Provided is a laminate having, on a substrate, a gel layer which is excellent in heat resistance, has low elastic modulus, low stress and is excellent in stress buffering properties and flexibility, is soft and excellent in holding property of electronic components before curing, and after curing, the gel layer is changed to a hard cured layer which is higher in shape retention and excellent in mold releasability than before curing, and a method for manufacturing the same. Also provided is a method for manufacturing an electronic component in which use of the laminate makes it difficult to cause problems such as deposits of silicone gel or a cured product thereof to a substrate or an electronic component, and makes it difficult to cause problems of defects or defective products of the electronic component. The laminate includes a curing reactive silicone gel layer on at least one type of substrate.

An impact force dampening and defusing structure includes a plurality of components arranged in a grid array. A component has a three-dimensional geometric shape that includes an impact receiving surface area and an impact defusing surface area. The impact defusing surface area is larger than, and a distance d from, the impact receiving surface area. The component includes a material composition and, when an impact force strikes the impact receiving surface area of the component and the impact force dampening and defusing structure is in position to protect a body part, the component contributes to reducing pressure on the body part based on the material composition, the distance d, the impact receiving surface area, and the impact defusing surface area.

A method includes forming a film, forming a first pattern of two or more vias at least partially through the film, attaching the film to a first support structure, the first support structure comprising an adhesive layer formed over a first carrier, wherein attaching the film to the first support structure comprises bonding a first surface of the film to the adhesive layer of the first support structure, wherein the film is stretchable in at least a first direction along the first surface, and wherein the first carrier maintains the first pattern of vias within a given threshold distortion following a given process conducted after attaching the film to the first support structure.

Arrangements described herein relate to systems, apparatuses, and methods for a disposable kit containing medical items configured for a medical device including a head cradle to support a head of a subject, the disposable kit includes a container that encloses a head cradle pad configured to be affixed to the head cradle, at least one fiducial marker configured to be disposed on a location at the head of the subject, and at least one enclosure configured to cover a portion of the medical device.

A lens protective film includes a base layer, a buffer layer, and a protective layer. The buffer layer and the protective layer are laminated on the base layer. The base layer includes a main body and a first handle extending from the main body. An opening is defined in each of the main body and the buffer layer. The openings of the main body and the buffer layer overlap to form the receiving structure. The receiving structure is used to receive a raised part of a lens. The lens protective film can prevent the buffer layer and the protective layer from being broken and generating debris.

Fireworthy sealants may have a variety of compositions and be made by a variety of techniques. In certain implementations, a fireworthy sealant may include a body comprised of a cured, tacky, soft, deformable non-adhesive gel. The gel body may have an upper surface, a lower surface, and a perimeter, wherein the upper and lower surfaces of the gel body, in an uncompressed state, define a body thickness. The sealant may, in an uncompressed state, be dimensioned to fit in a first opening between a wall and an aircraft component surface and deformable when under compression to fit in a second opening, smaller than the first opening. The sealant may be flame retardant and produce low smoke density and low smoke toxicity.

Method and apparatus for fabricating an anti-fatigue mat are disclosed. In one embodiment an anti-fatigue mat includes a foam member and a gel member, wherein each member exhibits a different durometer. The foam member includes a gel receiver that is configured with a geometry shaped to receive the gel member. A top fabric is situated on the top of the mat above the gel member and the foam member. A non-slip surface is provided on the bottom of the anti-fatigue mat. The gel member may be sealed within the mat by the foam member and the top fabric.

A dressing includes a drape, a pressure-sensitive acrylic-based adhesive on a skin-facing surface of the drape, an island of absorbent material, a silicone gel backing film, a silicone gel on the silicone gel backing film, and a release liner. The drape is a thin film capable of maintaining a negative pressure underneath the drape upon application of a vacuum. The island of absorbent material has a smaller area than the drape and is applied onto the skin-facing surface of the drape. The silicone gel backing film has a frame shape and a smaller footprint than the drape and a larger footprint than the island of absorbent material. The release liner has a larger area than the drape. The release liner is coated with a fluorosilicone release coating, which is in contact with the pressure-sensitive acrylic-based adhesive on the drape and is in contact with the silicone gel.

The presented invention is directed to an apparatus and methods of thermal treatment for a body and/or limb of a subject. Embodiments of the invention include a composite for maintaining temperature and moisture levels surrounding the body or limb to which the composite may be applied. A preferred embodiment of the invention includes a moisture retention material, a temperature retention material, and a vapor barrier material.

A removable apparatus prevents movement of jewelry when worn by a user. The removable apparatus has a length of material having a first surface located opposite a second surface. The length of material has an adhesive layer connected to the first surface of the length of material. The adhesive layer is configured to connect to an inner wall surface of a piece of jewelry. At least a portion of the removable apparatus is configured to contact a user when being worn by a user. The removable apparatus can have a plurality of slits or a plurality of perforations traversing the removable apparatus to circulate air flow between a user and the piece of jewelry. The removable apparatus can have a layer of moisturizer connected to the second surface of the length of material and may have a protruding structure extending from the second surface of the length of material.