Provided are a method and apparatus for manufacturing hot press formed parts for a multi-step process, the method comprising: a heating step for heating a strip material; a transferring step for transferring the heated strip material to a processing apparatus having mounted on a press a plurality of molds comprising a notching mold and/or a blanking mold, a forming mold, and a trimming mold; a notching step, for obtaining a notched material connected to the strip by means of a web portion by cutting a part of the material by means of the notching mold, and/or a blanking step for obtaining a blanked material separated from the strip by cutting a part of the material by means of the blanking mold; a forming step of transferring and positioning the material which has gone through the notching step and/or the blanking step near the forming mold, and then forming the material by means of the forming mold; and a trimming step for removing, by means of the trimming mold, an outer edge portion of the material which is unnecessary for a final product shape.

Provided are a method and apparatus for manufacturing hot press formed parts for a multi-step process, the method comprising: a heating step for heating a strip material; a transferring step for transferring the heated strip material to a processing apparatus having mounted on a press a plurality of molds comprising a notching mold and/or a blanking mold, a forming mold, and a trimming mold; a notching step, for obtaining a notched material connected to the strip by means of a web portion by cutting a part of the material by means of the notching mold, and/or a blanking step for obtaining a blanked material separated from the strip by cutting a part of the material by means of the blanking mold; a forming step of transferring and positioning the material which has gone through the notching step and/or the blanking step near the forming mold, and then forming the material by means of the forming mold; and a trimming step for removing, by means of the trimming mold, an outer edge portion of the material which is unnecessary for a final product shape.

A punching method with a favorable punchability with respect to amorphous metal thin ribbons, an amorphous metal thin strip produced by the method, and a laminated core, are provided. The amorphous metal thin strip has a thickness of from more than 30 μm to 50 μm, and a side configured by a punched surface on which at least a shear droop, a shearing surface, and a fractured surface are observed, the width of the shear droop relative to the thickness of the metal thin strip being 30% or less at the side.

A spot welding method for welding a first panel and a second panel by applying a current between a pair of electrodes in pairs in a state in which the first panel and the second panel overlap one another and are held by the electrodes includes: forming a protrusion on a surface facing the second panel, at a welding-target part of the first panel; forming a recess on a surface facing the protrusion, at a welding-target part of the second panel, such that the recess has a depth that allows a top of the protrusion to come into contact with a bottom of the recess; and holding the welding-target part of the first panel and the welding-target part of the second panel between the electrodes, in a state in which the protrusion is inserted in the recess and applying the current between the electrodes.

A spot welding method for welding a first panel and a second panel by applying a current between a pair of electrodes in pairs in a state in which the first panel and the second panel overlap one another and are held by the electrodes includes: forming a protrusion on a surface facing the second panel, at a welding-target part of the first panel; forming a recess on a surface facing the protrusion, at a welding-target part of the second panel, such that the recess has a depth that allows a top of the protrusion to come into contact with a bottom of the recess; and holding the welding-target part of the first panel and the welding-target part of the second panel between the electrodes, in a state in which the protrusion is inserted in the recess and applying the current between the electrodes.

Methods of creating a hook for a bike rack. The methods include the steps of providing a planar metal material, cutting a two-dimensional shape from the planar metal material where the two-dimensional shape defines a hook precursor, forming the hook precursor into a three-dimensional hook where the three-dimensional hook includes a hook face, and adding a protective layer to the hook face. In some examples, the methods include processing the three dimensional hook to remove sharp edges, cutting a mounting point into the hook precursor, cutting a bevel on an edge of the hook precursor to define a beveled edge, and/or cutting a curve on an edge of the hook precursor to define a rounded edge.

An apparatus and method, according to an exemplary aspect of the present disclosure includes, among other things, cutting opposing notches in side edges of a flat metallic strip to provide a flat notched strip with pairs of notches extending along a length of the flat notched strip. The flat notched strip is rolled formed to provide a profiled notched strip and a flexible material is extruded to cover the profiled notched strip to provide a roof ditch molding. The roof ditch molding is cut at notch locations to achieve a desired molding length extending between molding cut ends comprising tabs, and a pattern of flexible material is removed from the notches associated with the molding cut ends. The tabs are bent to provide final formed ends for the roof ditch molding.

A sprocket for a bicycle drive train comprising an outer ring having external teeth for engaging in a bicycle chain, and an inner ring coaxially disposed with the outer ring and is connected to the outer ring in a rotationally fixed manner. The inner ring has a central opening. A circumferential collar is configured to be integral with the inner ring and projects axially to one side of the inner ring and is configured as a continuous collar. An internal profile having a plurality of radially inward-projecting radial protrusions is provided on the radially inner side of the collar, and an external profile having a plurality of radial depressions, which in number and arrangement correspond to the radial protrusions of the internal profile, is provided on the radially outer side of the collar.

A sprocket for a bicycle drive train comprising an outer ring having external teeth for engaging in a bicycle chain, and an inner ring coaxially disposed with the outer ring and is connected to the outer ring in a rotationally fixed manner. The inner ring has a central opening. A circumferential collar is configured to be integral with the inner ring and projects axially to one side of the inner ring and is configured as a continuous collar. An internal profile having a plurality of radially inward-projecting radial protrusions is provided on the radially inner side of the collar, and an external profile having a plurality of radial depressions, which in number and arrangement correspond to the radial protrusions of the internal profile, is provided on the radially outer side of the collar.

A tool for cutting a workpiece includes a first tool part, which has a first cutting edge formed by a plurality of first blade elements, and a second tool part, which is opposite the first tool part and has a second cutting edge. In order to cut the workpiece which can be arranged between the tool parts, the tool parts can be moved towards one another from an open position into a cutting position. A particular, separate receiving contour of the first tool part is associated with the relevant first blade element, which receiving contour corresponds to a particular external contour of the relevant first blade element, wherein the relevant first blade element is form-fittingly arranged at least predominantly in the associated receiving contour of the first tool part.