A shoulder transfer weight support generally having a hip or waist belt, a back support, and one or more shoulder extensions. The back support has an upper back plate attached to the shoulder extensions and a lower back plate attached to one or more hip belts. The lower back plate features a bracket shaped to receive an end of the attachment bar that joins it to the upper back plate. A spring-loaded plunger can be inserted into the attachment bar to allow for height adjustment of the device. A face shield at least partially made of a radiopaque material and can attach to the back support. One attachment option is a yoke mount with vertical sections at either end of the yoke mount. A second option involves a mount that attaches to the shoulder extension(s). The device can use a full face shield or a face shield with an open front.

A personal radiation protective device comprising a radiation barrier and an outer covering that covers the radiation barrier; the outer cover made from a material herein one or more edges of the outer covering are welded together.

A personal radiation protective device comprising a radiation barrier and an outer covering that covers the radiation barrier; the outer cover made from a material herein one or more edges of the outer covering are welded together.

A material for reducing exposure to ionizing radiation. One exemplary embodiment comprises a felt layer; a foil layer; a first adhesive film layer disposed between the outer felt layer and the foil layer; a radiation shield layer; a second adhesive film layer disposed between the foil layer and radiation shield layer; and a foam layer disposed on the surface of the radiation shield layer opposite the second adhesive film layer. The material may be installed in commercial aircraft, corporate aircraft, flight suits, helmets, military uniforms, rotary aircraft, spacecraft, and the like. For example, the material disclosed herein may be provided as a headliner in an aircraft, or alternatively may be used to line the entire interior of an aircraft. In one or more embodiments, the material may be secured to a surface using a hook and loop attachment mechanism.

A composite material that prevents the emission of the radiation and a production method thereof. The composite material which prevents the emission of the radiation mainly includes boric acid, sodium pentaborate, barium sulphate, tribasic lead sulphate, zeolite, zinc borate as anti-odour and/or gas suppressor, at least one thermoset component for hardness ability or thermoplastic component for flexibility ability and preferably magnesium oxide, barium titanate and titanium dioxide.

Composite materials that may include particles of an inorganic material and an elastic polymer. The composite materials may be in the form of a flexible film. The composite materials may provide radiation shielding. Articles on or in which a composite material is disposed. Methods of forming composite materials.

Composite materials that may include particles of an inorganic material and an elastic polymer. The composite materials may be in the form of a flexible film. The composite materials may provide radiation shielding. Articles on or in which a composite material is disposed. Methods of forming composite materials.

A composite multi-axial impact protection liner for a helmet is provided that reduces rotational acceleration, rotational strain rate, and rotational strain that cause concussions. In a protective helmet so equipped, one or more layers of fluid polymer, including strain thinning and strain thickening polymers, are positioned between the wearer's head and a hard helmet shell. The liner offers greater injury protection, performance, and personal comfort using the rate dependent and combined effect of strain thinning and strain thickening of fluid polymer layers.

[Object] To provide a radiation shielding material that includes a resin composition obtained by filling a matrix formed of resin with a radiation-absorbing substance and is capable of obtaining a structure in which transparency is significantly improved as compared with the conventional radiation shielding material while having a radiation shielding effect similar to that of the conventional radiation shielding material.

[Solving Means] A radiation shielding material includes: a resin composition containing a proportion of 20 to 80 vol % of fluoride powder containing barium as a constituent element. The fluoride powder is favorably barium fluoride or lithium barium fluoride, the resin favorably has a refractive index (n) of 1.4 to 1.6, and particularly, a difference between a refractive index of the resin and a refractive index of the fluoride powder is favorably within ±0.05.

[Object] To provide a radiation shielding material that includes a resin composition obtained by filling a matrix formed of resin with a radiation-absorbing substance and is capable of obtaining a structure in which transparency is significantly improved as compared with the conventional radiation shielding material while having a radiation shielding effect similar to that of the conventional radiation shielding material.

[Solving Means] A radiation shielding material includes: a resin composition containing a proportion of 20 to 80 vol % of fluoride powder containing barium as a constituent element. The fluoride powder is favorably barium fluoride or lithium barium fluoride, the resin favorably has a refractive index (n) of 1.4 to 1.6, and particularly, a difference between a refractive index of the resin and a refractive index of the fluoride powder is favorably within ±0.05.