A method of forming tungsten tetraboride, by combining tungsten and boron in a molar ratio of from about 1:6 to about 1:12, respectively, and firing the combined tungsten and boron in the hexagonal boron nitride crucible at a temperature of from about 1600 C to about 2000 C, to form tungsten tetraboride.

A method of forming tungsten tetraboride, by combining tungsten and boron in a molar ratio of from about 1:6 to about 1:12, respectively, and firing the combined tungsten and boron in the hexagonal boron nitride crucible at a temperature of from about 1600 C to about 2000 C, to form tungsten tetraboride.

A neutron beam shielding gypsum-based building board includes gypsum, a boron-containing material containing boron an amount of which is in a range from 1.0 parts by mass to 120 parts by mass with respect to 100 parts by mass of the gypsum, and a water reducing agent in a range from 0.05 parts by mass to 2.0 parts by mass with respect to 100 parts by mass of the gypsum. The boron-containing material includes one or more kinds selected from calcium borate, boron carbide, boric acid, boron oxide, sodium borate, and calcium boride, and a specific gravity in a dry condition is in a range from 0.65 to 1.6.

Composition, manufactures, and processes of making and using them, consisting essentially of a neutron absorbent, having a neutron absorption cross section greater than or equal to Boron comprising at least 19.7% of Boron-10 isotope, and a thermal conductor having a thermal conductivity of at least 10% of water thermal conductivity at 100 degrees C. at sea level, combined such that the particles have a density of at least 0.9982 g/mL and not more than 2.0 g/ml. The composition can be located for release responsive to a loss of normal heat sink event and/or a loss of normal coolant event in a quantity sufficient, to palliate the loss of the normal heat sink event and/or the loss of normal coolant event.

Composition, manufactures, and processes of making and using them, consisting essentially of a neutron absorbent, having a neutron absorption cross section greater than or equal to Boron comprising at least 19.7% of Boron-10 isotope, and a thermal conductor having a thermal conductivity of at least 10% of water thermal conductivity at 100 degrees C. at sea level, combined such that the particles have a density of at least 0.9982 g/mL and not more than 2.0 g/ml. The composition can be located for release responsive to a loss of normal heat sink event and/or a loss of normal coolant event in a quantity sufficient, to palliate the loss of the normal heat sink event and/or the loss of normal coolant event.

A method of forming tungsten tetraboride, by combining tungsten and boron in a molar ratio of from about 1:6 to about 1:12, respectively, and firing the combined tungsten and boron in the hexagonal boron nitride crucible at a temperature of from about 1600 C to about 2000C, to form tungsten tetraboride.

A shielding member for use in sterilizing drug container assemblies includes a housing. The housing includes a first shielding portion and a second shielding portion. The first shielding portion includes a first and second surfaces and a plurality of first bore portions extending between. The second shielding portion having a first and second surfaces and a plurality of second bore portions corresponding to and aligned with the plurality of first bore portions. The first and second bore portions cooperate to form a plurality of receptacles including a plurality of openings in the first surface of the first shielding portion of the housing. The receptacles are sized and configured to receive drug container assemblies, each comprising a container with a container contact region and a seal member disposed adjacent the container contact region to seal the contents of the container at a sealing interface, such that each drug container assembly is exposed out of the housing through one of the openings.

A shielding member for use in sterilizing drug container assemblies includes a housing. The housing includes a first shielding portion and a second shielding portion. The first shielding portion includes a first and second surfaces and a plurality of first bore portions extending between. The second shielding portion having a first and second surfaces and a plurality of second bore portions corresponding to and aligned with the plurality of first bore portions. The first and second bore portions cooperate to form a plurality of receptacles including a plurality of openings in the first surface of the first shielding portion of the housing. The receptacles are sized and configured to receive drug container assemblies, each comprising a container with a container contact region and a seal member disposed adjacent the container contact region to seal the contents of the container at a sealing interface, such that each drug container assembly is exposed out of the housing through one of the openings.

Disclosed is an anti-radiation viewing port intended to be fitted to a wall opening provided in a wall which separates a space subjected to ionising radiation, the space being called a hot space, and a space which is not subjected to ionising radiation, the space being called a cold space. This anti-radiation viewing port includes a screen which is made from transparent radio-protective material and which is associated with a peripheral attachment frame. A joint structure is positioned between a rebate periphery wing of the peripheral attachment frame, and a peripheral screen edge; and the front screen face of the screen made of transparent radio-protective material, the front joint face of the joint structure and at least a portion of the outer face of an attachment wing which extends in continuation of the front joint face are located in the same plane or substantially in the same plane.

Disclosed is an anti-radiation viewing port intended to be fitted to a wall opening provided in a wall which separates a space subjected to ionising radiation, the space being called a hot space, and a space which is not subjected to ionising radiation, the space being called a cold space. This anti-radiation viewing port includes a screen which is made from transparent radio-protective material and which is associated with a peripheral attachment frame. A joint structure is positioned between a rebate periphery wing of the peripheral attachment frame, and a peripheral screen edge; and the front screen face of the screen made of transparent radio-protective material, the front joint face of the joint structure and at least a portion of the outer face of an attachment wing which extends in continuation of the front joint face are located in the same plane or substantially in the same plane.