Active bolster with T-shaped hot weld joining bladder with trim panel

What is claimed is: 1. An active bolster for mounting at an interior trim surface of an automotive vehicle, comprising: a plastic-molded, expandable bladder wall having concentric pleats terminating with a skirt, wherein the bladder wall includes a bilateral welding flange integrally extending from the skirt; and a plastic-molded trim wall overlying the bladder wall, wherein the bilateral welding flange forms a hot weld with the trim wall to provide an inflatable cavity for receiving an inflation gas during an impact event; wherein the bilateral welding flange includes a plate member molded to extend radially outward from the skirt and a neck member molded to extend substantially parallel with the skirt, and wherein the hot weld deflects the neck member to extend radially inward from the skirt so that the neck member is exposed to the inflatable cavity whereby a pressure from the inflation gas pushes the neck member against the trim wall. 2. The active bolster of claim 1 wherein the neck member is molded to include a plurality of relief slots configured to converge upon deflection for the hot weld. 3. The active bolster of claim 1 wherein the relief slots are V-shaped. 4. The active bolster of claim 1 wherein the trim wall has a protruding rib positioned radially inward of the hot weld to constrain an inward deflection of the neck member. 5. The active bolster of claim 1 wherein the plate member includes a peripheral lip along an outer radial edge to prevent the plate member from sliding inward during bending of the welding flange. 6. The active bolster of claim 1 wherein the trim wall includes a plurality of welding ribs incorporated into the hot weld at the plate member and the neck member. 7. An active bolster in a vehicle, comprising: a bladder wall having pleats terminating with a skirt; and a trim wall defining a cavity with the bladder wall; wherein a T-shaped hot weld is formed between the trim wall and a bilateral welding flange integrally extending from the skirt, wherein a radially inward flange section extends into the cavity so that an inflation gas introduced into the cavity presses the inward section against the hot weld. 8. A method of forming an inflatable bladder for an active bolster, comprising the steps of: injection molding a bladder wall having concentric pleats terminating with a skirt, wherein the bladder wall includes a bilateral welding flange integrally extending from the skirt, wherein the bilateral welding flange includes a plate member extending radially outward from the skirt and a neck member extending substantially parallel with the skirt; injection molding a trim wall having a welding track; engaging the welding flange with a hot plate to partially melt respective surfaces of the welding flange, wherein the hot plate has a radial surface contacting the plate member and an inclined surface contacting the neck member to rotate the neck member radially inward during the partial melting; and compressing the welding flange and the welding track to form a hot weld joining the bladder wall and trim wall to form an inflatable cavity. 9. The method of claim 8 wherein the inclined surface slopes away from the radial surface at an angle in a range of about 65° to about 45° so that the neck member is rotated by about 25° to about 45°. 10. The method of claim 8 wherein the neck member includes a plurality of relief slots configured to converge as a result of forming the hot weld. 11. The method of claim 10 wherein the relief slots are V-shaped. 12. The method of claim 8 wherein the trim wall has a constraining rib positioned radially inward of the hot weld to constrain an inward deflection of the neck member during the compressing step. 13. The method of claim 8 wherein the plate member includes a peripheral lip along an outer radial edge to prevent the plate member from sliding inward during bending of the welding flange. 14. The method of claim 8 wherein the welding track includes a plurality of welding ribs, and wherein the method further comprises the step of partially melting the welding ribs prior to the compressing step.