Process for the production of a metal sheet having a fine...

Metal treatment – Process of modifying or maintaining internal physical... – Producing or treating layered – bonded – welded – or...

Reexamination Certificate

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C148S534000, C148S579000, C148S527000, C148S529000

Reexamination Certificate

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06372062

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a process for the production of a metal sheet having a multi-layered and fine structure which sheet is obtained from at least two kinds of thin sheets of pure metal thin sheets and/or alloy thin sheets as raw materials, and a metal sheet obtained by the above process.
PRIOR ART OF THE INVENTION
A metal sheet and an alloy sheet are required to have various appropriate functions such as strength, magnetism and a thermal expansion coefficient in accordance with uses thereof. Some of metal sheets having a composite structure of different two kinds of metals and alloys satisfy these functions. For example, an alloy obtained by finely mixing a soft alloy with a hard alloy has soft and hard properties in hardness. Further, for obtaining a metal having a desired thermal expansion coefficient, it is sufficient to produce an alloy having a mixed structure of an alloy having a thermal expansion coefficient greater than the desired thermal expansion coefficient and an alloy having a thermal expansion coefficient smaller than the desired thermal expansion coefficient. Magnetic properties can be controlled by the formation of a composite structure. An alloy having two or more phases, like above, is known as a eutectic alloy. However, there is a defect that each phase does not have desired properties or, generally, a two-phase alloy is likely to be cracked by hot rolling. Therefore, sometimes, a desired alloy can not be obtained.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a process for the production of a new developed metal sheet having desired combining functions.
According to the present invention, there is provided a process for the production of a metal sheet having a multi-layered structure and a fine composite structure, which process comprises stacking at least two kinds of thin sheets selected from pure metal thin sheets and alloy thin sheets alternately so as to have multiple layers, preferably at least ten layers, in total, integrating the stacked sheets by circumferential welding or placing the stacked sheets in a steel or stainless steel box to integrate these, and then, bonding all the layers of the integrated sheets metallically by hot rolling.
According to the present invention, there is further provided a process for the production of a metal sheet having a multi-layered structure and a fine composite structure, which process comprises stacking the metal sheets obtained according to the above production process to have multiple layers, preferably at least ten layers, integrating the stacked metal sheets by circumferential welding or placing the stacked metal sheets in a steel or stainless steel box to integrate these, and then, bonding all the layers of the integrated metal sheets metallically by hot rolling.
According to the present invention, there is still further provided a process for the production of a metal sheet, which process comprises further heat-treating the metal sheet obtained according to any one of the above processes nearly at a lower melting point in the melting points of at least two kinds of the pure metals and the alloys to form a metal sheet having a structure in which particles of a pure metal or alloy phase having a lower melting point are dispersed.
According to the present invention, there is furthermore provided a process for the production of a metal sheet, which process comprises further hot rolling or cold rolling the above-obtained metal sheet having a particle-dispersed structure.
DETAILED DESCRIPTION OF THE INVENTION
The present inventors have made diligent studies on finding a process for the production of a metal sheet which attains the above object, that is, a metal sheet having desired combining functions. As a result, the present inventors have found that at least two kinds of thin sheets selected from thin sheets of pure metals or thin sheets of alloys are alternately stacked and the stacked sheets are bonded by hot rolling, whereby an alloy having desired combining functions can be obtained. The present invention has been completed by the above finding.
The production process of the present invention will be explained hereinafter.
In the present invention, the pure metals and the alloys refer to materials which are available as a thin sheet material. These materials include pure metals such as Fe, Cu, Al, Ti, Ni, Zr, Mo, Nb, Ag, Au and Ta and alloys of these. The alloy includes various steels, stainless steels, copper alloys such as brass, aluminum alloys having a base of Al—Cu, Al—Zn, Al—Si or Al—Mg, nickel alloys having a base of Ni—Cu, Ni—Fe or Ni—Cr, and titanium alloys having a base of Ti—Al—V, Ti—Mn, etc. Further, said thin sheet refers to a sheet having a thickness of 0.1 to 10 mm. In view of availability of the sheet and workability of stacking, it preferably has a thickness of 1 to 5 mm.
The reason why the number of at least two kinds of the pure metal thin sheets and/or the alloy thin sheets to be alternately stacked is preferably at least ten layers is because it is an object to finally produce a material having a multi-layered structure of several hundreds of layers or several thousands of layers in which pure metals and/or alloys are alternately stacked. That is, As the number of at least two kinds of the pure metal thin sheets and/or the alloy thin sheets is increased in the first stacking, the frequency of re-stackings such as a second stacking or a third stacking can be decreased.
In the present invention, the term “bonding all metal layers metallically” means that metals present on the interface of different metal layers are atomically bonded to each other. For example, the above term shows that, on the interface of a pure metal A layer and a pure metal B layer, atoms of the pure metal A and atoms of the pure metal B are mutually mixed.
Metal sheets produced by stacking alternately at least two kinds of pure metal thin sheets and/or alloy thin sheets and hot rolling the stacked sheets, are stacked again and hot rolled, whereby there can be produced a metal sheet having finer layer structure and having finer microstructure.
The properly stacked and hot rolled metal sheet, like above, is cold rolled, whereby there can be produced a metal sheet having further finer layer structure and having finer microstructure.
The metal sheet obtained through the steps of hot rolling and cold rolling is further heat-treated nearly at a lower melting point in the melting points of at least two kinds of the pure metals and the alloys, whereby the finely separating of a pure metal or alloy layer having a lower melting point is advanced so that there can be obtained a metal sheet having a structure in which separated particles of the above layer are finely dispersed. The dispersed particles have a spherical form or an acicular form.
The metal sheet having a particle-dispersed structure due to the heat treatment is further hot rolled or cold rolled, whereby there can be also obtained a metal sheet whose structure becomes finer.
Generally, the metal material comes to have a finer structure as processing such as rolling or wire drawing is proceeded with. The present invention is directed to a method of stacking at least two kinds of thin sheets selected from pure metal thin sheets and alloy thin sheets alternately and bonding these sheets metallically to make a microstructure finer. Therefore, the step of stacking and the step of rolling are necessarily required. With an increase in the number of the above stacking and rolling steps, the thickness of each layer of the metal sheet becomes thinner and a structure of the metal sheet becomes finer, i.e., the grains become finer.
When the number of the pure metal thin sheets and/or the alloy thin sheets to be stacked is few, only small effect is obtained on the formation of a finer structure in one rolling step. When the procedures of stacking and rolling are repeated, the formation of a finer structure can be proceeded. For carrying out each stacking procedure, however, the steps of rolling, cutting, impro

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