MITIGATING THERMAL RUNAWAY PROPAGATION IN LITHIUM-ION BATTERY PACKS

A lithium-ion battery assembly includes a plurality of battery cells in a spaced-apart and generally parallel arrangement, each cell of the battery cells extending along a central axis and having a first end portion with a negative terminal and a second end portion with a positive terminal. The asse...

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Hauptverfasser: AKULIS, Christopher P, BOECKE, Matthew S, DOAK, William J, STEWART, Joshua P, SNAVELY, Dan A, ARNOLD, Peter J
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creator AKULIS, Christopher P
BOECKE, Matthew S
DOAK, William J
STEWART, Joshua P
SNAVELY, Dan A
ARNOLD, Peter J
description A lithium-ion battery assembly includes a plurality of battery cells in a spaced-apart and generally parallel arrangement, each cell of the battery cells extending along a central axis and having a first end portion with a negative terminal and a second end portion with a positive terminal. The assembly includes a first capture plate and a second capture plate, where at least the first capture plate defines capture plate openings corresponding to the plurality of battery cells, the first capture plate spaced from and oriented generally parallel to the second capture plate. Each of the plurality of battery cells extends between the first and second capture plates and is coaxially arranged with one of the capture plate openings in the first capture plate. The assembly optionally includes a body between the capture plates, the body defining a void for each battery cell.
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subjects BASIC ELECTRIC ELEMENTS
ELECTRICITY
PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
title MITIGATING THERMAL RUNAWAY PROPAGATION IN LITHIUM-ION BATTERY PACKS
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