, at a distance between the rods of 30mm, with an average radius of curvature of about 70mm out of their direction deflected, so that more or less electrons in strips due to the opposite direction of current flow hit the fabric, whereby a textured effect is achieved after treatment according to Example 1. the both diodes 4 allow the current to flow only through the upper rods between the contacts 5. Such a one The procedure has the advantage over the use of rods as cover elements that by the Size of the current the stripe width of the irradiated stripes can be regulated within wide limits without to have to replace the cover elements.

For this purpose Ί sheet of drawings

Claims (3)

Patent claims: J. Method for the local irradiation of flat structures with a homogeneous corpuscular beam field in which the homogeneous corpuscular beam field by electrical and / or magnetic fields on local areas of the fabric is deflected, characterized in that the deflection of the homogeneous »Corpuscular radiation field on local areas of the fabric through on and / or under the fabric (1) arranged ferromagnetic, magnetic, non-magnetic or current-carrying molded bodies (2) is effected. 2. The method according to claim 1, characterized in that that as a molded body cylindrical magnets and / or steel balls and / or magnetic platelets be applied to the fabric. 3. The method according to claim 1, characterized in that electrical conductors (2), preferably metal rods through which current flows, are arranged as a shaped body above or below the sheet-like structure (1).