Automated system and method for forming a laminated structure

What is claimed is: 1. A method of forming a laminated structure, the method comprising steps of: orienting a first panel and a backing layer secured to the first panel into a backing-separation orientation relative to an edge-engagement tool, wherein the first panel is made of an uncured pre-impregnated fiber-reinforced polymer and the backing layer is secured to a first-panel broad surface of the first panel via a backing-to-panel tack force between the backing layer and the uncured pre-impregnated fiber-reinforced polymer of the first panel; positioning the first panel into a backing-separation position relative to the edge-engagement tool; moving the edge-engagement tool, relative to the first panel and when the first panel is in the backing-separation orientation and the backing-separation position, so that backing-engagement features of the edge-engagement tool engage the backing layer, at only an edge portion of the backing layer, and just the edge portion of the backing layer separates from the first panel; stacking the first panel onto a second panel, made of the uncured pre-impregnated fiber-reinforced polymer, such that the first panel is secured directly to the second panel via a panel-to-panel tack force between the uncured pre-impregnated fiber reinforced polymer of the first panel and the uncured pre-impregnated fiber-reinforced polymer of the second panel, and the first panel and the second panel form the laminated structure; compressing together and heating the first panel and the second panel after the first panel is stacked onto the second panel such that the uncured pre-impregnated fiber-reinforced polymer is cured; and after the step of compressing and heating the first panel and the second panel, applying a primer layer onto an outer surface of one of the first panel or the second panel and applying ink onto the primer layer. 2. The method according to claim 1 , further comprising removing the backing layer from the first-panel broad surface of the first panel after just the edge portion of the backing layer separates from the first panel, wherein the step of stacking the first panel onto the second panel comprises stacking the first panel onto the second panel such that the first-panel broad surface is secured directly to a second-panel broad surface of the second panel via the panel-to-panel tack force. 3. The method according to claim 1 , wherein: each one of the first panel and the second panel comprises a plurality of plies in a stacked arrangement; each one of the plurality of plies of the first panel and the second panel comprises unidirectional fibers; and the plurality of plies of at least one of the first panel and the second panel consists of four plies including a first ply, where the unidirectional fibers are oriented at 0°, a second ply, where the unidirectional fibers are oriented at +45°, a third ply, where the unidirectional fibers are oriented at 90°, and a fourth ply, where the unidirectional fibers are oriented at −45°. 4. The method according to claim 1 , wherein: each one of the first panel and the second panel comprises a plurality of plies in a stacked arrangement; each one of the plurality of plies of the first panel and the second panel comprises unidirectional fibers; and the plurality of plies of both the first panel and the second panel consists of four plies including a first ply, where the unidirectional fibers are oriented at 0°, a second ply, where the unidirectional fibers are oriented at +45°, a third ply, where the unidirectional fibers are oriented at 90°, and a fourth ply, where the unidirectional fibers are oriented at −45°. 5. The method according to claim 1 , wherein: each one of the first panel and the second panel comprises a plurality of plies in a stacked arrangement; each one of the plurality of plies of the first panel and the second panel comprises unidirectional fibers; and the plurality of plies of at least one of the first panel and the second panel consists of four plies each having unidirectional fibers oriented at 0°. 6. The method according to claim 1 , further comprising a step of adjusting a distance, in a stacked direction that is perpendicular to the first-panel broad surface when the first panel is stacked onto the second panel, between the edge-engagement tool and the second panel prior to the step of moving the edge-engagement tool. 7. The method according to claim 1 , wherein: each one of the first panel and the second panel comprises a plurality of plies in a stacked arrangement; and the method further comprises steps of: ultrasonically cutting a sheet, made of the uncured pre-impregnated fiber-reinforced polymer, into the plurality of plies; stacking a first set of the plurality of plies to form the first panel; and stacking a second set of the plurality of plies to form the second panel. 8. The method according to claim 1 , further comprising steps of: roughening the outer surface of the one of the first panel or the second panel to form a roughened outer surface; and cleaning the roughened outer surface to form a cleaned-roughened outer surface; wherein the primer layer is applied onto the cleaned-roughened outer surface. 9. The method according to claim 1 , further comprising a step of compression molding a polymeric layer onto the primer layer and over the ink to form a laminated structure. 10. The method according to claim 9 , further comprising a step of cutting the laminated structure to form a cut laminated structure having a predefined shape. 11. The method according to claim 10 , wherein the cut laminated structure is a strike plate of a golf club head. 12. The method according to claim 9 , wherein: each one of the first panel and the second panel comprises a plurality of plies in a first stacked arrangement; the first panel and the second panel form part of the laminated structure; the laminated structure comprises between, and inclusive of, 20 plies and 80 plies in a second stacked arrangement; and each one of the plies of the laminated structure is made of a cured pre-impregnated fiber-reinforced polymer. 13. The method according to claim 12 , wherein a thickness of each one of the plies of the laminated structure is such that a total thickness of the laminated structure is between, and inclusive of, 3 mm and 6.5 mm. 14. The method according to claim 13 , wherein: a bulge radius of the laminated structure is between, and inclusive of, 224 mm and 355 mm; a roll radius of the laminated structure is between, and inclusive of, 224 mm and 355 mm; and the method further comprises a step of attaching the laminated structure to a body of a golf club head having a volume of between, and inclusive of, 390 cubic centimeters (cc) and 490 cc. 15. The method according to claim 14 , wherein the laminated structure comprises at least 60 plies in the second stacked arrangement. 16. The method according to claim 14 , wherein the ink is applied onto the primer layer using at least one of a halftone printing technique, a relief printing technique, a thermal transfer printing technique, an inkjet printing technique, a single pass inkjet printing technique, and a pad printing technique. 17. The method according to claim 12 , wherein the laminated structure is one of a crown insert or a sole insert of a golf club head. 18. The method according to claim 12 , further comprising attaching the laminated structure to a body of a golf club head and over an opening formed in the body of the golf club head to close the opening. 1