Abstract: A method is provided for forming a package of a plurality of side-by-side stacks of continuous strips of material. Each strip is folded back and forth about first and second fold lines to form a stack of a plurality of folded overlying strip portions which are arranged side-by-side so that the side edges are aligned. The fold lines are transverse to the strip and arranged at opposite ends of the stack. A splice tail portion extending from a first strip end portion of each stack is spliced to a second strip end portion. The stacks are compressed such that their height is equal to that of the container and the splice tail portions remain loose and uncompressed.

Abstract: A method is provided for forming a package of a plurality of side-by-side stacks of continuous strips of material in a rectangular container. Each strip is folded back and forth about first and second fold lines to form a stack of a plurality of folded overlying strip portions which are arranged side-by-side so that the side edges are aligned. The fold lines are transverse to the strip and arranged at opposite ends of the stack. A splice tail portion extending from a first strip end portion of each stack is spliced to a second strip end portion. The stacks are compressed such that their height is equal to that of the container and the splice tail portions remain loose and uncompressed.

Abstract: A method is provided for forming a package of a plurality of side-by-side stacks of continuous strips of material without intervening rigid container walls. Each strip is folded back and forth about first and second fold lines to form a stack of a plurality of folded overlying strip portions. The fold lines are transverse to the strip and arranged at opposite ends of the stack. The strip portions of each stack are arranged side-by-side so that the side edges are aligned. The strips are fed simultaneously through a guide slot in a movable carriage that is parallel to the stacks end upon which the stacks are arranged.