Method of producing a low interfacial contact resistance material for use in batteries or connectors and a low interfacial contact resistance material for use in batteries or connectors produced thereby.

Various embodiments described herein relate to a battery that includes a battery cap with one or more cut-out sections. The battery cap may be used to at least partially cover a circuit board that is proximate an end of a battery cell. In various examples, the cut-out sections may be configured to accommodate one or more cell tabs of the battery that protrude above the circuit board.

Various embodiments described herein relate to a battery that includes a battery cap with one or more cut-out sections. The battery cap may be used to at least partially cover a circuit board that is proximate an end of a battery cell. In various examples, the cut-out sections may be configured to accommodate one or more cell tabs of the battery that protrude above the circuit board.

Provided is a battery capable of maintaining electrical insulation between a battery lid and a battery can when exposed to an aqueous solution such as sea water.

Disclosed is a secondary battery including an electrode winding body in which a strip-shaped positive electrode and a strip-shaped negative electrode are stacked with a separator interposed between the electrodes and wound, an electrolytic solution, and a battery can that houses the electrode winding body and the electrolytic solution, the battery can having an opening hermetically sealed by a safety valve mechanism and a battery lid with a gasket interposed therebetween, in which the battery lid includes a terminal portion and a flange portion, and a metal layer is included between an outer main surface of among main surfaces of the flange portion and the gasket.

The invention relates to a cover structure, an SMC mold as well as a method for producing a cover structure having an SMC main body which is pressed together with a flame retardant coating in an SMC mold.

The invention relates to a cover structure, an SMC mold as well as a method for producing a cover structure having an SMC main body which is pressed together with a flame retardant coating in an SMC mold.

A battery cell stack casing includes casing walls defining a housing interior for receiving a battery cell stack; a first end plate provided between the walls at a first end of the casing to close a first end of the housing interior. The casing also include a second end plate provided between the walls at a second end of the casing to close a second end of the housing interior. The casing walls have a multi-layer structure include: an inner layer having a first side facing into the housing interior and a second opposite side; an outer layer spaced outwardly from the second side of the inner layer; a thermally insulating volume defined between the second side of the inner layer and the outer layer, the thermally insulating material containing a low density thermally insulative material e.g., foam or other insulative material; and a layer of intumescent material provided on the first side of the inner layer.

A battery cell stack casing includes casing walls defining a housing interior for receiving a battery cell stack, a first end plate provided between the walls at a first end of the casing to close a first end of the housing interior, and a second end plate provided between the walls at a second end of the casing to close a second end of the housing interior. The casing walls have a multi-layer structure that includes, an inner layer having a first side facing into the housing interior and a second opposite side, an outer layer spaced outwardly from the second side of the inner layer, an air or vacuum-filled thermally insulating volume defined between the second side of the inner layer and the outer layer, and a layer of intumescent material provided on the first side of the inner layer.

A battery case and method of production of the same realizing smaller size, higher mountability, longer service life, and lower cost than in the past, that is, a battery case comprising a container body and a container cover, in which battery case, one or both of the container body and the container cover are made from a laminated steel sheet comprised of a plated steel sheet on which a film having a polyolefin-based resin as a main constituent is laminated, a joined part of the container body and the container cover has a welded part of the plated steel sheet, a melt bonded part of the film, and a gap part between the welded part and the melt bonded part, where a length of gap part/thickness of plated steel sheet ≤10.0 and a length of gap part/length of joined part <0.50, and at least part of the inside surface of the battery case is covered by the film, and a method of production of the same.

A battery case and method of production of the same realizing smaller size, higher mountability, longer service life, and lower cost than in the past, that is, a battery case comprising a container body and a container cover, in which battery case, one or both of the container body and the container cover are made from a laminated steel sheet comprised of a plated steel sheet on which a film having a polyolefin-based resin as a main constituent is laminated, a joined part of the container body and the container cover has a welded part of the plated steel sheet, a melt bonded part of the film, and a gap part between the welded part and the melt bonded part, where a length of gap part/thickness of plated steel sheet ≤10.0 and a length of gap part/length of joined part <0.50, and at least part of the inside surface of the battery case is covered by the film, and a method of production of the same.