A shielding system includes a plurality of transportable modules, wall panels, or pods that are connectable to form a containment area and to define a radiation barrier. Each of the plurality of transportable modules has a first radiation wall defining the containment area, a second radiation wall spaced apart from the second wall, and a radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall. The radiation shielding fill material includes one of a superabsorbent polymer (SAP) filling a portion of a void between the first radiation wall and the second radiation wall, or a non-Newtonian fluid completely filling the void between the first radiation wall and the second radiation wall. A quantity of the radiation shielding fill material is sufficient to substantially reduce measurable radiation level outside the containment area.

In one embodiment, a flashing system is provided for fortifying seams between a first blast, ballistic, and forced entry resistant shelter module and a second blast, ballistic, and forced entry resistant shelter module. The system includes a first side flashing assembly for fortifying a first side seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module, a top flashing assembly for fortifying a top seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module, and a second side flashing assembly for fortifying a second side seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module. The system can also include fastening assemblies for coupling the flashing assemblies with the blast, ballistic, and forced entry resistant shelter modules.

In one embodiment, a flashing system is provided for fortifying seams between a first blast, ballistic, and forced entry resistant shelter module and a second blast, ballistic, and forced entry resistant shelter module. The system includes a first side flashing assembly for fortifying a first side seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module, a top flashing assembly for fortifying a top seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module, and a second side flashing assembly for fortifying a second side seam between the first blast, ballistic, and forced entry resistant shelter module and the second blast, ballistic, and forced entry resistant shelter module. The system can also include fastening assemblies for coupling the flashing assemblies with the blast, ballistic, and forced entry resistant shelter modules.

A compactable and portable shelter can include side panels, front and rear panels roof panels and a spine panel that are hingedly connected by continuous hinges in a manner that enables the panels to collapse onto each other and into a small profile unit for ease of transport, deployment and recovery. A window and door can be formed in at least one front or rear wall panel. Support brackets can hold wall panels upright at ninety degrees with respect to floor panels. A solar power system can provide electrical power for lighting and electronic device charging to occupants of the shelter. Adjustable legs connected at exterior corners of the base can level the left base flow panel and the right base floor panel. Panels can be thermally insulated.

A compactable and portable shelter can include side panels, front and rear panels roof panels and a spine panel that are hingedly connected by continuous hinges in a manner that enables the panels to collapse onto each other and into a small profile unit for ease of transport, deployment and recovery. A window and door can be formed in at least one front or rear wall panel. Support brackets can hold wall panels upright at ninety degrees with respect to floor panels. A solar power system can provide electrical power for lighting and electronic device charging to occupants of the shelter. Adjustable legs connected at exterior corners of the base can level the left base flow panel and the right base floor panel. Panels can be thermally insulated.

A confinement structure comprises one or more open cells (70) for confinement, in use, of particulate fill materials such as soil, sand or aggregate. The cells (70) comprise walls (72) formed of a composite material comprising a polymeric grid layer laminated to a fabric layer. The walls (72) may be formed from a strip of the composite material comprising one or more living hinges. The cells (70) may be provided with skirt portions (74) that extend from at least some of the walls (72).

Ready armor modular protective systems that can be rapidly deployed in an urban environment. Exemplary armor systems include multiple space frame units. Adjacent space frame units can be coupled together with vertically adjustable coupling mechanisms. Coupling mechanisms (e.g. slot and pin connecting mechanisms) can facilitate relative displacement between adjacent space frame units when the units are connected. In this way, a wall of connected adjacent space frame units can be placed and/or moved along an uneven or irregular surface (e.g. having bumps or a grade) and the adjacent space frame units can remain in parallel and/or vertical orientation relative to one another. Suspension mechanisms can help to facilitate or enable rapid deployment of a ready armor modular protective system.

Ready armor modular protective systems that can be rapidly deployed in an urban environment. Exemplary armor systems include multiple space frame units. Adjacent space frame units can be coupled together with vertically adjustable coupling mechanisms. Coupling mechanisms (e.g. slot and pin connecting mechanisms) can facilitate relative displacement between adjacent space frame units when the units are connected. In this way, a wall of connected adjacent space frame units can be placed and/or moved along an uneven or irregular surface (e.g. having bumps or a grade) and the adjacent space frame units can remain in parallel and/or vertical orientation relative to one another. Suspension mechanisms can help to facilitate or enable rapid deployment of a ready armor modular protective system.

Ready armor modular protective systems that can be rapidly deployed in an urban environment. Exemplary armor systems include multiple space frame units. Adjacent space frame units can be coupled together with vertically adjustable coupling mechanisms. Coupling mechanisms (e.g. slot and pin connecting mechanisms) can facilitate relative displacement between adjacent space frame units when the units are connected. In this way, a wall of connected adjacent space frame units can be placed and/or moved along an uneven or irregular surface (e.g. having bumps or a grade) and the adjacent space frame units can remain in parallel and/or vertical orientation relative to one another. Suspension mechanisms can help to facilitate or enable rapid deployment of a ready armor modular protective system.

Ready armor modular protective systems that can be rapidly deployed in an urban environment. Exemplary armor systems include multiple space frame units. Adjacent space frame units can be coupled together with vertically adjustable coupling mechanisms. Coupling mechanisms (e.g. slot and pin connecting mechanisms) can facilitate relative displacement between adjacent space frame units when the units are connected. In this way, a wall of connected adjacent space frame units can be placed and/or moved along an uneven or irregular surface (e.g. having bumps or a grade) and the adjacent space frame units can remain in parallel and/or vertical orientation relative to one another. Suspension mechanisms can help to facilitate or enable rapid deployment of a ready armor modular protective system.