A method for manufacturing oil-in-water emulsions for parenteral administration as well as to the use of such emulsions in the treatment or prevention of malnutrition and/or a deficiency in essential fatty acids and/or EPA and DHA and or stroke, sepsis, Alzheimer's disease or cancer.

A protective film press using commercially available anti-graffiti film for the production of a multi-layer protective film. The invention provides a relatively simple and economical manufacturing device and method to produce a multi-layer protective film which has historically required expensive and complex methods and equipment. The protective film press comprising a frame chassis, a plurality of mounting assemblies detachably attached to the frame chassis, first and second motorized pull roller assemblies repositionably mounted on the frame chassis, a pair of pressure rollers that pneumatically press the anti-graffiti films into a vertically stacked multi-layer configuration, and at least one alignment roller repositionably mounted on the frame chassis. A preferred embodiment of present invention also includes means for controlling the speed at which the first and second motorized pull roller assemblies operate and also a means for providing pressure for the pair of pressure rollers.

A protective film press using commercially available anti-graffiti film for the production of a multi-layer protective film. The invention provides a relatively simple and economical manufacturing device and method to produce a multi-layer protective film which has historically required expensive and complex methods and equipment. The protective film press comprising a frame chassis, a plurality of mounting assemblies detachably attached to the frame chassis, first and second motorized pull roller assemblies repositionably mounted on the frame chassis, a pair of pressure rollers that pneumatically press the anti-graffiti films into a vertically stacked multi-layer configuration, and at least one alignment roller repositionably mounted on the frame chassis. A preferred embodiment of present invention also includes means for controlling the speed at which the first and second motorized pull roller assemblies operate and also a means for providing pressure for the pair of pressure rollers.

Provided is a multilayer co-extruded film comprising at least two different elasticity layers with at least one first elasticity layer and at least one second elasticity layer having higher elasticity than the at least one first elasticity layer, wherein the first elasticity layer comprises a combination of an olefin-based elastomer and a crystalline olefin polymer, and wherein the residual strain after 100% elongation during 10 min at 23° C. of the multilayer co-extruded film is less than 15%.

Provided is a multilayer co-extruded film comprising at least two different elasticity layers with at least one first elasticity layer and at least one second elasticity layer having higher elasticity than the at least one first elasticity layer, wherein the first elasticity layer comprises a combination of an olefin-based elastomer and a crystalline olefin polymer, and wherein the residual strain after 100% elongation during 10 min at 23° C. of the multilayer co-extruded film is less than 15%.

An vacuum adiabatic body includes a first plate, a second plate, and a support configured to maintain a vacuum space between the first and second plates. The support includes a support plate supported on an inner surface of one of the first plate and the second plate and a bar extending from the support plate. The bar contacts an inner surface of the other of the first plate and the second plate. The one end of the bar has a cross-section less than that of the other end of the bar.

At least one braided composite layer configured to form a first ply may be provided. A plurality of slit tapes may be arranged and aligned such that each slit tape is adjacent to one another and non-overlapping, to form a second ply. A hybrid composite laminate may be formed by stacking a plurality of plies that includes at least one first ply and at least one second ply. Each slit tape may be a steered unidirectional composite slit tape that is aligned along an axis, contour line, or curve of the hybrid composite laminate, a mold/tooling used to shape the laminate, or the resulting composite part. Hybrid composite laminates may be formed by stacking at least one first ply formed of a braided composite layer and at least one second ply formed from a plurality of slit tapes. Composite parts may be formed by consolidating such hybrid composite laminates.

At least one braided composite layer configured to form a first ply may be provided. A plurality of slit tapes may be arranged and aligned such that each slit tape is adjacent to one another and non-overlapping, to form a second ply. A hybrid composite laminate may be formed by stacking a plurality of plies that includes at least one first ply and at least one second ply. Each slit tape may be a steered unidirectional composite slit tape that is aligned along an axis, contour line, or curve of the hybrid composite laminate, a mold/tooling used to shape the laminate, or the resulting composite part. Hybrid composite laminates may be formed by stacking at least one first ply formed of a braided composite layer and at least one second ply formed from a plurality of slit tapes. Composite parts may be formed by consolidating such hybrid composite laminates.

A glass laminate, in which an inorganic laminated film having a total thickness of 90 to 500 nm is laminated on a surface of a glass plate with an adhesive film including a resin film interposed therebetween, a carbon-containing film thinner than the inorganic laminated film is attached to a surface of the inorganic laminated film, a storage elastic modulus of an outermost surface on the inorganic laminated film side that is measured by a nanoindentation method using a flat punch indenter under conditions of 1 Hz and 28° C. is 50 MPa to 30 GPa, and a loss coefficient of the outermost surface on the inorganic laminated film side that is measured by the nanoindentation method using the flat punch indenter under conditions of 1 Hz and 28° C. is 0.005 to 0.14.

There is provided a laminate in which when the protective plate breaks due to an impact, not only the scattering of large broken pieces but the scattering of powdery fine broken pieces can be suppressed. A laminate including an adherend and an adjacent layer, wherein the adherend has a first major surface, a second major surface being a back surface of the first major surface, and a lateral surface connecting an edge of the first major surface and an edge of the second major surface, at least the first major surface and the lateral surface of the adherend are covered with the adjacent layer, the adjacent layer has at least a plastic film and a hard coat layer containing a cured product of a curable resin composition in this order from the adherend side, and a softening point F1 of the plastic film and a softening point F2 of the hard coat layer satisfy a relationship of F1<F2.