USRE46797EExpiredUtility
Chemically bonded ceramic radiation shielding material and method of preparation
Est. expiryDec 6, 2025(expired)· nominal 20-yr term from priority
G21F 1/06C04B 2235/5436C04B 2235/3481C04B 2235/3472C04B 2235/3298C04B 2235/3272C04B 2235/3229C04B 2235/3217C04B 2235/3215C04B 2235/3212C04B 2235/3206C04B 2235/32C04B 2111/00258C04B 35/6313C04B 35/6309C04B 35/6306C04B 35/447C04B 35/195C04B 35/19C04B 28/342H05K 9/0081C04B 14/368C04B 14/308C04B 14/303C04B 14/30C04B 22/064C04B 14/304C04B 14/34C04B 14/047G21F 1/00
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References
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Claims
Abstract
A composition of matter and method of forming a radiation shielding member at ambient temperatures in which the composition of matter includes a ‘cold-fired’ chemically bonded oxide-phosphate ceramic cement matrix; with one or more suitably prepared and distributed radiation shielding materials dispersed in the ‘cold-fired’ chemically bonded oxide-phosphate ceramic cement matrix.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A composition of matter comprising:
a chemically bonded oxide-phosphate based ceramic matrix; and
a radiation shielding material, wherein the radiation shielding material is dispersed
in the chemically bonded oxide-phosphate based ceramic matrix in an amount of 40%-75% 50%-70% by weight and the radiation shielding material is selected from the group consisting of barium oxide, barium sulfate, cerium oxide, tungsten, tungsten oxide, gadolinium, gadolinium oxide, depleted uranium oxide, wherein the oxide-phosphate based ceramic matrix is MgHPO4·3H2O MgHPO 4 ⋅3H 2 O (magnesium hydrogen phosphate trihydrate), or wherein the oxide-phosphate ceramic matrix includes at least two different metal phosphates.
2. The composition of matter of claim 1 wherein the at least two different metal phosphates are selected from the group consisting of KH 2 PO 4 (potassium dihydrogen phosphate), MgHPO 4 (magnesium hydrogen phosphate), Fe 3 (PO 4 ) 2 (iron(II) phosphate), Fe 3 (PO 4 ) 2. 8H 2 O Fe 3 (PO 4 ) 2 ⋅8H 2 O (iron(II) phosphate octahydrate), FePO 4 (iron(III) phosphate), FePO 4. 2H 2 O FePO 4 ⋅2H 2 O (iron(III) phosphate dihydrate), AlPO 4 (aluminum phosphate), A1PO 4. 1.5H 2 O AlPO 4 ⋅1.5H 2 O (aluminum phosphate hydrate), CaHPO 4 (calcium hydrogen phosphate), CaHPO 4. 2H 2 O CaHPO 4 ⋅2H 2 O (calcium hydrogen phosphate dihydrate), BiPO 4 (bismuth phosphate), CePO 4 (cerium(III) phosphate), CePO 4. 2H 2 O CePO 4 ⋅2H 2 O (cerium(III) phosphate dihydrate), GdPO 4.H2 O GdPO 4 ⋅H 2 O (gadolinium phosphate hydrate), BaHPO 4 (barium hydrogen phosphate), and UPO 4 (depleted uranium (U-238) phosphate).
3. The composition of matter of claim 1 wherein the radiation shielding material is formed as at least one or more of the aggregates or powders dispersed in the oxide-phosphate ceramic.
4. The composition of matter of claim 1 wherein the at least two different metal phosphates are selected from the group consisting of magnesium hydrogen phosphate, iron(III) phosphate, aluminum phosphate, calcium hydrogen phosphate, bismuth phosphate, cerium(III) phosphate, gadolinium phosphate, and barium hydrogen phosphate.
5. The composition of claim 1 , comprising at least two radiation-shielding materials to form a multiple layer structure, wherein the at least two radiation-shielding materials are in separate layers of the multiple layer structure.
6. A method of constructing chemically bonded oxide-phosphate based ceramic matrix radiation shielding at ambient temperature, comprising:
providing a mixture of comprising:
(a) magnesium oxide, or at least two a metal oxides selected from the group consisting of aluminum oxide, magnesium oxide, iron(III) oxide;, iron(II) oxide and calcium oxide;
(b) a phosphate containing material;
(c) a radiation shielding material selected from the group consisting of barium oxide, barium sulfate, cerium oxide, tungsten oxide, tungsten, gadolinium oxide, gadolinium, depleted uranium oxide, wherein the radiation shielding material is in an amount of 50%-70% by weight; and
(d) a sparsely soluble silicate selected from the group consisting of calcium silicate (CaSiO 3 ), magnesium silicate (MgSiO 3 ), barium silicate (BaSiO 3 ), sodium silicate (NaSiO 3 ), lithium silicate (LaSiO 3 ), and serpentinite (Mg64.O10.{OH8}) (Mg 64 ⋅O 10 ⋅{OH 8 });
adding an activator to the mixture; and
allowing the mixture of the radiation shielding material, metal oxide, phosphate containing material in an amount of 40%-75% by weight and the sparsely soluble silicate to cure at ambient temperature.
7. The method of constructing a radiation shielding member at temperature conditions of claim 6 wherein curing occurs at less than 100° C. (one hundred degrees Celsius).
8. The method of constructing a radiation-shielding member at ambient temperature of claim 6 wherein the phosphate containing material is phosphoric acid.
9. The method of claim 6 wherein the activator is water or an acid.
10. A composition formed from a mixture comprising:
magnesium oxide, or at least two metal oxides selected from the group consisting of magnesium oxide, iron(III) oxide;, iron(II) oxide and calcium oxide;
a phosphate-containing material;
a radiation shielding material selected from the group consisting of: barium oxide, barium sulfate, cerium oxide, tungsten, tungsten oxide, gadolinium, gadolinium oxide, and depleted uranium oxide;
wherein the radiation shielding material is in an amount of 40%-75% 50%-70% by weight; and a sparsely soluble silicate selected from the group consisting of calcium silicate (CaSiO 3 ), magnesium silicate (MgSiO 3 ), barium silicate (BaSiO 3 ), sodium silicate (NaSiO 3 ), lithium silicate (LaSiO 3 ), and serpentinite (Mg 64 .O 10 .{OH 8 }) (Mg 64 ⋅O 10 ⋅{OH 8 });
wherein the composition mixture forms a chemically bonded oxide phosphate ceramic matrix upon activation.
11. The mixture of claim 9 10 wherein the phosphate-containing material is potassium dihydrogen phosphates phosphate, phosphoric acid, or potassium monohydrogen phosphate.
12. The mixture of claim 9 wherein the metal oxide is magnesium oxide, and the phosphate-containing material is potassium dihydrogen phosphate;
and the radiation shielding material is barium sulfate.
13. The mixture of claim 9 wherein the metal oxide is magnesium oxide, and the phosphate-containing material is potassium dihydrogen phosphate;
and the radiation shielding material is depleted uranium oxide.
14. A method of shielding radiation emitting from a radiation source, comprising obstructing the radiation using a composition according to claim 10.Join the waitlist — get patent alerts
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