Battery packaging assembly with safety features to reduce thermal propagation

What is claimed is: 1. A battery packaging assembly, comprising: a foam layer having a plurality of cutout trenches, the foam layer configured to engage battery cells in a press-fit relationship; a tray configured to receive the foam layer, the tray enclosing a compartment configured for receiving a plurality of battery cells; and a ventilation cavity in fluid communication with the plurality of trenches of the foam layer. 2. The battery packaging assembly of claim 1 , wherein the tray includes a relatively planar bottom wall and sidewalls, and wherein the foam layer is disposed on the bottom wall. 3. The battery packaging assembly of claim 2 , further comprising a spacer disposed on a sidewall of the tray, the spacer partially forming the ventilation cavity. 4. The battery packaging assembly of claim 1 , wherein the tray is configured to receive a plurality of battery cells combined in a plurality of battery module housings. 5. The battery packaging assembly of claim 1 , wherein the cutout trenches comprise a plurality of circular cutouts in fluid communication with the ventilation cavity, each circular cutout configured to align substantially with a single battery cell received in the tray. 6. The battery packaging assembly of claim 1 , wherein the foam layer further comprises a protective coating proximate the edges of the cutout trenches. 7. The battery packaging assembly of claim 1 , wherein the foam layer is replaceable. 8. A battery pack, comprising: a plurality of battery modules containing a plurality of battery cells; a foam layer having a plurality of cutout trenches, the foam layer configured to engage the battery modules in a press-fit relationship; a tray configured to receive the foam layer, the tray enclosing a compartment configured for receiving the plurality of battery modules; and a ventilation cavity in fluid communication with the plurality of trenches of the foam layer. 9. The battery pack of claim 8 , further comprising multiple heat energy evacuation routes from the battery cells, through the cutout trenches of the foam layer, and into the ventilation cavity. 10. The battery pack of claim 8 , wherein the tray includes a relatively planar bottom wall and sidewalls, and wherein the foam layer is disposed on the bottom wall between the battery modules and the bottom wall. 11. The battery pack of claim 10 , further comprising a spacer disposed on a sidewall of the tray, and wherein the ventilation cavity is formed between the spacer, the sidewall, the bottom wall and the battery modules. 12. The battery pack of claim 8 , wherein the cutout trenches comprise a plurality of circular cutouts in fluid communication with the ventilation cavity, each circular cutout configured to align substantially with a single battery cell of a module received in the tray. 13. The battery pack of claim 8 , wherein the foam layer further comprises a protective coating proximate the edges of the cutout trenches. 14. The battery pack of claim 8 , wherein the foam layer is replaceable. 15. A method of preventing thermal propagation in a battery pack, comprising the steps of: providing a battery pack tray configured to receive a foam layer and a plurality of battery cells; disposing a foam layer in the battery pack tray between a plurality of battery cells and the battery pack tray, the foam layer having a plurality of cutout trenches, and the foam layer configured to engage the battery cells in a press-fit relationship; providing a ventilation cavity in fluid communication with the plurality of cutout trenches of the foam layer, the ventilation cavity configured to receive heat energy from a failed battery cell; and providing multiple heat energy evacuation routes from the battery cells, through the plurality of cutout trenches of the foam layer, and into the ventilation cavity. 16. The method of claim 15 , further comprising the step of replacing the foam layer after one or more battery failures occur. 17. The method of claim 15 , wherein the step of providing a ventilation cavity comprises placement of a spacer element to separate the battery cells from a sidewall of the battery pack tray. 18. The method of claim 15 , wherein the cutout trenches comprise a plurality of circular cutouts in fluid communication with the ventilation cavity, each circular cutout configured to align substantially with a single battery cell received in the tray. 19. The method of claim 15 , wherein the plurality of battery cells received in the battery pack tray are combined into a plurality battery module housings. 20. The method of claim 15 , wherein the battery pack is disposed in a machine in an arrangement that isolates the battery pack from additional battery packs in the machine.