Method and apparatus for drying inks printed on heat sensitive absorbent article components

What is claimed is: 1. A method for printing, the method comprising the steps of: providing a continuous substrate extending in a machine direction, the continuous substrate comprising a first surface and an opposing second surface and defining a width in a cross direction; directing infrared light from a light source onto the first surface of the substrate to define an illumination zone extending for a length, L (m), in the machine direction on the first surface of the substrate; advancing the substrate under a printhead; ejecting ink from the printhead onto the first surface of the substrate to define a printed region; advancing the substrate and the printed region from the printhead to a metering device comprising a vacuum conveyor; advancing the printed region from the vacuum conveyor through the illumination zone; drying the ink advancing through the illumination zone with infrared light traveling from the light source. 2. The method of claim 1 , wherein the infrared light comprises an intensity I (W/m 2 ) at the first surface of the substrate in the illumination zone, and wherein the printed region comprises an ink basis weight, IBW (gsm), that requires energy, Ec (J/m 2 ), to dry the ink; and further comprising the step of: advancing the printed region through the illumination zone at a speed, S (m/s), such that [ I (W/m 2 )× L (m)/ S (m/s)]≥ Ec (J/m 2 )]. 3. The method of claim 1 , wherein the printhead comprises a maximum firing frequency equal to or greater than about 400 kHz. 4. The method of claim 1 , wherein the printed region comprises: a first print resolution extending in the machine direction of equal to less than about 300 dots per inch; and a second print resolution extending in the cross direction of equal to less than about 600 dots per inch. 5. The method of claim 1 , wherein the substrate comprises an onset temperature T onset (C°) and further comprising the step of advancing the printed region through the illumination zone at a speed, S (m/s), such that the infrared light heats the substrate from an initial temperature T in (C°) entering the illumination zone to a maximum temperature T max (C°), wherein T max (C°)≤T onset (C°) in the illumination zone. 6. An apparatus for printing on a continuous substrate extending in a machine direction, the continuous substrate comprising a first surface and an opposing second surface and defining a width in a cross direction, the apparatus comprising: a supply of water based ink; a printing station positioned to deposit ink from the supply onto the first surface of the substrate; an ink dryer comprising a light source positioned to direct infrared light toward the first surface of the substrate at a location downstream in the machine direction from the printing station, wherein heat from the ink dryer causes changes in the modulus of elasticity of the substrate; and a means for eliminating phase shifting caused by changes in the modulus of elasticity of the substrate, the means for eliminating phase shifting is positioned between the printing station and the ink dryer. 7. The apparatus of claim 6 , wherein means for eliminating phase shifting comprises a vacuum conveyor.