DE202018107193U1 - Radiation shielding coatings - Google Patents

Abstract

A composition containing a mixture of barite, copper granules, lead granules and quartz gravel.

Description

The invention provides radiation-shielding coatings, in particular terrestrial and electromagnetic radiation and / or earth radiation shielding coatings, such as screeds and floor coatings, and compositions for producing the coatings.

Terrestrial radiation is an omnipresent radiation on Earth caused by naturally occurring radionuclides in the ground. These are mainly the decay of long-lived isotopes such as thorium-232 (half-life 14 billion years), uranium-238 (half-life 4.4 billion years), uranium-235 (half life 0.7 billion years) and potassium 40 (half-life 1.3 billion years), especially gamma rays. Added to this are their radioactive decay products, such as the gaseous radon, which can escape from the ground and be inhaled. In these cases, the alpha and / or beta radiation also acts as a radiation exposure. Like any ionizing radiation, terrestrial radiation can have a damaging effect on the living cell by causing cancer or altering or destroying the genetic material. In Germany, three-quarters of the radiation exposure caused by terrestrial radiation is due to residence in buildings.

Also, people in buildings are exposed to technically generated (artificial) electrical, magnetic and electromagnetic fields ("electromagnetic radiation exposure", "electrosmog") that could have (undesired) biological effects. The compatibility of detectable immissions of electromagnetic fields for the environment, in particular the health and human acceptability, is called the concept of electromagnetic environmental compatibility (EMC). The permissible limit values are regulated in the context of electromagnetic environmental compatibility in various directives, standards and laws.

In addition, in areas of building biology, a negative influence of earth rays on the health of sensitive people is postulated. These jets of earth are caused by water veins, rock fractures and faults in the Earth's interior as well as global energy grids (Hartmann grid, Curry grid and Benker cubes grid).

From the prior art devices for shielding against earth rays and electrosmog are known. For example, shows the DE 298 11 224 U1 an equipment package to make buildings electrosmog-free. For this, materials from EMC shielding technology are combined depending on location, type of building, use, environmental conditions, etc.

Furthermore, from the DE 36 11 675 A1 a radiation protection device for the reduction of penetrating into a living space radiation is known, which proposes a multi-layer system by a combination of flat insulation layer, glass fiber layer and metallic cover layer as a shielding mattress pad.

The DE 20 2009 002 129 U1 relates to a planar radiation protection device for partial or complete shielding of earth rays comprising a metal-free synthetic glass fiber-plastic composite.

From the DE 20 2009 002 211 U1 is a shielding film against electrostatic and electromagnetic radiation and earth rays of any kind, which is made of a combination of composite films with an aluminum inner layer.

Against this background, the object of the invention is to provide coatings for floors in buildings, which shield the building interior against radiation, in particular against terrestrial radiation, electromagnetic fields and / or earth rays.

Compositions have now been found with which it is possible to produce coatings which have a shielding effect against terrestrial radiation, electromagnetic fields and earth radiation.

The invention relates to a composition for the production of coatings, in particular screeds and putties for coating floors, which contains barytes, copper granules, lead granules and quartz gravel.

In one embodiment, the mass ratio in the composition is 1 to 4 parts of baryte per 1 part of copper granules, 1 part of lead granules and 2 to 4 parts of quartz gravel.

In one embodiment, the composition contains barytes, copper granules, lead granules and quartz gravel in a mass ratio of (4 ± 0.20): (1 ± 0.05): (1 ± 0.05): (4 ± 0.20). In a specific embodiment, the mass ratio is (4 ± 0.10): (1 ± 0.03): (1 ± 0.03): (4 ± 0.10).

In another embodiment, the mass ratio is (1 ± 0.05): (1 ± 0.05): (1 ± 0.05): (2 ± 0.10).

The composition of the invention contains barite (barite, barium sulfate), metallic copper, metallic lead and quartz gravel.

In one embodiment, the composition is present as bulk material. In a specific embodiment, the grain size of the bulk material, i. the equivalent diameter of the particles of the bed which can be determined by sieve analysis, not greater than 6 mm, in particular not greater than 4 mm. This allows pneumatic delivery of the composition, e.g. with a pump through a hose. Small grains can also be mixed more easily and more evenly and do not segregate during conveying. In addition, they can be distributed more evenly in a coating.

In one embodiment, the composition contains barite (BaSO ₄ ) in a sieve grain size of 1 to 8 mm, that is, as particles having an equivalent diameter in the range of 1 to 8 mm. In a further embodiment, the particles have an equivalent diameter which is not greater than 6 mm, in particular not greater than 4 mm. In a further embodiment, the equivalent diameter of the particles is from 0 to 2 mm, ie they have a grain size of 0 to 2 mm.

In one embodiment, the composition contains copper granules of 4 to 6 mm grain size determined by sieve analysis, i.e., the particles have equivalent diameter in the range of 4 to 6 mm. Due to their copper content, the composition according to the invention can shield electromagnetic fields and earth rays particularly well.

In one embodiment, the lead granules are coated with plastic. In a specific embodiment, the composition contains plastic coated lead shot having an average particle diameter of 2 mm. The plastic sheath serves to prevent the release of toxic lead. In particular, if a screed containing the composition of the invention is used in conjunction with underfloor heating, lead heat could otherwise be released by the heat of the underfloor heating, which produces temperatures in the range of 45-50 ° C.

To coat the lead granules, a variety of engineering plastics can be used. Examples include polyolefins such as polyethylene, polypropylene and polystyrene; Polyester; polyamides; SECTION; Polyurethanes and rubbers. In one embodiment, the lead granulate is coated with a polyolefin.

In one embodiment, the composition contains quartz gravel (ie, particles having a SiO ₂ content of at least 96 mass%) with an equivalent diameter of not more than 8 mm as determined by sieve analysis. In one embodiment, the particles have an equivalent diameter in the range of 4 to 6 mm.

The invention also relates to a coating composition containing the composition according to the invention. In one embodiment, the coating composition is a screed concrete. In another embodiment, the coating composition is a putty, in particular a putty for coating floors.

The invention also provides a coating containing the composition according to the invention. In one embodiment, the coating is a screed. In another embodiment, the coating is a floor coating.

To produce a screed concrete according to the invention, the composition according to the invention is mixed with cement, sand and water. In a specific embodiment, 250 parts by mass of the composition according to the invention are mixed with 250 to 300 parts by mass of cement and 1200 parts by mass of sand, and water is added. From this, a cement screed can be produced, which corresponds to the classes CT-C25 or CT-C30 according to DIN EN 13813.

The screed of the invention is usable as any conventional screed, e.g. suitable for application to a floor heating, floating on an insulation, or on a bonding bridge.

To prepare an embodiment of the filler according to the invention, the composition according to the invention is mixed with a standard filler. The mixing ratio is about 1: 1. Suitable fillers are known in the art in principle, and may contain, for example, cement or synthetic resin as a binder.

In a variant of the production of a floor coating, the leveling compound according to the invention is applied as a layer with a thickness of 5 to 10 mm to the floor. Subsequently, the coating is cured or allowed to set.

The invention also provides a shielding against terrestrial radiation and / or electromagnetic fields and / or earth rays containing a composition according to the invention. In one embodiment, the shield comprises at least one coating of at least one floor in a building. The shield has a shielding effect against terrestrial radiation, electromagnetic fields and earth rays and can be used to shield the interior of the building against terrestrial radiation and electromagnetic fields as well as earth rays.

Further advantages and embodiments of the invention will become apparent from the description and the following embodiments.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination indicated, but also in other combinations or in isolation, without departing from the scope of the present invention.

Examples

Composition (base material for the production of coatings)

4 parts by weight of baryte (density 4.5 g / cm ³ ), 1 part by weight of copper granules (grain size 4-6 mm), 1 part by weight of coated lead shot (grain size 2 mm) and 4 parts by weight of quartz gravel (grain size 4-6 mm) were thoroughly washed mixed. The homogeneous mixture obtained was then filled into bags of 25 kg content.

• - 10 kg Baryt Schwerspat;
• - 2,5 kg Kupfergranulat;
• - 2,5 kg mit Kunststoff ummanteltes Bleischrot, und
• - 10 kg Quarzkies.

A 25 kg bag contained:

• - 10 kg barite barite;
• - 2.5 kg of copper granules;
• - 2.5 kg plastic coated lead shot, and
• - 10 kg quartz gravel.

Production of a screed concrete

In order to produce 1 m ^{3 of} screed concrete (corresponds to approx. 1,700 kg), the contents of 10 sacks, ie 250 kg of the composition according to the invention, were mixed with 250 kg of cement and 1,200 kg of sand (quartz sand).

From the mixture, a screed was prepared. The resulting cement screed corresponded to the class CT-C25 according to DIN EN 13813. The screed obtained is suitable for application to a floor heating, floating on an insulation or on a bonding agent. The coating obtained after setting the screed shields the building interior against radiation from the ground, both against terrestrial radiation and electromagnetic fields and against earth rays.

Production of a filler

To make a putty, the contents of a sack of the composition of the invention, i. 25 kg, mixed with the same amount of a commercially available cementitious filler. The resulting coating composition (putty) was applied to a floor of a building. A layer with a thickness in the range of 5 to 10 mm was produced. The shield obtained after curing of the layer shields the building interior against penetrating radiation and electromagnetic fields.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 29811224 U1 [0005]
• DE 3611675 A1 [0006]
• DE 202009002129 U1 [0007]
• DE 202009002211 U1 [0008]

Claims (12)

A composition containing a mixture of barite, copper granules, lead granules and quartz gravel. Composition after Claim 1 wherein the mixture of barite, copper granules, lead granules and quartz gravel in a mass ratio of (4 ± 0.20): (1 ± 0.05): (1 ± 0.05): (4 ± 0.20). Composition after Claim 1 wherein the mixture of barite, copper granules, lead granules and quartz gravel in a mass ratio of (1 ± 0.05): (1 ± 0.05): (1 ± 0.05): (2 ± 0.10). Composition according to one of Claims 1 to 3 in which the lead granules are coated with plastic. Composition according to one of Claims 1 to 4 , which is present as a bulk material whose particles have an equivalent diameter of not more than 6 mm determined by sieve analysis. A coating composition comprising a composition according to any one of Claims 1 to 5 contains. Coating composition according to Claim 6 which is a screed concrete. Coating composition according to Claim 6 , which is a filler. Coating which has a composition according to one of Claims 1 to 5 contains. Coating after Claim 9 which is a screed. Coating after Claim 9 which is a floor coating. Shielding against terrestrial radiation and / or electromagnetic fields and / or earth rays, which has a composition according to one of the Claims 1 to 5 contains.