Patent Number: 042254671
Section: claims

1. A neutron absorbing article which comprises boron carbide particles in which the boron carbide content is at least 90% by weight and which are substantially all of a size to pass through a No. 20 U.S. Sieve Series screen and a solid, irreversibly cured phenol aldehyde condensation polymer cured to a continuous matrix about the boron carbide particles, with the proportion of boron carbide in the article being such that it contains at least 6% by weight of B.sup.10 from the boron carbide content thereof. 2. A neutron absorbing article according to claim 1, for use in storage racks for spent nuclear fuel, which is operable over a temperature range at which the spent nuclear fuel is stored, withstands thermal cycling from repeated spent fuel insertions and removals and withstands radiation from said spent nuclear fuel for long periods of time without losing desirable neutron absorbing and physical properties, is sufficiently chemically inert in water so as to retain neutron absorbing properties in the event of a leak allowing the entry of water into an enclosure for the neutron absorbing article in a storage rack for spent nuclear fuel and into contact with it, does not galvanically corrode and is sufficiently flexible so as to withstand operational basis earthquake and safe shutdown earthquake seismic events without loss of neutron absorbing capability and other desirable physical properties when installed in such storage rack, in which the born carbide content of the boron carbide particles is at least 94%, such particles contain no more than 2% of B.sub.2 O.sub.3 and in which article the B.sup.10 content is at least 7%. 3. A neutron absorbing article according to claim 2 in plate form, in which the phenol aldehyde condensation polymer is a phenol formaldehyde type polymer, the boron carbide particles contain at least 13% of B.sup.10 and the plate contains at least 8% thereof, the plate contains 60 to 80% of boron carbide particles and 20 to 40% of irreversibly cured phenol formaldehyde type polymer and the density of the plate is in the range of about 1.2 g./cc. to about 2.3 g./cc. 4. A neutron absorbing plate according to claim 3 wherein the boron carbide particle content is from 65 to 80%, the phenol formaldehyde type polymer content is from 20 to 35%, the B.sup.10 content is from 8.5 to 11.5%, the phenol formaldehyde type polymer continuously covers the boron carbide particles at the plate surfaces and fills openings between such particles and the density of the plate is from 1.6 to 2.1 g./cc. 5. A neutron absorbing article according to claim 2, in plate form, in which the thickness is from 0.2 to 1 cm., the width is from 10 to 100 times the thickness and the length is from 20 to 500 times the thickness, the modulus of rupture (flexural) is at least 100 kg./sq. cm. at room temperature, 38.degree. C. and 149.degree. C., the crush strength is at least 750 kg./sq. cm. at 38.degree. C. and 149.degree. C., the modulus of elasticity is less than 3.times.10.sup.5 kg./sq. cm. at 38.degree. C., and the coefficient of thermal expansion at 66.degree. C. is less than 1.5.times.10.sup.-5 cm./cm. .degree. C. 6. A neutron absorbing plate according to claim 5 wherein the phenol formaldehyde type polymer is substantially free of halogens, mercury, lead and sulfur and the boron carbide particles contain no more than 1% of B.sub.2 O.sub.3. 7. A neutron absorbing plate according to claim 6 wherein over 50% of the phenol formaldehyde type polymer is trimethylol phenol formaldehyde polymer, the boron carbide particles contain no more than 2% of iron and the plate is substantially free of filler, plasticizer and solvent. 8. A neutron absorbing plate according to claim 7 wherein the boron carbide particles are of particle sizes such that at least 95% thereof passes through a No. 60 U.S. Sieve Series screen and at least 50% thereof passes through a No. 120 U.S. Sieve Series screen, the boron carbide particle content of the plate is from 65 to 80%, the phenol formaldehyde type polymer content is from 20 to 35%, the B.sup.10 content is from 8.5 to 11.5%, the phenol formladehyde type polymer continuously covers the boron carbide particles at the plate surface and fills openings between such particles and the density of the plate is from 1.6 to 2.1 g./cc. 9. A neutron absorbing plate according to claim 8 consisting essentially of the described boron carbide particles and phenol formaldehyde type polymer. 10. An assembly of a plurality of neutron absorbing articles according to claim 1 in a container for nuclear material positioned at such locations as to absorb neutrons emitted by such nuclear material. 11. An assembly according to claim 10 wherein the neutron absorbing articles are installed in a container for spent nuclear fuel between locations therein where such spent nuclear fuel is stored and out of contact with said fuel. 12. An assembly according to claim 11 of a plurality of neutron absorbing plates according to claim 3 in a storage rack for spent nuclear fuel which is to be stored in elongated vertical volumes in an aqueous medium, with the neutron absorbing plates being positioned between such locations of the volumes of spent nuclear fuel and being kept out of contact with locations for said aqueous medium by enclosures for said neutron absorbing plates. 13. An assembly according to claim 11 of a plurality of neutron absorbing plates according to claim 9 in a storage rack for spent nuclear fuel which is to be stored in elongated vertical volumes in an aqueous medium of acidic or neutral pH, with the neutron absorbing plates being positioned between such locations of the volumes of spent nuclear fuel and being kept out of contact with locations for said aqueous medium by enclosures for said neutron absorbing plates. 14. A method of absorbing neutrons from nuclear material which comprises interposing between such material and its surroundings a neutron absorbing article of boron carbide particles and a solid irreversibly cured phenolic polymer matrix about said particles, with the proportion of boron carbide in the structure being such that it contains at least 6% of B.sup.10 from the boron carbide content thereof. 15. A method according to claim 14 wherein the neutron absorbing article is in plate form, a plurality of such plates is present in a container for nuclear material and the plates contain at least 7% of B.sup.10 from the boron carbide content thereof. 16. A neutron absorbing article which comprises boron carbide particles of a B.sub.2 O.sub.3 content no more than 2% and a solid, irreversible phenolic polymer cured to a continuous matrix about the boron carbide particles.