Patent Number: 
Section: claims

1. A radiation protective material, comprising:at least one layer of fibrous material with composite filaments, wherein the filaments are structured in a regular pattern to form the radiation protective material, wherein the filaments comprises a radiopaque composite material including a radiopaque substance, wherein the radiopaque substance is mixed within the composite material and substantially evenly distributed within the composite material, wherein the radiopaque substance is substantially evenly distributed over the entire cross section of the filament, from a center to a surface of the filament, and said filaments are made of a mixture of the radiopaque substance and an organic polymer matrix, such that radiopaque substance is embedded within the organic polymer matrix, wherein the radiopaque substance comprises at least one metal in oxidized form, elemental form, as an alloy, or in salt form in combination with the organic polymer matrix, and wherein the organic polymer matrix comprises at least one of polyvinyl, polyolefin, and polyacetate;wherein the fibrous material is a woven regular pattern having 15-30 filaments per centimeter;wherein an amount of the radiopaque substance of the filaments is more than 25% by weight less than 90% by weight of the total weight of the filaments;wherein each filament forms a single filament yarn;wherein the fibrous material comprises a first group of filaments and a second group of filaments, wherein the filaments of the first group are arranged in parallel in a first plane with gaps in-between the filaments of the first group, and the filaments of the second group are arranged in parallel in a second plane with gaps in-between the filaments of the second group, and wherein gaps are provided to permit airflow between a filament of the first group and neighboring filaments of the second group, and wherein each filament of the second group has a diameter sized to partially overlap two filaments of the first group along the length of the filaments and to cover the gap between the two filaments of the first group,the filaments have a diameter in the range of 0.5 mm to 1.5 mm; andwherein said combination of woven regular pattern, filaments per centimeter, amount of radiopaque substance and filament diameter together provide said at least one layer with a radiopacity that permits penetration of not more than about 60% of X-ray radiation when exposed at 100 kV and 10 mAs charge in combination with a water-vapor resistance of up to 25 Ret. 2. The material according to claim 1, wherein:the at least one metal comprises at least one of actinium, antimony, barium, bismuth, bromine, cadmium, cerium, cesium, gold, iodine, indium, iridium, lanthanum, lead, mercury, molybdenum, osmium, platinum, pollonium, rhenium, rhodium, silver, strontium, tantalum, tellurium, thallium, thorium, tin, wolfram, and zirconium. 3. The material according to claim 1, wherein the fibrous material comprises a structure that allows for air to penetrate through the material, wherein the air permeability of a single layer of the radiation protective material is in the range of about 20 mm/s to 2000 mm/s, when measured using a pressured difference of 1 mbar. 4. The material according to claim 3, wherein the air permeability of a single layer of the radiation protective material is in the range of about 50 mm/s to 1500 mm/s, when measured using a pressure difference of 1 mbar. 5. The material according to claim 4, wherein the air permeability of a single layer of the radiation protective material is in the range of 100 mm/s to 750 mm/s, when measured using a pressure difference of 1 mbar. 6. The material according to claim 1, wherein at least one of a warp and a weft of the woven fibrous material comprises the radiopaque substance. 7. The material according to claim 6, wherein the weft comprises a filament made from recycled radiation protective garment, and the warp comprises non-radiation protective material. 8. The material according to claim 6, wherein the warp and the weft comprise the radiopaque substance. 9. A garment for use in radiation protection, wherein the garment comprises one or several layers of the radiation protective material of claim 1. 10. The garment according to claim 9, wherein the garment is a garment for medical applications. 11. The garment according to claim 10, wherein the garment is at least one of an apron, pant, jacket, vest, skirt, collar to protect the thyroid from radiation, sleeve, glove, trousers, coat, or cap. 12. The garment according to claim 10, wherein the garment comprises 1 to 10 layers of the radiation protective material. 13. The material according to claim 1, wherein a remaining part of the filament comprises an organic matrix including process additives and dye. 14. The material according to claim 1, wherein the filaments have a diameter in the range of 0.6 mm to 1 mm. 15. The material according to claim 1, wherein the material is an ionizing radiation protective material. 16. The material according to claim 1, wherein:the at least one metal comprises at least one of actinium, antimony, barium, bismuth, bromine, cadmium, cerium, cesium, gold, iodine, indium, iridium, lanthanum, lead, mercury, molybdenum, osmium, platinum, pollonium, rhenium, rhodium, silver, strontium, tantalum, tellurium, thallium, thorium, tin, wolfram, and zirconium. 17. The material according to claim 1, wherein said composite filaments are made of a mixture of the radiopaque substance and an organic polymer matrix, such that radiopaque substance is embedded within the organic polymer matrix. 18. The material according to claim 1, wherein said material has an electromagnetic radiation attenuation that is equivalent to a layer of metallic lead having a thickness of at least 0.10 mm. 19. The material according to claim 1, wherein the at least one metal comprises antimony. 20. The material according to claim 1, wherein the at least one metal comprises lead. 21. The material according to claim 1, wherein the at least one metal comprises wolfram. 22. A garment formed of plural said layers of radiation protective material according to claim 1, wherein said garment has a water-vapor resistance below 90 Ret and a radiopacity that permits penetration of not more than about 10% of X-ray radiation when exposed at 100 kV and 10 mAs charge. 23. The radiation protective material according to claim 1, further comprising at least six said layers, wherein said material has a radiopacity that permits penetration of not more than about 10% of X-ray radiation when exposed at 100 kV and 10 mAs charge. 24. A radiation protective material, comprising:at least one layer of fibrous material, said at least one layer comprising composite filaments with 15-30 filaments per centimeter and a filament diameter in the range of 0.5 mm to 1.5 mm, wherein the filaments are structured in a regular pattern to form the radiation protective material, wherein the fibrous material comprises a first group of filaments and a second group of filaments, wherein the filaments of the first group are arranged in parallel in a first plane with gaps in-between the filaments of the first group, and the filaments of the second group are arranged in parallel in a second plane with gaps in-between the filaments of the second group, and wherein gaps are provided to permit airflow between a filament of the first group and neighboring filaments of the second group, and wherein each filament of the second group has a diameter sized to partially overlap two filaments of the first group along the length of the filaments and to cover the gap between the two filaments of the first group, wherein the filaments comprise a radiopaque composite material including a radiopaque substance, wherein the radiopaque substance is substantially evenly distributed over the entire cross section of the filament, from a center to a surface of the filament, and said filaments are made of a mixture of the radiopaque substance and an organic polymer matrix, such that radiopaque substance is embedded within the organic polymer matrix, wherein the radiopaque substance comprises at least one metal in oxidized form, elemental form, as an alloy, or in salt form in combination with the organic polymer matrix;wherein said fibrous material, said filaments per centimeter, said filament diameter, said filament structure and said radiopaque composite material in combination provides said at least one layer with a radiopacity that permits penetration of not more than about 60% of X-ray radiation when exposed at 100 kV and 10 mAs charge and water-vapor resistance of up to 25 Ret. 25. The material according to claim 24, wherein the at least one metal comprises antimony. 26. The material according to claim 24, wherein the at least one metal comprises lead. 27. The material according to claim 24, wherein the at least one metal comprises wolfram. 28. The material according to claim 24, wherein the fibrous material comprises a structure that allows for air to penetrate through the material, wherein the air permeability of a single layer of the radiation protective material is in the range of about 20 mm/s to 2000 mm/s, when measured using a pressure difference of 1 mbar. 29. The material according to claim 28, wherein the air permeability of a single layer of the radiation protective material is in the range of about 50 mm/s to 1500 mm/s, when measured using a pressure difference of 1 mbar. 30. The material according to claim 24, wherein the fibrous material is a woven regular pattern. 31. The material according to claim 30, wherein the air permeability of a single layer of the radiation protective material is in the range of 100 mm/s to 750 mm/s, when measured using a pressure difference of 1 mbar. 32. The material according to claim 24, wherein an amount of the radiopaque substance of the filaments is more than 25% by weight less than 90% by weight of the total weight of the filaments. 33. The material according to claim 24, wherein the filaments have a diameter in the range of 0.6 mm to 1 mm. 34. A garment for use in radiation protection, wherein the garment comprises one or several layers of the radiation protective material of claim 24. 35. The garment according to claim 34, wherein the garment comprises 1 to 10 layers of the radiation protective material. 36. The material according to claim 24, wherein the at least one metal comprises barium sulfate. 37. A radiation protective material, comprising at least one layer of fibrous material with composite filaments structured in a regular pattern to form the at least one layer of radiation protective material, wherein:the filaments are woven in a regular pattern with structure that allows for air to penetrate through the material with an air permeability in a single layer in the range of about 20 mm/s to 2000 mm/s, when measured using a pressure difference of 1 mbar;the filaments are made of a mixture of at least one radiopaque metal in oxidized form, elemental form, as an alloy, or in salt form embedded within an organic polymer matrix,the at least one radiopaque metal comprises one of barium sulfate, antimony, lead or wolfram and is substantially evenly distributed over the entire cross section of the filaments, from a center to a surface of the filaments;the organic polymer matrix comprises at least one of copolymers of polyvinyl, polyolefin and polyester;an amount of radiopaque metal of the filaments is more than 25% by weight less than 90% by weight of the total weight of the filaments; andthe filaments have a diameter in the range of 0.5 mm to 1.5 mm, and a distribution comprising 15-30 of said composite filaments per centimeter per layer of said material;wherein the fibrous material comprises a first group of filaments and a second group of filaments, wherein the filaments of the first group are arranged in parallel in a first plane with gaps in-between the filaments of the first group, and the filaments of the second group are arranged in parallel in a second plane with gaps in-between the filaments of the second group, and wherein gaps are provided to permit airflow between a filament of the first group and neighboring filaments of the second group, and wherein each filament of the second group has a diameter sized to partially overlap two filaments of the first group along the length of the filaments and to cover the gap between the two filaments of the first group, andwherein said woven regular pattern, said mixture of at least one radiopaque material within the organic polymer matrix, said at least one radiopaque metal, and said filament diameter and distribution in combination provide said at least one layer with a radiopacity that permits penetration of not more than about 60% of X-ray radiation when exposed at 100 kV and 10 mAs charge. 38. The radiation protective material according to claim 37, wherein said at least one layer has a water-vapor resistance of up to 25 Ret. 39. The radiation protective material according to claim 37, further comprising at least six said layers, wherein said material has a radiopacity that permits penetration of not more than about 10% of X-ray radiation when exposed at 100 kV and 10 mAs charge.