Forming presses and methods for forming joggled, stiffened composite structures

1 . A forming press for forming a longitudinal ridge and a joggle that crosses the longitudinal ridge in a multi-ply composite charge, the forming press comprising: a joggled die with a die face that has a die face longitudinal ridge and a die face joggle that crosses the die face longitudinal ridge; a conforming die with a series of longitudinally-spaced die fingers and a die support that operatively supports the die fingers, wherein each die finger includes a pair of laterally-spaced die members that is configured to move laterally between a closed position and an open position, each die member configured to tilt longitudinally, and each die member biased toward the joggled die; and a support frame that supports the joggled die and the conforming die; wherein the forming press is configured to accept a multi-ply composite charge between the joggled die and the conforming die, and to form a composite structure by pressing the multi-ply composite charge between the joggled die and the conforming die. 2 . The forming press of claim 1 , wherein the forming press is configured to concurrently form the joggle and the longitudinal ridge in the multi-ply composite charge. 3 . The forming press of claim 1 , wherein each die finger is configured to conform, in longitudinal tilt and transverse displacement, to a local surface of the joggled die when the multi-ply composite charge is pressed between the joggled die and the conforming die. 4 . The forming press of claim 1 , wherein each die member is coupled to an alignment mechanism configured to substantially constrain angular motion of the die member to longitudinal tilt. 5 . The forming press of claim 1 , wherein the die face joggle has a joggle offset that is less than 10 mm, and wherein the die face joggle has a joggle length that is less than 150 mm. 6 . The forming press of claim 1 , wherein at least a portion of the die face of the joggled die is porous, and wherein the die face of the joggled die is configured to hold the multi-ply composite charge with vacuum force. 7 . The forming press of claim 1 , wherein each die member is configured to tilt longitudinally at an angle having an absolute value of less than 5°. 8 . The forming press of claim 1 , wherein the die support is elastically, laterally coupled to each die finger. 9 . The forming press of claim 1 , wherein the conforming die includes one die base for each die member, with each die base coupled to a different die member, wherein each die base is coupled to the die support and configured to support at least one die member. 10 . The forming press of claim 1 , wherein the conforming die includes a die base coupled to the die support and configured to support at least one die member, and wherein the at least one die member is elastically coupled to the die base. 11 . The forming press of claim 1 , wherein the conforming die includes a die base coupled to the die support and configured to support at least one die member, and wherein the conforming die includes a spring that couples the at least one die member to the die base. 12 . The forming press of claim 1 , wherein, for each die finger, the die members of the pair of die members are biased toward the closed position. 13 . The forming press of claim 1 , wherein the conforming die includes at least 6 die fingers. 14 . The forming press of claim 1 , wherein the longitudinal ridge formed in the multi-ply composite charge includes two spaced-apart side walls, and wherein at least one die member includes a joggled die guide that is configured to form a portion of one of the side walls. 15 . The forming press of claim 1 , wherein each die member includes a die face that is configured to release the multi-ply composite charge after pressing in the forming press. 16 . The forming press of claim 1 , wherein each die member includes a die face, wherein at least a portion of the die face of each die member is porous and configured to hold the multi-ply composite charge with vacuum force. 17 . A forming press for concurrently forming a longitudinal ridge and a joggle that crosses the longitudinal ridge in a multi-ply composite charge, the forming press comprising: a joggled die with a die face that has a die face longitudinal ridge and a die face joggle that crosses the die face longitudinal ridge; a conforming die with a series of longitudinally-spaced die fingers and a die support that operatively supports the die fingers, wherein each die finger includes a pair of laterally-spaced die members that is configured to move laterally between a closed position and an open position, each die member configured to tilt longitudinally, and each die member biased toward the joggled die, and wherein, for each die finger, the die members of the pair of die members are biased toward each other and the die members are further away from each other in the open position than in the closed position; and a support frame that supports the joggled die and the conforming die; wherein the forming press is configured to accept a multi-ply composite charge between the joggled die and the conforming die, and to form a composite structure by pressing the multi-ply composite charge between the joggled die and the conforming die; wherein the forming press is configured to apply tension to the multi-ply composite charge in proximity of the die face joggle, and optionally in proximity of the die face longitudinal ridge. 18 . The forming press of claim 17 , wherein each pair of die members in the open position forms a recess between the die members that is configured to accept the multi-ply composite charge in contact with the die face longitudinal ridge of the joggled die. 19 . The forming press of claim 17 , wherein each die member includes a die face, wherein at least a portion of each die face is porous and configured to hold the multi-ply composite charge with vacuum force. 20 . A conforming die member assembly, comprising: a die member with a die face and a joggled die guide tapering from the die face, wherein the die face is configured to hold a multi-ply composite charge with vacuum force; a die base elastically coupled to the die member, opposite the die face, with a spring that biases the die member and the die base away from one another; and an alignment mechanism that extends along a transverse axis between the die member and the die base and that is coupled to the die member and the die base; wherein the die member is configured to tilt, relative to the die base, around a lateral axis, perpendicular to the transverse axis, and to translate, relative to the die base, along an axis parallel to the transverse axis, and wherein the die member is configured to tilt, relative to the die base, at an angle having an absolute value of less than 5°.