Abstract: Systems and methods for controlling the temperature of items such as a sample in a vessel or a specimen, in a thermal bath using thermally efficient pellets as the thermal media. The pellets are typically oblong metallic or oblong metallic-coated pellets with rounded edges, a hardened surface, a smooth polished finish, and characteristics that enable efficient thermal communication between the bath's thermal source, the pellets, and the items that are inserted into the mass of pellets. Further, the pellets are dry and moisture and gas impermeable, and they resist microbial growth and are readily decontaminated by several methods including applying an antimicrobial compound to the pellets. The thermal source is controlled to achieve the desired temperature of the items inserted into the pellets.

Abstract: Feedthroughs for antenna or other cables are described. At least some versions of the feedthroughs may, but need not necessarily, be employed as part of passive armor systems for lightweight vehicles used by, for example, special operations forces of the United States military. The feedthroughs may provide non-linear cable paths in areas near openings of vehicle hulls and avoid creating direct pathways for bullets to enter the openings.

Abstract: A composite case for a computing device comprising a first portion to protect and detachably connect to a display portion. The first portion may have perimetral fasteners disposed on its edges. A second portion is for protecting and detachably connecting to an input device portion of the computing device. The second portion may have perimetral fasteners disposed on its edges. The display and input device portions can be detachably connected to each other through a multi-pivot hinge unit operable to rotate about one or more computing device axes defined between the display and input device portions to move the computing device between open and closed states. A hinge cover portion can be connected to the first portion operable to detachably receive and surround the multi-pivot hinge of the computing device. A protective shell can be formed between first and second portions.

Abstract: Disclosed herein are embodiments of a releasably engagable system of ballistic-resistant panels including a first ballistic-resistant panel having opposing first ballistic-resistant panel front and back surfaces and a second ballistic-resistant panel having opposing second ballistic-resistant panel front and back surfaces. Additionally, the embodiments of the releasably engagable systems of ballistic-resistant panels include at least one of fasteners, an adhesive coating, or a securement element, all of which function to releasably engage the second ballistic-resistant panel front surface with the first ballistic-resistant panel back surface in fixed adjacent relation to provide releasably engaged ballistic-resistant panels. Further, disclosed herein are embodiments of a ballistic-resistant garment configured to receive an embodiment of the releasably engaged ballistic-resistant panels.

Abstract: An aircraft cargo door shield releasably attachable to an aircraft cargo door and configured for protecting an aircraft cargo door during loading and unloading of cargo. The aircraft cargo door shield includes a panel configured for covering a portion of an external skin of the cargo door, and one or more fastening or attachment mechanisms configured for releasably holding the panel adjacent to the cargo door during use. The aircraft cargo door shield may include upper attachment mechanisms having elongated hooks that may engage an upper edge of the aircraft cargo door. Some or all of the attachment mechanisms may be coupled to tension members to retain the engagement of the attachment mechanisms to the aircraft cargo door during use.

Abstract: A system for protecting an electronic device and securely and conveniently carrying tangible portable contents therewith. The system may include a resilient portion dimensioned to detachably receive the electronic device by a continuous perimetral edge. The electronic device may be secured thereto by an inwardly extending, retaining lip of the perimetral edge. A rigid portion may be detachably connected to a rear surface of the resilient portion opposite the electronic device. The rigid portion may be dimensioned to shield at least part of the rear surface of the rigid portion. A cavity may be defined between the rigid portion and the rear surface of the resilient portion when the rigid portion is in a closed position. The cavity is operable to secure the tangible contents in the closed position and receive the tangible contents in an opened position.

Abstract: A pressure impulse mitigating barrier including a crosslinked gel, the gel including water and gelatin which has been crosslinked using a functional silane compound, the compound including an electrophilic group (where the electrophilic group is not a silane) and a group of formula (B) where R is a C1-10 alkyl group, C6-10 aryl group, or C7-12 arylalkyl group; R? is a C1-10 alkyl group, C6-10 aryl group, or C7-12 arylalkyl group; n is 0-1, and where the functional silane has Mw of 800 g/mol or less.

Abstract: A method for producing a semiconducting organic film comprising the steps: preparing a first mixture comprising a first organic semiconducting material of type p having a molar mass of less than or equal to 2,000 g·mol?1 and a first organic semiconducting material of type n having a molar mass of less than or equal to 2,000 g·mol?1, adding a second organic semiconducting material to the first mixture to form a second mixture, wherein the second organic semiconducting material is one or more polymers having a molar mass greater than or equal to 10,000 g·mol?1, and forming the organic film from the second mixture.

Abstract: A medical kit carrier (1) that is integrated or attachable to a body armor vest (9). Straps (15) of the body armor vest may be attached to hook and loop fastener (12) located on a front surface (13) of the medical kit carrier. A pouch (16) located in the medical kit carrier used for storing supplies, such as medical supplies, may be easily removed from the medical kit carrier using a pull strap (17) that is looped around a bottom edge (18) of the pouch. When a tab (19) on the pull strap is pulled, the pull strap lifts the pouch out of the medical kit carrier.

Abstract: Disclosed herein are embodiments of a releasably engagable system of ballistic-resistant panels including a first ballistic-resistant panel comprising a ceramic plate system, the first ballistic-resistant panel having opposing first ballistic-resistant panel front and back surfaces; and a second ballistic-resistant panel having opposing second ballistic-resistant panel front and back surfaces. Additionally, the embodiments of the releasably engagable systems of ballistic-resistant panels include at least one of fasteners, an adhesive coating, or a securement element, all of which function to releasably engage the second ballistic-resistant panel front surface with the first ballistic-resistant panel back surface in fixed adjacent relation to provide releasably engaged ballistic-resistant panels.

Abstract: An armor system that includes a first armor article that includes a plurality of energy-dispersion objects arranged in a predetermined configuration, wherein the plurality of energy-dispersion objects includes a plurality of hollow objects, and wherein at least some of the plurality of hollow objects are filled with an inner filler material; and a lock mechanism configured to hold the plurality of energy-dispersion objects in the predetermined configuration. A method for manufacturing an armor system, the armor system including a first armor article, the method including producing a plurality of hollow hemispheres; affixing pairs of the plurality of hemispheres to one another to form a first plurality of spheres; treating each one of the plurality of hemispheres with an anti-ballistic treatment; inserting a filler material into each one of the plurality of hemispheres; and locking the first plurality of spheres into a predetermined configuration.

Abstract: A case for a computing device includes a rear support surface that is operatively coupled to a perimetral edge that securely engages with a perimetral edge of the computing device. A support stand may be in communication with the rear support surface, wherein the stand is operable to move between one or more elevations. The rear support surface and the perimetral edge may substantially or entirely shield a rear surface of the computing device. The support stand may include a stand mechanism with support and pivot portions, the support portion operable to communicate with a corresponding mounting surface and the pivot portion operable to pivot the support stand between a closed state and one or more elevations.

Abstract: Armor systems are described. Armor systems include an armor that includes a container, in which the container includes a bottom, a top and sides and is enclosed, hollow spheres that are placed in a stack in the container, explosive that is wrapped around each of the hollow spheres in the container, in which the explosive-wrapped spheres substantially fill the container.

Abstract: Systems and methods for controlling the temperature of items such as a sample in a vessel or a specimen, in a thermal bath using thermally efficient pellets as the thermal media. The pellets are typically oblong metallic or oblong metallic-coated pellets with rounded edges, a hardened surface, a smooth polished finish, and characteristics that enable efficient thermal communication between the bath's thermal source, the pellets, and the items that are inserted into the mass of pellets. Further, the pellets are dry and moisture and gas impermeable, and they resist microbial growth and are readily decontaminated by several methods including applying an antimicrobial compound to the pellets. The thermal source is controlled to achieve the desired temperature of the items inserted into the pellets.

Abstract: A protective clothing system for protecting a user from high velocity particles and lacerating objects. The protective clothing system generally includes a clothing item having a front portion and a rear portion. The front portion of the clothing item is constructed of three to fifteen sheets of protective material to protect the front portion of the body of the user from high velocity particles and lacerating objects. The rear portion of the clothing item may have no protective material or significantly less sheets of protective material compared to the front portion to help reduce the weight of the clothing item. The joints of the clothing item corresponding to the human joints are relatively free moving to provide increased mobility to the user.