A device for configuring foil for use in cooking food comprising a base portion comprising first and second portions, a first plurality of elements operatively associated with the first portion; and a second plurality of elements operatively associated with the second portion; at least one of the first or second plurality of elements operating to move for entry of foil therebetween; the first and second plurality of elements operating to configure foil as the foil passes between the first and second plurality of elements. A method of cooking using configured foil.

An austenitic stainless steel foil 2 with a thickness equal to or less than 300 m is disposed to face a punch 12, and the stainless steel foil 2 is subjected to drawing in a state in which an annular region 2a of the stainless steel foil 2 that is in contact with a shoulder portion 12d of the punch 12 is set to a temperature up to 30 C. and an external region 2b outside the annular region 2a is set to a temperature of from 40 C. to 100 C.

An austenitic stainless steel foil 2 with a thickness equal to or less than 300 m is disposed to face a punch 12, and the stainless steel foil 2 is subjected to drawing in a state in which an annular region 2a of the stainless steel foil 2 that is in contact with a shoulder portion 12d of the punch 12 is set to a temperature up to 30 C. and an external region 2b outside the annular region 2a is set to a temperature of from 40 C. to 100 C.

An austenitic stainless steel foil 2 with a thickness equal to or less than 300 m is disposed to face a punch 12, and the stainless steel foil 2 is subjected to drawing in a state in which an annular region 2a of the stainless steel foil 2 that is in contact with a shoulder portion 12d of the punch 12 is set to a temperature up to 30 C. and an external region 2b outside the annular region 2a is set to a temperature of from 40 C. to 100 C.

An austenitic stainless steel foil 2 with a thickness equal to or less than 300 m is disposed to face a punch 12, and the stainless steel foil 2 is subjected to drawing in a state in which an annular region 2a of the stainless steel foil 2 that is in contact with a shoulder portion 12d of the punch 12 is set to a temperature up to 30 C. and an external region 2b outside the annular region 2a is set to a temperature of from 40 C. to 100 C.

A system and method of increasing a dwell time in a foil stamping press is provided. The dwell time is readily adjusted on the fly by the user for a given operating rate. A timer is used to adjust the press to stop on top dead center with changes in images per hour. An air clutch and an original equipment air brake are used in tandem to provide the desired dwell time. A pair of timers governs a pneumatic switch for control of the air clutch and the air brake. The present system and method increase die image area capacity as compared to conventional foil stamping presses. The increased dwell time press yields a flawless foil stamped image for an impression pressure less than that required in a conventional machine for a given die, mounted at a given height upon a stationary platen, and at a given temperature.

A system and method of increasing a dwell time in a foil stamping press is provided. The dwell time is readily adjusted on the fly by the user for a given operating rate. A timer is used to adjust the press to stop on top dead center with changes in images per hour. An air clutch and an original equipment air brake are used in tandem to provide the desired dwell time. A pair of timers governs a pneumatic switch for control of the air clutch and the air brake. The present system and method increase die image area capacity as compared to conventional foil stamping presses. The increased dwell time press yields a flawless foil stamped image for an impression pressure less than that required in a conventional machine for a given die, mounted at a given height upon a stationary platen, and at a given temperature.

The present invention relates to polymers used as rolling lubricating agents, to compositions comprising said polymers, and to alkali metal films including the polymers or compositions on the surface(s) thereof. The use of said polymers and compositions is also described for strip-rolling alkali metals or alloys thereof in order to obtain thin films. Methods for producing said thin films, which are suitable for use in electrochemical cells, are also described. The present invention proposes an improved lubricant according to formula I, which, for example, achieves enhanced conductivity, and/or enables the production of electrochemical cells having an improved life span in cycles.

In a film molded article (1) of the present invention, a plurality of concave or convex embossed portions (3) disposed apart from each other are formed on a surface (2a) of a film (2), and the plurality of embossed portions (3) are disposed on the surface of the film (2) to form an enclosed region (4) surrounded by the plurality of embossed portions (3) and imaginary lines (4a) that connect the plurality of embossed portions (3).

A convenient, cost-effective method for manufacturing low-current fuse elements. The method may include the steps of stamping a substrate out of a sheet of material and stamping at least one hole in the substrate. The method may further include the steps of bonding a layer of fuse material to a surface of the substrate with a portion of the fuse material covering the hole, stamping a fuse element out of the portion of fuse material covering the hole, and separating an individual fuse from the fuse material and the substrate. A low-current fuse can thereby be obtained using an easily performed stamping process.