Abstract: A battery pack assembly includes, among other things, a tray and a lid. The lid is secured to the tray to provide an enclosure having an interior. At least one battery module is disposed within the interior. A cross-member is disposed within the interior adjacent to at least one battery module. A touch latch secures the tray or the lid to the cross-member.

Abstract: Structural plate member designs are provided for absorbing and distributing energy within traction battery packs. An exemplary structural plate member may include a wall section having a collapsible feature that is configured to collapse to minimize a transfer of energy in a direction toward a battery internal component of the traction battery pack. The structural plate member may be configured to span a plurality of cell stacks of the traction battery pack and may be secured to one or more cell stacks of the plurality of cell stacks for structurally integrating the traction battery pack.

Abstract: A battery pack assembly includes, among other things, a tray and a lid. The lid is secured to the tray to provide an enclosure having an interior. At least one battery module is disposed within the interior. A cross-member is disposed within the interior adjacent to at least one battery module. A touch latch secures the tray or the lid to the cross-member.

Abstract: An exemplary method includes, among other things, providing first and second blanks that are nominally identical and that include an array of raised features. The method further includes removing a first combination of individual raised features from the first blank to provide a first battery component with a first flow path, and removing a different, second combination of individual raised features from the second blank to provide a second battery component with a different, second flow path. An exemplary battery assembly includes, among other things, a blank having a plurality of ribs extending from a floor. The blank is configured such that a first combination of the ribs are removable from the blank to provide a first battery component having first flow path, and a different, second combination of the ribs are removable from the blank to provide a second battery component having a different, second flow path.

Abstract: An exemplary method includes, among other things, providing first and second blanks that are nominally identical and that include an array of raised features. The method further includes removing a first combination of individual raised features from the first blank to provide a first battery component with a first flow path, and removing a different, second combination of individual raised features from the second blank to provide a second battery component with a different, second flow path. An exemplary battery assembly includes, among other things, a blank having a plurality of ribs extending from a floor. The blank is configured such that a first combination of the ribs are removable from the blank to provide a first battery component having first flow path, and a different, second combination of the ribs are removable from the blank to provide a second battery component having a different, second flow path.