EP1288969A1 - Element for radiation shielding - Google Patents

Abstract

A radiation protective molded body comprises a bendable plate (11) made from a square, rectangular or other geometrical shape; and a lead base body (20). The lead base plate has a covering layer (30) on one or both sides made from tin or tin-containing alloy. The covering layer is applied by adhering or by cladding by rolling. Preferred Features: The tin-containing alloy contains (wt.%): 0.15-0.85 tin, 0.05-0.15 antimony, 0.03-0.06 copper, 0.01-0.10 bismuth, 0.10 impurities, and balance of lead.

Description

The invention relates to a radiation protection molded body and its use.

When disposing of nuclear power plants are protective measures for the To meet workforce. The use of frame frames is known with lead plates suspended from them as radiation protection or Radiation protection walls for workers, these lead plate walls set up or hung in the area of the respective fields of activity become. The disadvantage is that on the one hand these lead plates are very susceptible to corrosion and on the other hand the workers with the Lead plates come into direct contact, especially if the Lead plates are suspended from the frame racks to otherwise to be used. For this it is necessary that the lead plates from Hand captured, suspended and decontaminated. The Decontamination of lead plates used in this way is very time consuming and even after cleaning the plates with water, ultrasound or by Brushed particles continue to adhere to the surfaces the lead plates.

The object of the present invention is to provide a molded radiation protection body to create from a lead base body, which has a high flexibility has without bending in the surface of the radiation protection molded body Cracks appear. In addition, the radiation protection molded body have a smooth surface on which after decontamination no contaminated particles remain on the plates; next to one The radiation protection molded body is said to have high corrosion resistance with a Touch by workers in no way to damage them lead and it should also not cause health damage come.

This task is solved by a radiation protection molded body with the features specified in claim 1.

According to this, the radiation protection molded body according to the invention consists of a bendable plate made of a square, rectangular or of a different geometric shape and from one Lead base body, the lead base body of the plate-shaped Shaped body to prevent corrosion of the lead plate surface and to create a smooth plate surface on one or both sides a cover layer applied or glued by roll cladding is made of tin or a tin-containing alloy. The plate-shaped radiation protection molded body is available as a single plate or side by side - and / or one above the other - lined up on frame frames kept used.

The fact that the lead body of the radiation protection molded body by a covering layer of tin or a tin-containing alloy is coated the lead base body has a smooth, pore-free and self-contained Surface, which results in good decontamination. contaminated Particles no longer remain on the after decontamination. Surface of the molded radiation protection body. The on the surface of the Lead base body applied covering layer of tin or a tin-containing Alloy prevents bending or bending of the Radiation protection molded body a crack formation in the molded body surface, so that there is no corrosion of the lead of the base body. working people the with radiation protection moldings according to the invention in Even the lead of the body does not come into contact in contact, but only with the covering layer of tin or one tin-containing alloy, this cover layer being a kind of protective layer forms. The cover layer prevents direct contact between the workers with the lead of the base body of the radiation protection molded body. This ensures a high level of occupational safety than when touched no contact is made with the radiation protection molded body with the hands with the lead of the body. The one on the lead body applied tin layer or layer of a tin-containing alloy is due to the roll plating made in the surface of the Lead body pressed in, so that no areas susceptible to corrosion be created.

Advantageous embodiments of the invention emerge from the subclaims out.

Then there is the possibility of applying the tin forming the covering layer to the lead base body by roll cladding. A plating layer made of tin or a tin-containing alloy or made of a lead plate or lead foil and tin or a tin-containing alloy is then applied to the lead base body of the molded body on one or both sides. The tin-containing alloy of the plating layer of the composite material preferably consists of the following composition: sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest.

The invention also provides the use of flexible plates made from a square, rectangular or other geometric shape and from a lead base body with a covering layer of tin or a tin-containing alloy applied on one or both sides with a covering layer applied by roller plating or attached by gluing as a plating layer as a radiation protection molded body for shielding against the action of artificial ionizing radiation and for preventing corrosion of the lead base material and for avoiding direct contact of workers with the lead base material. The bendable plates used here have, inter alia, a tin-containing alloy, this tin-containing alloy of the plating layer of the composite material consisting of the following composition: sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest.

Embodiments of the invention are described below with reference to the Drawings explained in more detail:

Fig. 1

in einer schaubildlichen Darstellung einen Strahlenschutzform-, körper aus einem Bleigrundkörper und einer den Bleigrundkörper umhüllenden Abdeckschicht aus Zinn oder einer zinnhaltigen Legierung,

Fig. 2

eine schaubildliche Ansicht des Strahlenschutzformkörpers mit abschnittsweise entfernter Abdeckung,

Fig. 3

einen senkrechten Schnitt gemäß Linie III-III in Fig. 1,

Fig. 4

einen senkrechten Schnitt gemäß Linie IV-IV in Fig. 1,

Fig. 5

einen senkrechten Schnitt durch den Strahlenschutzformkörper gemäß Fig. 1 in einer anderen Ausführungsform mit auf dem Bleigrundkörper aufgeklebten Abdeckschicht aus Zinn oder einer zinnhaltigen Legierung,

Fig. 6

einen senkrechten Schnitt durch einen Abschnitt des Strahlenschutzformkörpers aus einem Bleigrundkörper bzw. aus einem bleihaltigen Verbundmaterial mit beidseitig auf dem bleihaltigen Grundmaterial aufplattierten aus Zinn und Blei bestehenden Plattierungsprodukten, und

Fig. 7

einen senkrechten Schnitt durch das Plattierungsprodukt.

Show it:

Fig. 1

a graphical representation of a radiation protection molded body made of a lead base body and a covering layer of tin or a tin-containing alloy enveloping the lead base body,

Fig. 2

2 shows a perspective view of the radiation protection molded body with the cover removed in sections,

Fig. 3

a vertical section along line III-III in Fig. 1,

Fig. 4

a vertical section along line IV-IV in Fig. 1,

Fig. 5

1 in another embodiment with a cover layer of tin or a tin-containing alloy glued onto the lead base body,

Fig. 6

a vertical section through a section of the radiation protection molded body from a lead base body or from a lead-containing composite material with plating products consisting of tin and lead on both sides of the lead-containing base material, and

Fig. 7

a vertical section through the plating product.

1 to 5, the radiation protection molded body according to the invention 10 from a flexible plate 11 from a square, rectangular or another geometric shape Cutting. This cut of the radiation protection molded body 10 consists of a lead base body 20 with its side wall surfaces 20a, 20b. This Lead base body 20 is preferably on one or both sides with a cover layer 30 applied or glued by roll plating made of tin or an alloy containing tin. In the embodiment 5, the cover layer 30 is made of tin or one tin-containing alloy glued to the lead base body 20. The adhesive layer is designated 60.

On the lead base body 20 of the radiation protection body 10, a or on both sides a plating layer 40 'made of tin or a tin-containing one Alloy or from a lead plate or foil 25 and tin or a tin-containing alloy applied, this plating layer 40 'forms the cover layer 30. This cover layer 30 can also encase the lead base body 20 on all sides.

Around the molded radiation protection body 10, for example on a frame can be attached to form a radiation protection wall the radiation protection molded body 10 with at least one suspension opening 21 provided. In the embodiment shown in Fig. 1 the radiation protection molded body 10 has two suspension openings 21, which is preferably provided in the upper region of the plate body are. The suspension opening 21 is preferably 21 other geometrical shapes are circular are possible. When plating on the tin layer or the tin-containing alloy The covering layer 30 extends on the lead base body 20 to the wall area delimiting the suspension opening 21 21a, so that corrosion protection also in the area of the suspension opening 21 is given for the lead of the base body 20.

To crack when the radiation protection molded body 10 is deformed to avoid the lead material of the base body 20 is on the lead base body 20 a tin plating layer 40 'applied on one or both sides, which consists of tin or an alloy containing tin. 6 and 7 is the structure of the radiation protection molded body 10 or a composite material 40 with a lead-containing tin-plated on one or both sides Basic material, i.e. Lead base body 20 shown, in which a plate or foil-shaped lead material on one or both sides with a plating layer 40 'is connected.

The plating product on which the plating layer 40 'is based consists of a lead plate 25 onto which a coating 50 of tin or a tin-containing alloy is plated on one side, so that ultimately the tin and the lead are mechanically welded to one another. A plating product produced in this way is rolled down to plating thickness and the plating layer 40 ′ thus obtained is plated on one or both sides of the lead base body 20 such that the lead layer of the plating product comes to lie on the lead base body 20. The lead base body 20, on which the plating product or the plating layer 40 'is plated, preferably consists of a tin-containing alloy, which is composed as follows: sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest.

Both the plating layer 40 'and the lead body 20 can be very thin layers.

The percentages relate to percentages by weight, based on the total weight.

Claims (9)

Radiation protection moldings,
characterized in that the radiation protection molded body (10) consists of a bendable plate (11) made of a square, rectangular or other geometric shape and of a lead base body (20), the lead base body (20) of the plate-shaped body (10) for Prevention of corrosion of the lead plate surface is provided on one or both sides with a cover layer (30) made of tin or an alloy containing tin, which is applied or glued on by roll plating. Radiation protection body according to claim 1,
characterized in that a plating layer (40 ') of tin or a tin-containing alloy or of a lead plate or foil (25) and tin or a tin-containing alloy is applied to the lead base body (20) of the molded body (10) on one or both sides. Radiation protection molded article according to one of claims 1 and 2,
characterized in that the tin-containing alloy of the plating layer (40 ') of the composite material (40) consists of the following composition: sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest. Radiation protection molded article according to one of claims 1 to 3,
characterized in that the lead base body (20) of the composite material (40) is provided on one or both sides with a plating product made of a lead plate (25) rolled on one side with a plating (50) made of tin or a tin-containing alloy, wherein the plating product with its lead side is plated onto the lead base body (20), which consists of a tin-containing alloy with the following composition in order to prevent intercrystalline fractures during lead sheet deformation sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest. Radiation protection molded article according to one of claims 1 to 4,
characterized in that the shaped body (10) is provided with a holder, such as a suspension opening (21) for fastening and hanging on frame frames for the manufacture of radiation protection walls. Radiation protection molded article according to one of claims 1 to 5,
characterized in that the shaped body (10) is provided with at least one suspension opening (21) and in that the covering layer (30) made of tin or the tin-containing alloy on the shaped body (10) up to the wall area (21a) delimiting the suspension opening (21) extends. Radiation protection molded article according to one of claims 1 to 6,
characterized in that the covering layer (30) made of tin or a tin-containing alloy is glued to the surfaces of the lead base body (20). Use of flexible plates (11) from a square, rectangular or another geometric shape comprising blank and from a lead base body (20) with one or on both sides with or applied by roll cladding if necessary, attach the lead base body (20) enveloping it by gluing Sealing layer (30) made of tin or an alloy containing tin as a plating layer and as a radiation protection molded body (10) for Shielding against the effects of artificial ionizing radiation and to prevent corrosion of the lead body material and to avoid direct contact between workers with the lead body (20). Use of bendable plates (11) made from a blank having a square, rectangular or other geometric shape and from a lead base body (20) with one or both sides of a lead base body (20) which is applied by roll cladding or fastened by gluing or possibly glued on Covering layer (30) made of tin or a tin-containing alloy as a plating layer and as a radiation protection molding (10), the tin-containing alloy of the plating layer (40 ') of the composite material (40) consisting of the following composition: sn 0.15 to 0.85% sb 0.05 to 0.15% Cu 0.03 to 0.06% Bi 0.01 to 0.10% Other admixtures: max. 0.10% pb Rest, to shield against the action of artificial ionizing radiation and to prevent corrosion of the lead base material as well as to avoid direct contact of workers with the lead base material.

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