A battery module includes a cell assembly including a plurality of battery cells, and a module housing having an arrangement space for accommodating the cell assembly and a cover plate covering a top surface of the cell assembly. The cover plate has at least one discharge hole for discharging gas generated in the cell assembly. A blocking member is disposed between the top surface of the cell assembly and the cover plate to block flame or a combustion material from being discharged externally of the module housing through the discharge hole.

A battery system includes a first battery module, a second battery module, and a thermoresistant spacer disposed between the first battery module and the second battery module. The thermoresistant spacer may be a thermoresistant urethane foam or a silicon pad and may include thermoresistant additives, which may include at least one of melamine resin powder, aerogel particles, and milled oxidized polyacrylonitrile fibers. A flame retardant material may be disposed over at least a surface of the thermoresistant spacer.

A battery system includes a first battery module, a second battery module, and a thermoresistant spacer disposed between the first battery module and the second battery module. The thermoresistant spacer may be a thermoresistant urethane foam or a silicon pad and may include thermoresistant additives, which may include at least one of melamine resin powder, aerogel particles, and milled oxidized polyacrylonitrile fibers. A flame retardant material may be disposed over at least a surface of the thermoresistant spacer.

A temperature controlled enclosure that includes a temperature control device for controlling the temperature within an internal cavity of the temperature controlled enclosure. The temperature controlled enclosure also includes one or more charging ports for receiving and charging a battery pack. A controller within the temperature controlled enclosure controls the temperature within the internal cavity to a predetermined or desired temperature (e.g., 20° C.). When a battery pack is received in the one or more charging ports, the temperature of the battery pack can be determined. If, for example, the temperature of the battery pack is below 0° C., the battery pack is allowed to warm up inside the temperature controlled enclosure before the battery pack is charged.

The present invention is directed to a flame retardant thermal interface material. The material contains a bio-based material and associated functional additives, wherein the bio-based material includes a protein and the functional additives include at least one of a char forming promotor, a char reinforce agent, a foaming agent, a thermal conductive agent, a flame suppression agent and other additives. The char forming promotor, the char reinforce agent and the flame suppression agent are used to adjust the combustion behavior of the material to render the material having desired flame retardation performance. The foaming agent and thermal conductive agent are used to adjust thermal conductivity of the material. The present invention is also directed to a process method of making a flame retardation thermal interface material.

The present invention is directed to a flame retardant thermal interface material. The material contains a bio-based material and associated functional additives, wherein the bio-based material includes a protein and the functional additives include at least one of a char forming promotor, a char reinforce agent, a foaming agent, a thermal conductive agent, a flame suppression agent and other additives. The char forming promotor, the char reinforce agent and the flame suppression agent are used to adjust the combustion behavior of the material to render the material having desired flame retardation performance. The foaming agent and thermal conductive agent are used to adjust thermal conductivity of the material. The present invention is also directed to a process method of making a flame retardation thermal interface material.

According to an embodiment, an electronic device includes a processor, a frame disposed at a rear side of the processor, a cylindrical battery disposed at a rear side of the frame, a composite sheet having at least one heat insulating member surrounding an outer peripheral surface of the cylindrical battery and at least one thermally conductive member surrounding the heat insulating member, and a heat sink disposed at a rear side of the composite sheet.

The invention relates to a compartment for equipment likely to emit heat during its operation, in particular for a device for storing electrical energy for a motor vehicle, said compartment having at least one cooling plate arranged to have a cooling fluid flowing through it and arranged to cool said equipment. The compartment further includes an upper housing arranged to accommodate said electrical equipment, and a lower housing, in which at least one fluid connection element is placed in order to supply the cooling plate with fluid, the lower and upper housing being isolated from each other in a fluidly sealed manner.

Aerogel-based components and systems for electric vehicle thermal management are provided. Exemplary embodiments include a heat control member. The heat control member can include reinforced aerogel compositions that are durable and easy to handle, have favorable performance for use as heat control members and thermal barriers for batteries, have favorable insulation properties, and have favorable reaction to fire, combustion and flame-resistance properties. Also provided are methods of preparing or manufacturing such reinforced aerogel compositions. In certain embodiments, the composition has a silica-based aerogel framework reinforced with a fiber and including one or more opacifying additives.

Aerogel-based components and systems for electric vehicle thermal management are provided. Exemplary embodiments include a heat control member. The heat control member can include reinforced aerogel compositions that are durable and easy to handle, have favorable performance for use as heat control members and thermal barriers for batteries, have favorable insulation properties, and have favorable reaction to fire, combustion and flame-resistance properties. Also provided are methods of preparing or manufacturing such reinforced aerogel compositions. In certain embodiments, the composition has a silica-based aerogel framework reinforced with a fiber and including one or more opacifying additives.