JP4880320B2 - Metal-deposited laminate - Google Patents

Description

  The present invention relates to a metal vapor-deposited film. Specifically, for example, it can be used as an alternative to metal plating that can be used when performing insert molding, which is one of resin molding product manufacturing methods by injection molding, for example. Further, the present invention relates to a metal vapor-deposited laminate that can be provided with a specific function such as providing an antistatic function by providing a conductive layer.

  With the recent maturation of the consumer market, it is becoming difficult to present differentiation of various products from other products. Even in such a situation, in order to differentiate, it has been widely studied to give a special feature to the appearance and design and to add some additional function.

  For example, as an exterior of household electric appliances (home appliances) such as a refrigerator and an air conditioner, metal plating is performed on these parts in order to give a metallic luster to the surface in order to give a profound feeling and luxury. There is. Also, other resin molded products may be similarly subjected to metal plating in order to give a high-class feeling. In recent years, a specific function such as an antistatic function has been added.

  However, when metal plating is performed, environmental problems are caused in that an organic solvent is frequently used, particularly hexavalent chromium is used, and it is not necessarily a preferable method from the viewpoint of the working environment. Furthermore, in order to cause such environmental problems, automobile manufacturers and motorcycle manufacturers are not adopting products that use such metal plating for their products, and the development of a method to replace metal plating is strongly desired. ing. Further, in the case of metal plating, the thickness of the plating is not always uniform, and therefore unevenness is not always generated and the appearance is not always beautiful. In addition, when a specific function such as antistatic is added after metal plating, a coating agent mixed with conductive filler having conductivity, for example, at the same time as metal plating, or conductive filler after metal plating is used. The contained coating agent may be applied to the surface, but in any case, there is no change in that problems such as environmental problems and uneven coating occur.

  Therefore, a metallic luster is imparted to the appearance of a resin molded product using a laminated body having a metallic luster, that is, a metal vapor deposited laminated body, instead of performing metal plating. First, prepare a metal vapor-deposited laminate in which a metal vapor-deposited layer is provided on the surface of the film that will be the base material, and attach this to the inside of the mold in advance during the in-mold molding of the resin molded product. By performing resin molding, a metallic luster is imparted to the desired outermost surface.

  For example, in the invention described in Patent Document 1, a metal vapor deposition film in which a metal vapor deposition layer and an adhesive layer are sequentially formed on one surface of a base film is disclosed.

JP-A-10-735

  If the metal vapor deposition film described in this Patent Document 1 is used, for example, a metallic luster can be imparted to automobile parts and the like, which can be used as an alternative to metal plating. If it was a metal vapor deposition film, beautiful and uniform metallic luster might not be provided and it was a problem, and it was a problem.

  That is, a portion having a sharp curved surface in a cross-sectional view of a resin molded product, that is, a so-called deep drawing portion is sharply bent, and therefore a metal vapor deposition film having a configuration as described in Patent Document 1 is used. If the metal vapor deposition layer or base film breaks without following the bending method, cracks, etc. are likely to occur, and such defects often occur frequently. It was a problem that changed the appearance of.

  Furthermore, in Patent Document 1, there is no particular description or suggestion, but as a value added by laminating a specific functional layer on a base material separately from the metal deposited layer on the metal deposited film described in Patent Document 1. Even if any specific function is provided, it is still possible to imagine that a defect such as a crack still occurs, that is, a problem occurs. Furthermore, it is completed by simply laminating a layer having a specific function on the surface opposite to the laminated surface of the metal vapor-deposited layer of the base film serving as the base of the metal vapor-deposited film described in Patent Document 1. It is a fact well known to those skilled in the art that it is not. In other words, it is a well-known fact for those skilled in the art that even if any layer is simply laminated on the base film, problems such as delamination easily occur depending on the combination, and this problem is solved. Therefore, if it is going to give a specific function separately to the metal vapor deposition film described in Patent Document 1, it is a common knowledge that a person skilled in the art can no longer conduct new research. That's it.

  The present invention has been made in view of such problems, and the purpose thereof is to make it possible to sufficiently follow a deep-drawn portion in spite of a simple configuration, thereby preventing cracks. It is an object of the present invention to provide a metal-deposited laminate with a specific function capable of giving a specific function as an alternative to metal plating and capable of preventing appearance defects such as the above.

In order to solve the above problems, the invention according to claim 1 of the present invention comprises at least a resin layer made of a resin, a base material made of a polymer resin, and a metal vapor deposition layer made of a metal or an alloy, And the said metal vapor deposition layer is laminated | stacked on the surface of the said base material, It is a laminated body for providing a metallic luster to the external appearance of a resin molded product formed by laminating | stacking the said resin layer on the opposite surface, , A polyurethane film, a polymethyl methacrylate film, an acrylonitrile-butadiene-styrene film, a polycarbonate film, or a polyethylene terephthalate film, and the substrate has a thickness of 5 μm to 300 μm, and the group The melting point of the material is 50 ° C. or higher and 350 ° C. or lower, and the metal or alloy is tin, indium, aluminum, One or more of zinc, gold, titanium, nickel, or an alloy based on any one of them, the thickness of the metal deposition layer is 5 nm or more and 80 nm or less, and the metal deposition layer is a single layer a multilayer formed by laminating a plurality of deposited layers directly rather than the layers, the resin is an acrylic resin, a one or a plurality of urethane resin, or polyester resin, also resin for forming the resin layer And a filler is contained, and the thickness of the resin layer is 0.5 μm or more and 50 μm or less.

  The invention according to claim 2 of the present invention is the metal deposition substitute for metal plating according to claim 1, wherein the adhesion layer having adhesiveness or the adhesive layer having adhesiveness is further adhered to the surface of the metal deposition layer. Any one of them is laminated.

  The invention according to claim 3 of the present invention is the metal deposition substitute for metal plating according to claim 1 or 2, wherein the metal deposition layer is composed of two or more layers and adjacent layers are formed. The constituent materials are different, and the thicknesses of the respective layers constituting the metal vapor deposition layer are 5 nm or more and 80 nm or less, respectively.

  The invention according to claim 4 of the present invention is the metal vapor-deposited laminate according to any one of claims 1 to 3, wherein the filler is one or more of indium oxide, tin oxide, and zinc oxide. And an antistatic function is imparted to the resin layer by mixing the filler at a ratio of 5% or more with respect to the weight of the resin.

  The invention according to claim 5 of the present invention provides the metal plating substitute metal deposition laminate according to any one of claims 1 to 3, wherein the filler has either an ultraviolet shielding function or an infrared shielding function. Alternatively, the resin layer is made of an inorganic material having both, and by mixing the filler at a ratio of 5% or more with respect to the weight of the resin, either or both of an ultraviolet shielding function and an infrared shielding function are added to the resin layer. It is characterized by providing.

  The invention according to claim 6 of the present invention is the metal deposition substitute for metal plating according to any one of claims 1 to 3, wherein the filler is made of titanium oxide, and An antifouling function is imparted to the resin layer by mixing the filler at a ratio of 5% or more with respect to the weight of the resin.

  The invention according to claim 7 of the present invention is the metal-deposited laminate for metal plating according to any one of claims 1 to 3, wherein the filler has an antibacterial function, heat generation, heat dissipation, or cold insulation. Any one or a plurality of functions, or a culture function or an insect repellent function, or a plurality of functions, and the filler is mixed at a ratio of 5% or more with respect to the weight of the resin. Thus, the resin layer is provided with any one or a plurality of functions of heat generation, heat dissipation, and cold insulation.

  The invention according to claim 8 of the present invention is the metal deposition laminate for replacing metal plating according to any one of claims 1 to 3, wherein the resin forming the resin layer is antistatic alone. It is characterized by having a function or containing a substance having an antistatic function.

  The invention according to claim 9 of the present invention is the metal vapor deposition laminated body for substituting metal plating according to any one of claims 1 to 3, wherein the resin forming the resin layer is an ultraviolet shielding alone. It is characterized in that it has either or both of a function and an infrared shielding function, or contains a substance having either or both of an ultraviolet shielding function and an infrared shielding function.

  The invention according to claim 10 of the present invention provides the metal plating substitute metal deposition laminate for replacing metal plating according to any one of claims 1 to 3, wherein the resin forming the resin layer is antifouling alone. It is characterized by having a sexual function or containing a substance having an antifouling function.

  The invention according to claim 11 of the present invention is the metal deposition laminate for metal plating substitute according to any one of claims 1 to 3, wherein the resin forming the resin layer is antibacterial alone. Function, or any one or more of heat generation, heat dissipation and cold storage, or culture function or insect repellent function, or antibacterial function, or heat generation, heat dissipation and cold storage It is characterized by containing a substance having any one or a plurality of functions, a culture function, or an insect repellent function.

  As described above, the metal deposition substitute metal-deposited laminate according to the present invention has a structure of a resin layer / base material / metal deposition layer with a resin that exhibits a specific function, if necessary. Even when adding a metallic luster to the appearance of a resin molded product with a deep-drawn shape, there is no cracking or tearing of the film in the deep-drawn part of the resin molded product. Can be added to its appearance, and can be used in in-mold molding as an alternative to metal plating, and further equipped with a resin layer that exhibits a specific function. For example, when this resin layer contains a conductive filler If this is the case, it is possible to provide a metal vapor-deposited laminate that can be used for in-mold molding, which produces an effect that an antistatic function can be imparted to a resin molded product simultaneously with metallic luster. Come.

  Embodiments of the present invention will be described below. The embodiment shown here is merely an example, and is not necessarily limited to this embodiment.

(Embodiment 1)
A metal deposition laminated body for substituting metal plating according to the present invention will be described as a first embodiment.
The metal-deposited laminate for metal plating according to the present embodiment (hereinafter also simply referred to as “metal-deposited laminate”) includes at least a resin layer made of resin, a base material made of a polymer resin, and a metal or alloy. A metal vapor-deposited layer, and the metal vapor-deposited layer is laminated on the surface of the substrate, and a resin layer is laminated on the opposite surface. As described above, the metal-deposited laminate according to the present embodiment has been subjected to metal plating using a large amount of an organic solvent or the like, as described above. The main purpose is to grant to

This will be described in more detail below.
First, the metal vapor deposition layer according to the present embodiment will be described. This is a layer obtained by vapor-depositing either a metal or an alloy on the surface of a substrate by a so-called dry coating method. It is conceivable that they are any one or more of tin, indium, aluminum, zinc, gold, titanium, nickel, or an alloy based on any of these. The specific material to be selected may be selected in accordance with the type of metal luster desired, and in addition to a combination with a base material to be described later, that is, a material on which the metal vapor deposition layer is easily peeled depending on the type of base material Since there are substances that are difficult to do, it may be possible to select a substance that does not cause delamination.

  The reason for providing this metal vapor deposition layer is as follows. That is, as described above, the metal vapor-deposited laminate according to the present embodiment has, for example, a seal having a metallic luster on the surface where metal plating, which is a technique for discharging harmful substances, has been performed. It is for use in a new method for imparting metallic luster, which does not require harmful substances such as organic solvents, and therefore, metal used in conventional metal plating, or metal oxidation equivalent thereto A thing or an alloy is laminated | stacked as a metal vapor deposition layer.

  And even if the metal deposition laminated body for metal plating substitute according to the present embodiment is attached to the surface of a molded body having a sharp curved surface or a complicated curved surface, for example, called deep drawing, the curved surface portion In order to prevent the metal vapor deposition layer from cracking, that is, it is necessary to have sufficient performance called deformation followability. However, if the metal vapor deposition layer is formed of the above-described materials, Therefore, it can be said that the material is suitable.

  The thickness of the metal vapor deposition layer is preferably 5 nm or more and 80 nm or less, because if it is 5 nm or less, the originally desired metallic luster cannot be obtained, and if it is 80 nm or more, cracks easily occur. This is because symptoms such as the

Next, a base material made of a polymer resin on which a metal vapor deposition layer is laminated will be described.
Since this base material is made of a polymer resin, it is a so-called plastic film that is particularly easy to use. Therefore, in the present embodiment, it is assumed that it is a plastic film, and the base material is also a base film. . The base film is preferably, for example, one or more of a polyurethane film, a polymethyl methacrylate film, an acrylonitrile-butadiene-styrene film, a polycarbonate film, or a polyethylene terephthalate film. The film is a polyethylene terephthalate film (hereinafter also referred to as “PET film”), but is not limited to these as long as the conditions described below can be satisfied.

  The base film in the present embodiment is used in such a case as described above, that is, by being stuck to the outermost part of a molded body having a complicated and abrupt three-dimensional curved surface. It is never allowed to break, etc. Therefore, the plastic film according to the present embodiment needs to follow the deformation more than in the case of the metal vapor deposition layer described above. A group of the above-mentioned plastic films that can easily satisfy the conditions regarding the deformation followability is the most effective among them, a polyethylene terephthalate film, a polyurethane film, and a polymethyl methacrylate film.

  More specifically, it is more preferable if the plastic film has a thickness of 5 μm or more and 300 μm or less and a melting point of 50 ° C. or more and 350 ° C. or less.

  This is because when the thickness is 5 μm or less, even if the metal vapor deposition layer is intended to be laminated by the dry coating method, the plastic film itself cannot be tolerated during the treatment, and breakage occurs. When the thickness is 300 μm or more, the thickness of the entire metal vapor deposition laminate according to the present embodiment, which is finally obtained, is increased. This is because even if it is applied to the surface, deformation followability cannot be obtained, so that it is easily damaged.

  Further, regarding the melting point, if the melting point is 50 ° C. or higher and 350 ° C. or lower, the melting point is 50 ° C. or lower. Prior to lamination, the plastic film itself melts, it cannot exhibit a beautiful metallic luster, the processing of the whole becomes difficult in the first place, and if the melting point is 350 ° C. or higher, the softening temperature is This is because a phenomenon occurs in which the film becomes too high and the film is hardly deformed by heat during injection molding.

  As will be described later, when the metal deposition substitute for metal plating according to the present embodiment is used for in-mold molding, it is exposed to high temperature and high pressure. If the material film is damaged, the desired purpose cannot be obtained, and the metal vapor-deposited laminate itself is damaged. Therefore, if the melting point of the base film is set to 50 ° C. or higher, such a situation occurs. This is preferable because it does not occur. In addition, in order to give a so-called matte effect to the metal-deposited laminate according to the present embodiment, it is conceivable to apply a hairline process to this plastic film, but in such a case, a substance that is easily subjected to a hairline process, For example, a polyethylene terephthalate film may be considered.

  In the present embodiment, a metal vapor deposition layer is laminated on the surface of the base film described above by a dry coating method, and a resin layer is separately laminated on the side opposite to the metal vapor deposition layer. Therefore, this resin layer will be described next.

  The resin layer in the present embodiment is preferably one or more of an acrylic resin, a urethane resin, or a polyester resin, but in the present embodiment, the resin layer is specific to the metal vapor deposition laminate. In order to provide this function, an acrylic resin is used because a filler exhibiting a specific function is used. That is, even if the filler itself is applied directly to the surface of the base film, even if it does not peel off immediately, the filler will fall off the surface of the base film over time and not too much time. As a result, the specific function that was initially desired cannot be exhibited stably over a long period of time.

  Therefore, by including a filler having such a specific function in the resin, and forming the resin layer by applying the resin containing the filler to the surface of the base film by a so-called wet coating method, It is intended to make it possible to give a specific function to a metal-deposited laminate for replacing metal plating.

  Therefore, it is essential that the resin layer that should contain the filler should not interfere with the effect exerted by the filler. Therefore, by using an acrylic resin or a urethane resin, the specific function contained can be reduced. Use of these resins will not interfere with the effect exerted by the filler they have, and the resin itself can be secured to a certain degree, without being influenced by the material of the base film, to some extent. Is preferred.

  In this case, the thickness of the resin layer is preferably 0.5 μm or more and 50 μm or less. However, when the thickness is 0.5 μm or less, the thickness of the filler is insufficient even when the filler is mixed. This is because the resin layer tends to fall off, and the specific function, which is the original purpose, cannot be continuously exhibited, and the total thickness of the metal vapor-deposited laminate obtained when the thickness is 50 μm or more is reduced to the required level. This is because it is difficult to reduce the thickness.

Next, the filler having a specific function contained in the resin layer in the present embodiment will be described.
In the first place, the filler is a fine and flat powder, and is obtained, for example, by laminating a metal layer on the surface of a PET film and further pulverizing a metal foil from which the metal layer has been peeled off. This metal foil may be obtained by directly drawing a metal thinly. Furthermore, it is not limited to the metal foil, and may be obtained, for example, by providing a resin layer on the surface of the PET film and then peeling the resin layer from the PET film and pulverizing it at the same time.

  And although it does not specifically limit regarding the manufacturing method of the filler used in this Embodiment, In short, even if it is a fine powder, it should just exhibit a certain specific function.

  The general size and shape of the filler are variously defined depending on the purpose and scene of use. In the present embodiment, the filler has an average particle size of 10 nm to 50 nm. In addition, the shape is assumed to have a substantially particle size. However, it should be noted that the present invention is not necessarily concerned with the size and shape.

  Such a filler is contained in the above-mentioned resin, but the method of containing the filler may be a conventionally known one, and the mixing ratio may be set so as to easily exhibit each function. On the other hand, it can be said that it is preferable to mix at a ratio of 5% or more because the specific function of the filler is easily exhibited. Moreover, in order to exhibit more reliably, it may be 30% or more.

  And the specific function which this filler has becomes a function with which the metal vapor deposition laminated body which concerns on this Embodiment is provided.

  For example, if it is desired to provide an antistatic function, a filler made of one or more of indium oxide, tin oxide, and zinc oxide may be used. By including this filler, the metal vapor-deposited laminate according to the present embodiment can be provided with an antistatic function, and, for example, by sticking it to the outermost layer of a resin molded product. In addition, when the resin-deposited product is produced by in-mold molding, the metal-deposited laminate is used as an outermost layer, so that the obtained molded product is not only provided with a metallic luster but also charged. A prevention function can be provided at the same time.

  Similarly, if an ultraviolet blocking function or an infrared blocking function is provided, an inorganic filler, particularly a titanium oxide filler may be used. If a titanium oxide filler is used, an antifouling function and an antibacterial function are simultaneously used. Can also be given. In addition, if fillers with heat generation, heat dissipation, and cold insulation functions, fillers with culture functions, and fillers with insect repellent functions are used, it is conceivable to give each function to the molded product. The detailed explanation is omitted. And as demonstrated above, the metal vapor deposition laminated body which concerns on this Embodiment turns into a metal vapor deposition laminated body provided with the specific function by using the filler which has a specific function.

  As described above, in the present embodiment, the resin layer having the specific function is laminated by including the filler having the specific function in the resin. However, if the resin itself has some specific function, the filler is included. It is possible to achieve the same purpose as described above. It is also conceivable that a substance other than the filler is included in the resin to exert some specific function.

  For example, it is conceivable to provide an ultraviolet shielding function to the resin layer by using an acrylic resin previously used as a resin to be mixed with a filler, and to add a surfactant to a resin such as an acrylic resin. It is conceivable to impart antistatic properties to the resin layer. Furthermore, if a resin having an antifouling function or containing a substance having an antifouling function other than a filler is used, the antifouling property has an antibacterial property, or an antibacterial substance other than a filler. If a resin containing is used, the antibacterial property includes one or a plurality of functions of heat generation, heat dissipation, and cold insulation, or contains a substance having one or more functions of heat generation, heat dissipation, cold storage other than the filler. If the resin is a resin containing a substance having a culture function or a culture function other than a filler, the culture function has an insect repellent function or an insect repellent function other than a filler. In this case, the insect-repellent function is imparted to the resin layer, respectively, but a detailed description thereof is omitted here.

  In this way, a metal vapor-deposited laminate having a structure of resin layer / base film / metal vapor deposition layer is obtained. However, as described above with respect to the base film and metal vapor deposition layer according to the present embodiment, The metal-deposited laminate according to the present embodiment is formed on the surface of a molded body having a complicated three-dimensional shape or a molded body having an abrupt curved surface on the outermost surface because it is not torn or cracked even if severely bent. Even if affixed, it will not be torn or damaged, so that the intended effect can be sufficiently obtained.

  And as a utilization method of the metal vapor deposition laminated body which concerns, sticking on the surface of the decorative board used for household appliances, for example can be considered. In this case, in order to give a high-class feeling, first, the surface of the metal vapor-deposited layer is subjected to a so-called hairline treatment to make it matt, and if a filler having an antibacterial function is used, the metal vapor-deposited laminate is affixed. If it is made into a refrigerator using the worn decorative board, it can have an antibacterial function and at the same time have a metallic luster that gives a high-class feeling. When used in this way, when the decorative plate is manufactured, if the metal vapor deposition laminate according to the present embodiment is mounted in the mold in advance and then normal molding is performed, the molded product obtained is The metal vapor deposition laminated body which concerns on this Embodiment from the beginning is stuck. The present embodiment is not limited to a simple decorative plate, even when performing in-mold molding using a mold having a complicated curved surface and a three-dimensional structure in order to produce a molded body having a complicated shape. If such a metal vapor deposition laminate is used, even if it is a sharp curved surface, etc., it has a sufficiently effective deformation followability, so a molded product with the metal vapor deposition laminate stuck to the outermost surface without any problem Can be obtained simply.

  Further, as described above, since the melting point of the base film is set to 50 ° C. or higher and 350 ° C. or lower, it can be said that the base film does not hurt even if in-mold molding is performed, and it can be said that it is preferable.

  And since the metal vapor deposition laminated body of the state affixed on the outermost surface of the obtained molded product is provided with the specific function, if it is conventional, a molded product will be manufactured and then metal will be applied to the outermost surface. When plating was performed and some kind of treatment for giving a specific function to the surface was performed, if the metal vapor deposition laminate according to the present embodiment was used, a metallic luster was applied to the outermost surface at the same time as the molded product was manufactured. Can be obtained in a single process, so that the manufacturing itself is simple, the cost of manufacturing can be suppressed, and even if it is a conventional case Since a large amount of harmful substances that must be disposed of, especially a large amount of organic solvents that cause environmental pollution, is not generated, it becomes possible to make the manufacturing process friendly to the environment.

  It should be noted that, finally, regarding the metal vapor deposition layer, such a layer may be a single layer, but by making this a multiple layer, even if a crack occurs in the outermost layer, the inner layer also Similarly, since it is a metal vapor deposition layer, it is possible to obtain an effect as if the inner layer compensates for the cracked portion as a result, so that resin layer / base film / first metal vapor deposition layer / second A configuration such as a metal vapor deposition layer is also conceivable.

  The first metal vapor deposition layer and the second metal vapor deposition layer in this case are the same as the metal vapor deposition layer described above, and thus detailed description thereof is omitted here.

  The same applies to the base film, that is, if two or more base films are used in advance, such as resin layer / first base film / second base film / metal vapor deposition layer, any one of them is possible. Even if a sheet is torn, it is conceivable that the presence of another sheet can provide the same effect as if the sheet did not break as a whole.

  Further, when using or providing a plurality of base film or metal vapor deposition layer, resin layer / first base film / first metal vapor deposition layer / second base film / second metal vapor deposition layer, or resin Layer / first substrate film / first metal deposition layer / second metal deposition layer / second substrate film, and further, resin layer / first substrate film / metal deposition layer / second substrate film Various combinations such as resin layer / first metal vapor deposition layer / base film / second metal vapor deposition layer are also conceivable, and third, fourth,. Fourth: Use of a larger number of metal vapor-deposited layers, such as a base film, etc., and a base film can be considered. More preferably, although it is plural, it is set to about 2 or more and 5 or less. Here, further detailed description is omitted.

  The resin layer has been described as a single layer in the present embodiment, but a plurality of layers having different functions may be considered, for example. In this case, the layers having the various functions described above may be sequentially laminated on the base film by a known method, but detailed description thereof is omitted here.

  Moreover, when using the metal vapor deposition laminated body which concerns on this Embodiment for an in-mold shaping | molding, it is sufficient if it sticks as it is on the outermost surface of a shaping | molding body as it is, but it may be necessary to make sticking more reliable depending on the case. . In such a case, if either the adhesive layer having adhesiveness or the adhesive layer having adhesiveness is laminated on the surface of the metal vapor-deposited layer, it can be surely attached without further peeling. It will be. As the adhesive layer or the pressure-sensitive adhesive layer used in this case, a known material such as an acrylic resin, a polyester resin, or a urethane resin may be used, but detailed description thereof is omitted here.

Claims (11)

at least,
A resin layer made of resin;
A base material made of a polymer resin;
A metal deposition layer made of a metal or an alloy;
And a laminated body for imparting a metallic luster to the appearance of a resin molded product , wherein the metal vapor deposition layer is laminated on the surface of the base material, and the resin layer is laminated on the opposite surface,
The substrate is
One or more of a polyurethane film, a polymethyl methacrylate film, an acrylonitrile-butadiene-styrene film, a polycarbonate film, and a polyethylene terephthalate film, and the thickness of the substrate is 5 μm or more and 300 μm or less, and The melting point is 50 ° C. or higher and 350 ° C. or lower,
The metal or alloy is any one or more of tin, indium, aluminum, zinc, gold, titanium, nickel, or an alloy based on any of these, and the thickness of the metal deposition layer is 5 nm or more and 80 nm. And the metal vapor deposition layer is not a single layer but a multilayer in which a plurality of vapor deposition layers are directly laminated ,
The resin is one or more of an acrylic resin, a urethane resin, and a polyester resin, and a filler is contained in the resin forming the resin layer, and the thickness of the resin layer is 0.00. 5 μm or more and 50 μm or less,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitution of Claim 1,
The adhesive layer having adhesiveness or the adhesive layer having adhesiveness is laminated on the surface of the metal vapor deposition layer,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitution of Claim 1 or Claim 2,
The metal vapor deposition layer is composed of two or more layers, the materials constituting the adjacent layers are different, and the thickness of each layer constituting the metal vapor deposition layer is 5 nm or more and 80 nm or less,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The filler is one or more of indium oxide, tin oxide, or zinc oxide;
And the antistatic function is imparted to the resin layer by mixing the filler at a ratio of 5% or more with respect to the weight of the resin,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The filler is made of an inorganic material having either or both of an ultraviolet shielding function and an infrared shielding function,
And, by mixing the filler in a proportion of 5% or more with respect to the weight of the resin, either or both of an ultraviolet shielding function and an infrared shielding function are imparted to the resin layer,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The filler is made of titanium oxide,
And, the antifouling function is imparted to the resin layer by mixing the filler at a ratio of 5% or more with respect to the weight of the resin,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The filler has an antibacterial function,
Or any one or more functions of heat generation, heat dissipation, cold insulation,
Or culture function,
Or insect repellent function,
One or a plurality of functions,
And, by mixing the filler at a ratio of 5% or more with respect to the weight of the resin, the resin layer is provided with any one or more functions of heat generation, heat dissipation, cold storage,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The resin that forms the resin layer has an antistatic function by itself, or contains a substance having an antistatic function,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The resin for forming the resin layer is a material having either or both of an ultraviolet shielding function and an infrared shielding function, or contains a substance having either or both of an ultraviolet shielding function and an infrared shielding function. Being a thing,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The resin that forms the resin layer has an antifouling function by itself, or contains a substance having an antifouling function,
A metal-deposited laminate for metal plating substitution. In the metal vapor deposition laminated body for metal plating substitute of any one of Claims 1 thru | or 3,
The resin forming the resin layer has an antibacterial function alone, or any one or a plurality of functions of heat generation, heat dissipation, cold storage, a culture function, or an insect repellent function or a plurality of functions. A substance having any one or more of a certain or antibacterial function, or any of a plurality of functions of heat generation, heat dissipation, and cold insulation, or a culture function, or an insect repellent function;
A metal-deposited laminate for metal plating substitution.