A multilayered bullet resistant member, including a three-layered structure formed of a metal-ceramic crack arrest reflecting layer, a fiber-elastomer composite energy absorbing layer and a two-dimensional fabric blunt trauma protective layer sequentially overlapped with each other. The integration of performances of all the components guarantees high strength, hardness and good impact toughness of the bullet resistant member.

A landscape edging for use on a stone surface, the edging solving the problem that known edging has a poor shaping effect, is higher in cost and cannot satisfactorily harmonize with vegetation. The landscape edging comprises an edging body, the edging body having flexibility, and an outer wall thereof being provided with a decoration layer made of stone granules. When in use, an isolation belt can satisfactorily harmonize with the surrounding environment, and has a certain flexibility, can achieve better shaping, has a better usage effect and is a good substitute for an existing landscape edging.

A thermal lamination apparatus for manufacturing a film-laminated metal plate is disclosed. The thermal lamination apparatus includes an uncoiling unit from which a metal plate coil is uncoiled, a metal plate descent tower including a platform and a metal plate discharge portion formed in the platform, an ascent induction unit for guiding a metal plate unwound from the metal plate coil to a region above the platform, a vertical descent induction unit for inducing the metal plate to descend vertically through the metal plate discharge portion, a heating unit disposed below the platform to heat the metal plate, a film supply unit for supplying a film to at least one surface of the metal plate heated by the heating unit, a lamination unit for pressing the heated metal plate and the film to acquire a film-laminated metal plate, and a re-coiling unit for re-coiling the film-laminated metal plate.

An insulated metal substrate (IMS) and a method for manufacturing the same are disclosed. The IMS includes an electrically conductive line pattern layer, an encapsulation layer, a first adhesive layer, a second adhesive layer, and a heat sink element. The encapsulation layer fills a gap between a plurality of electrically conductive lines of the electrically conductive line pattern layer. An upper surface of the encapsulation layer is flush with an upper surface of the electrically conductive line pattern layer. The first and second adhesive layer are disposed between the electrically conductive line pattern layer and the heat sink element. A bonding strength between the first adhesive layer and the second adhesive layer is greater than 80 kg/cm.sup.2.

Methods for adhering a substrate onto a surface of a ceramic component are provided. The method may include applying a first bond coating onto an attachment surface of the substrate, applying a first alumina coating onto the first bond coating on the attachment surface of the substrate, applying a second bond coating onto an outer surface of the ceramic component, applying a second alumina coating onto the second bond coating on the attachment surface of the substrate, applying a cement onto at least one of the first alumina coating and the second alumina coating, and adhering the attachment surface of the substrate onto the outer surface of the ceramic component. Connections between a metal substrate and a ceramic matrix composite component are also provided.

Methods for adhering a substrate onto a surface of a ceramic component are provided. The method may include applying a first bond coating onto an attachment surface of the substrate, applying a first alumina coating onto the first bond coating on the attachment surface of the substrate, applying a second bond coating onto an outer surface of the ceramic component, applying a second alumina coating onto the second bond coating on the attachment surface of the substrate, applying a cement onto at least one of the first alumina coating and the second alumina coating, and adhering the attachment surface of the substrate onto the outer surface of the ceramic component. Connections between a metal substrate and a ceramic matrix composite component are also provided.

A display device includes a display panel; a supporter disposed on a surface of the display panel; and an adhesive layer disposed between the supporter and the display panel, wherein the supporter includes metal layers spaced apart from each other; and a cushion layer surrounding the metal layers, the adhesive layer includes a first area overlapping the metal layers in a vertical direction to the display panel; and a second area not overlapping the metal layers in the vertical direction to the display panel, and a modulus of the second area of the adhesive layer is larger than a modulus of the first area of the adhesive layer.

A method for manufacturing a sandwich panel for a vehicle includes: etching a sheet, which etches one surface of a metal sheet; pressing the sheet, which forms a pattern of a specific shape on the one surface of the metal sheet; laminating a pair of the metal sheets; and performing injection-molding by injecting a plastic resin into the laminated pair of the metal sheets. The method may improve the bonding performance of the sandwich panel, thereby improving the degree of freedom of shape due to the press-molding.

A method of producing a laminated article comprising placing a first metal skin, a core, and a second metal skin freely onto each other as discreet layers to provide a layered component; and forming the layered component into a shaped article via a die prior to producing a laminated article by applying pressure and heat to the shaped article, wherein at least the first skin moves relative to the core and/or second skin during the forming.

A method of forming a laminated metallic structure including (1) nesting metallic preformed components to form a preform, each one of the components includes first and second side portions, wherein a portion of the second side portion is substantially perpendicular to a portion of the first side portion, and a third side portion, wherein at least a portion of the third side portion is substantially perpendicular to at least a portion of the first and second side portions, the third side portion is discontinuous with the first side portion, and adjacent edges of the first and third side portions are parallel, and the components are nested so that the adjacent edges of the first and third side portions are substantially perpendicular to the adjacent edges of the first and third side portions of another one of the components; and (2) bonding the components together.