Welding process for sealing a battery module

The invention claimed is: 1. A method for sealing a battery module, comprising: disposing a cover having a transparent material against a housing having a shelf including an absorptive material, the shelf comprising a protrusion, a lip, and a groove between the protrusion and the lip, wherein the protrusion and the lip extend from a main body of the housing in a first direction, the protrusion extending farther from the main body of the housing than the lip by a first distance, the protrusion has a protrusion surface, the lip has a lip surface, and the cover has a cover surface, the lip surface, the protrusion surface, and the cover surface are crosswise to the first direction, and the cover surface overlaps the protrusion surface and the lip surface, but is spaced from the lip surface by the first distance; directing a laser toward a perimeter of the cover such that energy from the laser is transmitted through the transparent material of the cover and is absorbed by the shelf; heating the protrusion to a melting point of the absorptive material such that a molten material completely fills a void between the cover and the housing and collects in the groove, such that the molten material in the groove contacts the cover surface; and cooling the molten material to form an air-tight and water-tight seal between the cover and the housing. 2. The method of claim 1 , comprising passing the laser over the perimeter of the cover between five and six times. 3. The method of claim 1 , wherein the transparent material of the cover or the absorptive material of the housing comprises a polymeric material having a filler. 4. The method of claim 1 , wherein the battery module includes a compartment formed at least in part by the housing and the cover, the compartment comprising a cell receptacle region of the housing or an electronics compartment of the housing. 5. The method of claim 1 , wherein the shelf comprises a thickness configured to produce an amount of the molten material that fills the void. 6. The method of claim 1 , wherein directing the laser toward the perimeter of the cover comprises angling the laser at a non perpendicular angle with respect to an outer surface of the cover to direct the energy toward the shelf. 7. The method of claim 6 , wherein angling the laser is configured to direct a first portion of the energy toward the protrusion and a second portion of the energy toward the lip, and wherein the first portion is greater than the second portion. 8. The method of claim 1 , wherein the lip comprises an outermost portion of the housing. 9. A method for sealing a battery module, comprising: disposing a cover having a transparent material against a housing having absorptive material; angling a laser at a non perpendicular angle with respect to an outer surface of the cover; directing energy from the laser toward a perimeter of the cover to transmit the energy through the transparent material of the cover and to enable the energy to be absorbed by a protruding shelf of the housing; heating the protruding shelf to a melting point of the absorptive material such that a groove between the cover and the housing is completely filled with a molten material such that the molten material in the groove contacts a surface of the cover; and cooling the molten material to form an air tight and water-tight seal between the cover and the housing. 10. The method of claim 9 , wherein the protruding shelf of the housing comprises a protrusion, a lip on an external surface of the housing, and a groove between the protrusion and the lip. 11. The method of claim 10 , wherein a first portion of the energy is directed toward the protrusion and a second portion of the energy is directed toward the lip, and wherein the first portion is greater than the second portion. 12. The method of claim 10 , wherein the lip and the groove at least partially define the void between the cover and the housing. 13. The method of claim 9 , comprising securing the cover to the housing with a clamp to cause the void between the cover and the housing to be substantially constant along the perimeter of the cover. 14. The method of claim 9 , wherein the transparent material of the cover, the absorptive material of the housing, or both comprises a respective polymeric material having a filler. 15. A method for sealing a battery module, comprising: disposing a cover having a transparent material against a housing of the battery module having an absorptive material, wherein the housing comprises a protruding shelf having a protrusion, a lip on an external surface of the housing, and a groove between the protrusion and the lip, and wherein the lip extends from a main body of the housing in a first direction, the lip has a lip surface and the cover has a cover surface, the lip surface and the cover surface are crosswise to the first direction, and the cover surface overlap the lip surface; angling a laser at a non perpendicular angle with respect to an outer surface of the cover to direct a majority of energy toward the protrusion, which comprises an outermost extension of the protruding shelf; directing the energy from the laser toward a perimeter of the cover such that the energy from the laser is transmitted through the transparent material of the cover and absorbed by the protruding shelf of the housing; heating the protruding shelf to a melting point of the absorptive material such that the groove between the cover and the housing is completely filled with a molten material such that the molten material in the groove contacts the cover surface; and cooling the molten material to form an air-tight and water-tight seal between the cover and the housing. 16. The method of claim 15 , comprising passing the laser over the perimeter of the cover at least two times. 17. The method of claim 15 , comprising rotating the laser, moving the laser, or both to direct the energy in a sinusoidal motion such that the energy contacts both the housing and the cover. 18. The method of claim 15 , comprising blocking the energy from contacting one or more electrochemical battery cells via the absorptive material, wherein the one or more electrochemical battery cells are disposed within a cell receptacle region of the housing against which the cover is configured to seal.