Abstract: A twisted resin panel includes resin material that has been heated and twisted after being subject to heat and/or pressure. In one implementation, a manufacturer can clamp opposing ends of a resin panel, such as a panel comprising a one or more layers thermoformed together. The manufacturer can then elevate the resin panel, and twist at least one end of the resin panel to achieve a desired aesthetic. Upper securing means (e.g., vertical clamps, rig hardware) at the upper end of the resin panel can be configured to move up or down during the twist of the resin panel in order to accommodate length variations thereof. Upon twisting, the resin panel will then cool into the desired position, and thus be used for any number of decorative architectural purposes. Implementations of the invention further include means to mount a twisted panel to upper and lower support surfaces.

Abstract: A decorative architectural panel can be formed using multiple image layers to create one or more three-dimensional effects in a final product. In particular, a reference image layer comprises an extruded sheet having an artistically-designed reference image formed thereon. A next image layer comprises an extruded sheet having a differently sized iteration of the artistically designed reference image. A manufacturer can place the next image layer over the reference image layer, and set the combined image layers such that the final product shows the artistically-designed image in three-dimensions. Additional image layers, such as a color layer, or a layer having embedded objects, can be combined with the stratified product for additional artistic effects.

Abstract: A variable angle standoff in accordance with an implementation of the present invention includes one or more bearing interfaces, which, in concert with other beveled components (e.g., beveled rings), fastens about a wide range of panel and/or object dimensions. In one implementation, a threaded fastener is inserted through a first bearing interface, which interfaces with a first beveled ring. The threaded fastener further threads through one or more panel and/or object eyelets, through a second beveled ring, through a second bearing interface, and ultimately into a standoff shaft. Despite relatively tight fastening of the threaded fastener to the standoff shaft, the first and second beveled rings can accommodate object curvature by rotating in any of an X, Y, and/or Z dimension, as needed.

Abstract: Implementations of the present invention relate to a translucent and/or transparent polymer-based panel system that incorporates multi-colored insert layers that enable manipulation of color, transparency or light transmission of the finished panel system. Implementations of the present invention also relate to the construction of such panels to avoid the capture and retention of air within the panels through the use of textured surfaces at the lamination interfaces. In addition, implementations of the present invention provide a method of quantifying the optical response achieved in a given panel system and describes types of construction that enable the multiplicity of color and optic manipulation. Furthermore, implementations of the present invention provide methods for applying texture in an efficient, uniform manner.

Abstract: A decorative laminate panel comprises compressible objects embedded inside, wherein the compressible objects would be flattened in unnatural shapes under conventional processes. For example, an exemplary decorative laminate product comprises thatch reed, willow reed, bamboo, weeds, grasses, twigs and branches of a tree or bush, beans, and so forth. In at least one exemplary implementation of the present invention, an extruded sheet, such as PETG or polycarbonate, is softened and melted around the compressible materials such that the compressible materials do not deform. Imperfections in the decorative laminate panel can be easily removed, thereby allowing for producing a high quality decorative laminate panel with high efficiency and relatively low cost compared with conventional methods and materials.

Abstract: Implementations of the present invention relate to systems, methods, and apparatus for manufacturing aesthetically pleasing, post-formable, reparable decorative architectural resin panels having a thin or brittle veneer layer such as thinly sliced natural wood or stone. In particular, at least one implementation includes a flat or curved decorative resin panel made with a natural wood veneer layer whose structural integrity has been maintained despite being subject to various heats and pressures. The resulting resin panel is at least partially translucent, and allows for a unique display both of the resin sheets used to form the panel and of the thin wood materials encapsulated therein. Additional implementations relate to the use of other brittle veneer layers, such as translucent stone, translucent metals, or the like, which also provide unique, decorative architectural, aesthetic features.

Abstract: A decorative architectural glass panel comprises a two or more glass sheets separated by a resin in which one or more decorative objects are suspended. A method of making the glass panel comprises positioning one or more spacers and one or more decorative objects on a first glass sheet, placing a second glass sheet about the first glass sheet, sealing the edges of the first glass sheet and second glass sheet, and filling the space between the first and second glass sheets with a curable liquid resin. The resin can be poured using a substantially horizontal pour in order to keep the decorative objects from substantially shifting when pouring the liquid resin. The resin can also be poured in combination with a vacuum force. In some implementations, the glass panel may also be substituted with a resin panel using polymeric resin sheets.

Abstract: A synthetic fire-resistant resin includes one or more of a polycarbonate resin material, and/or a polyester resin material mixed with a flame-retardant, such as a bis-diphenyldiphosphate flame-retardant. Alternatively, a mixture of polycarbonate resin material mixed with polyester resin material can be capped with a fire-resistant film. The resin sheet can be made at a thickness such that the resin sheet is structurally useful as a conventional building material. Furthermore the resin sheet can be made transparent, translucent, or colored, as desired for architectural purposes. The resin sheet further has a Vicat temperature that renders the extruded resin sheet easy to work with using conventional manufacturing techniques, and strong enough to be used in a wide variety of indoor and outdoor environments. In one implementation, fire-resistant resin sheets can be combined with a decorative image layer to form a decorative panel that can be used in Class A building environments.

Abstract: A decorative laminate panel comprises compressible objects embedded inside, wherein the compressible objects would be flattened in unnatural shapes under conventional processes. For example, an exemplary decorative laminate product comprises thatch reed, willow reed, bamboo, weeds, grasses, twigs and branches of a tree or bush, beans, and so forth. In at least one exemplary implementation of the present invention, an extruded sheet, such as PETG or polycarbonate, is softened and melted around the compressible materials such that the compressible materials do not deform. Imperfections in the decorative laminate panel can be easily removed, thereby allowing for producing a high quality decorative laminate panel with high efficiency and relatively low cost compared with conventional methods and materials.