The present invention provides a nickel-plated heat-treated steel sheet for a battery can (1), having a nickel layer with a nickel amount of 4.4 to 26.7 g/m.sup.2 on a steel sheet (11), wherein when the Fe intensity and the Ni intensity are continuously measured along the depth direction from the surface of the nickel-plated heat-treated steel sheet for a battery can, by using a high frequency glow discharge optical emission spectrometric analyzer, the difference (D2-D1) between the depth (D1) at which the Fe intensity exhibits a first predetermined value and the depth (D2) at which the Ni intensity exhibits a second predetermined value is less than 0.04 μm.

Disclosed is a post-plating treatment method for a one-step brass-electroplated steel wire, comprising the following steps: electroplating the surface of the steel wire with a brass alloy; immediately washing the electroplated steel wire with cold water, removing residues from the surface of the steel wire, and blow-drying the steel wire with cold air; immersing the blow-dried steel wire in a water-based coating solution; and taking the immersed steel wire out, blow-drying the steel wire with natural air, and taking the steel wire up. The water-based coating solution comprises a polyoxyethylene organic salt, sodium hypophosphite and the balance of pure water, the polyoxyethylene organic salt comprising a salt of alkyl polyoxyethylene ether phosphate and polyoxyethylene alkylamine.

Methods and apparatus for producing helix windings used for a transformer are provided. For example, apparatus comprise an electrically conductive mandrel comprising an elongated body, a head comprising an eyelet detail, and a winding structure disposed along the elongated body.

Methods are provided for designing a microchannel layout for a flow field of a bipolar plate. The methods include defining a fluid flow optimization domain with boundary conditions and loads. Using a gradient-based algorithm together with computational fluid dynamics, the domain is then optimized for minimum flow resistance. The methods include setting the minimum inverse permeability to a non-zero value, and obtaining a grayscale design and fluid velocity field. Using Gray-Scott reaction diffusion equations with the grayscale design and fluid velocity field, the method includes obtaining a microchannel layout. The microchannel layout is then incorporated as a pattern for the flow field of the bipolar plate. In various aspects, anisotropic microchannels are provided; they may be formed using at least one of an additive manufacturing technique, a metal inverse opal electroplating technique, and a hybrid combination thereof.

Methods are provided for designing a microchannel layout for a flow field of a bipolar plate. The methods include defining a fluid flow optimization domain with boundary conditions and loads. Using a gradient-based algorithm together with computational fluid dynamics, the domain is then optimized for minimum flow resistance. The methods include setting the minimum inverse permeability to a non-zero value, and obtaining a grayscale design and fluid velocity field. Using Gray-Scott reaction diffusion equations with the grayscale design and fluid velocity field, the method includes obtaining a microchannel layout. The microchannel layout is then incorporated as a pattern for the flow field of the bipolar plate. In various aspects, anisotropic microchannels are provided; they may be formed using at least one of an additive manufacturing technique, a metal inverse opal electroplating technique, and a hybrid combination thereof.

Described herein are apparatus and methods for the continuous application of nanolaminated materials by electrodeposition.

A steel sheet includes: a predetermined chemical composition; and a steel structure represented by, in area %, first martensite in which two or more iron carbides each having a circle-equivalent diameter of 2 nm to 500 nm are contained in each lath: 20% to 95%, ferrite: 15% or less, retained austenite: 15% or less, and the balance: bainite, or second martensite in which less than two iron carbides each having a circle-equivalent diameter of 2 nm to 500 nm are contained in each lath, or the both of these, in which the total area fraction of ND//<111> orientation grains and ND//<100> orientation grains is 40% or less, and the content of solid-solution C is 0.44 ppm or more.

The present invention provides a nickel-plated stainless steel sheet and a method of manufacturing the same. In one embodiment, the nickel-plated stainless steel sheet includes: a stainless steel base plate; and a nickel (Ni) plating layer formed on at least one surface of the steel base plate by electroplating, and the nickel plating layer includes a strike plating layer and a main plating layer which are sequentially laminated on the one surface of the steel base plate.

The present invention relates to an electrolytic copper foil having excellent handling characteristics in the manufacture of copper foil and in post-processing for manufacturing a secondary battery. The present invention provides an electrolytic copper foil having a first surface and a second surface, wherein the texture coefficient of the (220) plane of the electrolytic copper foil is 0.4-1.32, the difference (|Δ(Rz/Ra)|) between Rz/Ra on the first surface and Rz/Ra on the second surface, of the electrolytic copper foil, is less than 2.42, and the difference (|ΔPD|) in peak density (PD) between the first surface and the second surface, of the electrolytic copper foil, is 96 ea or less.

Provided is a thermal spray wire as a thermal spray material for use in continuous arc wire thermal spraying machines, the thermal spray wire being for performing continuous and stable arc thermal spraying with sufficient electrical conductivity and at a stable voltage. The thermal spray wire includes a copper-plated coating having a thickness of from 0.3 to 1.2 μm on a surface of a rod made of stainless steel. Using the thermal spray wire allows for stable arc thermal spraying by a continuous arc thermal spraying machine including a wire feeding mechanism.