Patent Number: 059088842
Section: claims

1. A radiation shielding material comprising: powder of material of high radiation absorptivity mainly having specific gravity not smaller than 12, and vulcanized rubber so that said radiation shielding material has elastic deformability for withstanding stress caused by bending, strength for withstanding heat and chemical cleaning, and a radiation shielding ability,  wherein a Fisher sub-sieve sizer particle size of said powder of material of high radiation absorptivity is not larger than 50 .mu.m and,  wherein said powder of material of high radiation absorptivity is a mixture powder containing powder having a particle size not smaller than 4 .mu.m but not larger than 100 .mu.m in a range of from 60% by weight to 95% by weight, and powder having a particle size smaller than 4 .mu.m in a range of from 5% by weight to 40% by weight.  dispersing powder of material of high radiation absorptivity mainly having specific gravity not smaller than 12 into unvulcanized rubber in advance; and  vulcanizing and forming said unvulcanized rubber into vulcanized rubber having a predetermined shape, strength for withstanding heat and chemical cleaning, deformability and flexibility for withstanding stress caused by bending and radiation shielding ability,  wherein powder having a Fisher sub-sieve sizer particle size not larger than 50 .mu.m is used as said powder of material of high radiation absorptivity, and 2. A radiation shielding material according to claim 1, wherein said powder of material of high radiation absorptivity contains at least one member selected from the group consisting of tungsten, tungsten compounds, and tungsten radical alloys. 3. A radiation shielding material according to claim 1, wherein a content of said powder of material of high radiation absorptivity is more than 80% by weight and up to 99% by weight. 4. A radiation shielding material according to claim 1, wherein said vulcanized rubber is vulcanized fluoro rubber. 5. A radiation shielding material according to claim 1, wherein said vulcanized rubber has electrical conductivity. 6. A radiation shielding material according to claim 1, wherein said powder of material of high radiation absorptivity has .gamma.-ray absorption coefficient (cm.sup.-1) in the range of about 0.7 to 1.2 when the energy of .gamma.-rays is 1.5 MeV. 7. A method of producing a radiation shielding material comprising the steps of: 8. A method for producing a radiation shielding material according to claim 7, wherein said unvulcanized rubber is unvulcanized fluoro rubber. 9. A method for producing a radiation shielding material according to claim 7, wherein an electrical conductivity addition agent is mixed in said unvulcanized rubber and said unvulcanized rubber is vulcanized and formed into a predetermined shape. 10. A method for producing a radiation shielding material according to claim 9, wherein carbon powder is added as said electrical conductivity addition agent. 11. A method for producing a radiation shielding material according to claim 7, wherein at least one member selected from the group consisting of peroxides, and polyols is used as a vulcanizing agent. 12. A method for producing a radiation shielding material according to claim 7, wherein said powder of material of high radiation absorptivity has .gamma.-ray absorption coefficient (cm.sup.-1) in the range of about 0.7 to 1.2 when the energy of .gamma.-rays is 1.5 MeV.