A magazine holster is a unitary body that includes an inner cavity configured to receive a magazine. A firearm holster that is a unitary body that includes an inner cavity configured to receive a firearm. The inner cavity includes a first end and a second end opposite of the first end. The holster includes a first opening into the inner cavity adjacent to the second end of the unitary body and a second opening into the inner cavity adjacent to the second end of the unitary body. The firearm holster includes an internal shoulder positioned within the inner cavity. The unitary body selectively retains a firearm positioned within the inner cavity as a force is applied to the firearm by the internal shoulder. The holster may be an elastomer, a thermoplastic elastomer, ethylene vinyl acetate, rubber, silicon, or a combination thereof. The holster may be comprised of ethyl vinyl acetate.

Embodiments pertain to a protective packaging assembly configured to be placed within a container and for receiving a plurality of explosive devices, the protecting packaging assembly comprising: a protective holder unit comprising: a plurality of receiving spaces which are arranged at different heights relative to each other with respect to a reference plane. The plurality of receiving spaces may have a mating profile that matches a profile portion of at least one of the plurality of the explosive devices to be placed in the plurality of receiving spaces.

Embodiments pertain to a protective packaging assembly configured to be placed within a container and for receiving a plurality of explosive devices, the protecting packaging assembly comprising: a protective holder unit comprising: a plurality of receiving spaces which are arranged at different heights relative to each other with respect to a reference plane. The plurality of receiving spaces may have a mating profile that matches a profile portion of at least one of the plurality of the explosive devices to be placed in the plurality of receiving spaces.

Devices and methods for blast/fire containment are disclosed herein. Devices include containers designed to contain and/or mitigate high energy events such as blasts from explosions or thermal runaways. The containers include a body that is built to define an interior chamber shaped to receive an explosive device or a device susceptible to thermal runaway. The container comprises a plurality of substructures that are arranged in a layered sequence to provide the desired effect. The substructures act in concert to decouple the shock load to the main containment structure using shock decoupling with energy dissipation and attenuation technology, having a highly deformable polymer structure, and managed venting. In thermally dominated events, such as a runaway LI battery fire, a crushable medium present in one or more layers of the container presents a significant thermal barrier and contains the fire.

A hazardous containment vessel is comprised of a body and a lid assembly for at least minimizing fragmentation from a low-energy explosive. The body is comprised of at least an inner liner, an outer liner, and a lock catch. The lid assembly is comprised of at least a lid, a lock plate, and a lock arm. The lock plate includes a slot for each lock arm, wherein the lock arm passes through the slot, and wherein the lock arm is capable of rotation caused by vertical movement of the lock plate to engage a lock catch.

A hazardous containment vessel is comprised of a body and a lid assembly for at least minimizing fragmentation from a low-energy explosive. The body is comprised of at least an inner liner, an outer liner, and a lock catch. The lid assembly is comprised of at least a lid, a lock plate, and a lock arm. The lock plate includes a slot for each lock arm, wherein the lock arm passes through the slot, and wherein the lock arm is capable of rotation caused by vertical movement of the lock plate to engage a lock catch.

A magazine holster is a unitary body that includes an inner cavity configured to receive a magazine. A firearm holster that is a unitary body that includes an inner cavity configured to receive a firearm. The inner cavity includes a first end and a second end opposite of the first end. The holster includes a first opening into the inner cavity adjacent to the second end of the unitary body and a second opening into the inner cavity adjacent to the second end of the unitary body. The firearm holster includes an internal shoulder positioned within the inner cavity. The unitary body selectively retains a firearm positioned within the inner cavity as a force is applied to the firearm by the internal shoulder. The holster may be an elastomer, a thermoplastic elastomer, ethylene vinyl acetate, rubber, silicon, or a combination thereof. The holster may be comprised of ethyl vinyl acetate.

An ammunition storage compartment includes a plurality of connected walls defining an interior region to store ammunition, wherein at least one of the walls includes an outer armor plate having an outer surface and an inner surface. A layer of energy absorbing material is located proximate the inner surface of the armor plate in the interior region. A spall mitigating panel is located inward of the layer of energy absorbing material in the interior region. At least one air gap is in between the layer of energy absorbing material and the spall mitigating panel.

An ammunition storage compartment includes a plurality of connected walls defining an interior region to store ammunition, wherein at least one of the walls includes an outer armor plate having an outer surface and an inner surface. A layer of energy absorbing material is located proximate the inner surface of the armor plate in the interior region. A spall mitigating panel is located inward of the layer of energy absorbing material in the interior region. At least one air gap is in between the layer of energy absorbing material and the spall mitigating panel.

A bullet-resistant transit case includes a casing with inner sidewalls, a rack frame suspended within the casing by a mounting device, and plurality of ballistic panels attached to respective inner sidewalls of the casing by a support device. Adjacent inner sidewalls form inner side edges. The mounting device engages the rack frame from these inner side edges. The supporting device cooperates with the rack frame and mounting device for holding the ballistic panels in place. The supporting device can be brackets with a base portion connecting to the inner side edges and limb attached to adjacent ballistic panels. A end lid and an opposite end lid, with a respective end ballistic panel and opposite end ballistic panel, can be included for a sealed inner volume with bullet-resistant properties within the transit case.