JPH02106342A - Metal-clad heat resistant plate - Google Patents

Abstract

PURPOSE:To improve flame retardance of a plate material for a kitchen by applying a specific inorganic laminated plate to a metal foil coated on one side face with heat resistant adhesive containing self-adhesive polyorganosiloxane as a main ingredient, and thermally curing it. CONSTITUTION:A laminated plate is formed by laminating inorganic material such as glass paper, ceramic paper, etc. as a main ingredient with polyorganosiloxane resin having excellent flame retardance and carbon functional organic silicon compound as binders. The laminate is applied at least at one side to a metal foil made of stainless steel, aluminum or copper coated on its one side face with heat resistant adhesive containing polyorganosiloxane resin having self-adhesive as a main ingredient, it is then thermally cured to form a metal clad heat resistant plate. The plate thus obtained has excellent flame retardance, workability, handling properties, bending strength.

Description

[Detailed Description of the Invention] [Industrial Field of Application J The present invention relates to a metal clad heat-resistant plate with excellent fire resistance, workability, and bending strength. This relates to processed materials that can be conveniently used for the purpose of.

[Prior Art J Usually, plates or foils made of metal such as stainless steel or aluminum are commercially available and used. It is often cut into appropriate dimensions and bent depending on the purpose of use.

[Problem that the invention attempts to solve]

However, current commercially available materials have the following drawbacks.

That is, (1) When used for disaster prevention purposes around the outside of cooking utensils, etc., when used as a screen or underlay, or when used for repairing building materials, cutting and bending are generally performed, but this is unexpectedly convenient. There are some aspects that are difficult to process.

(2) Metal plates or foils have excellent fire resistance, but when used as protective materials for heating appliances, they have high thermal conductivity and therefore have no insulation effect.

(3) When metal foil gets caked with oil stains or boiled boiling water during use, it is difficult to clean and remove the dirt, so it is often disposable.

Therefore, there is still a need for a material that has fire resistance comparable to that of a metal plate or foil alone, has excellent heat insulation properties, is convenient and easy to process, and can withstand long-term use.

[Means for Solving the Problems 1] In order to eliminate the drawbacks of the conventional metal plates or foils described above, the present inventors have developed a metal plate or foil that has heat insulation properties, fire resistance, processability, ease of handling, and is easy to clean. The study was conducted for the purpose of providing board materials for kitchens.

As a result, polyorganosiloxane resin with self-adhesive properties is mainly applied to one side of metal foil such as stainless steel, aluminum, copper, etc. to laminates such as glass paper and ceramic paper with polyorganosiloxane resin and carbon-functional organosilicon compound as binder. A metal clad heat-resistant plate with the above-mentioned performance was completed by applying a heat-resistant adhesive as an ingredient and laminating both sides or one side.

[Effect]

The present invention will be explained in detail below.

The inorganic laminate used in the present invention uses a polyorganosiloxane resin and a carbon-functional organosilicon compound as binders, which have particularly excellent fire resistance and water resistance, and the main elements of the laminate include glass paper, ceramic paper, etc. Use. Glass paper is made from glass fibers up to several microns in size, and ceramic paper is made from alumina-silica fibers. The above-mentioned binder is applied to these base materials, and the solvent is removed to create a prepreg sheet (laminate material).

On the other hand, on one side of the metal foil made of stainless steel, aluminum, copper, etc. used for lamination, a heat-resistant adhesive is made of a self-adhesive polyorganosiloxane resin mixed with a curing agent such as organic peroxide or aminoxycycine. The liquid is applied thinly and the solvent contained in the resin liquid is removed by heating and drying.

The pre-preg sheets thus created are stacked in a predetermined number,
A metal foil surface coated with a heat-resistant adhesive on both sides or one side is stacked on top of the other, sandwiched between mirror-finished steel sheets, double plates, etc., and laminated by a hot press to obtain an integrally formed laminate.

The metal foil used in the metal clad heat-resistant plate of the present invention is effectively compatible with the laminate due to its correlation with the adhesive film layer, producing elasticity that can withstand bending, and the synergistic effect supplements the bending strength. be able to. The thickness of the metal foil capable of exhibiting such a function can be 15 to 200 .mu.m, preferably 30 to 100 .mu.m, and the appropriate thickness of the laminate is 100 to 500 .mu.m.

The polyorganosiloxane resin used as a binder for inorganic laminates is a polymer composed of organosilo a-xane units represented by the general formula 1, 2 RS '' (OR) b Oc, and is selected from the group consisting of hydroxyl groups and alkoxy groups. It hardens by a condensation reaction of monovalent groups, and becomes a binder with excellent fire resistance when combined with glass paper, ceramic paper, etc. The polyorganosiloxane unit has an R'/Si ratio of 1.0 to 1.
A range of 6 shows favorable effects.

The carbon-functional organosilicon compound used in combination with this polyorganosiloxane resin is of the type generally known as a silane coupling agent, and is a monovalent compound containing a vinyl group, an amino group, a methacryloxy group, or an epoxy group as a carbon functional group. A di- or trialkoxysilane having an organic group is preferred, and by incorporating a small amount of the above-mentioned polyorganosiloxane resin of 1% or less, the effect of improving the water resistance and insulation properties of the inorganic laminate can be obtained.

Next, for the adhesive layer between the metal foil and the laminate, a self-adhesive polyorganosiloxane resin is used as a heat-resistant adhesive, which has a viscosity of at least 5,000 or more.
Polymeric diorganosiloxane with 1,000,000 centistoke hydroxyl terminated SiO units and RSiO
A polyorganosiloxane adhesive made of a toluene unit of 2 2 0.5 soluble resin strip copolymer, with the addition of 1% or less of aluminum hydroxide, magnesium hydroxide, etc. for the purpose of further enhancing flame retardancy. It is. Incidentally, addition of this amount does not inhibit adhesiveness.

A preferred embodiment of the invention will now be described.

Example 1 Glass paper 270 μm thick PAPI (trade name, manufactured by Nippon Inuki Co., Ltd.), which was made mainly from glass fibers of 10-odd microns or less, was mixed with 10 parts by weight of a polyorganosiloxane resin having one methyl group and a carbon-functional organic material. 0.05 parts by weight of γ-glycidoxypropyltrimethoxysilane as a silicon compound, 0.02 parts by weight of phosphoric acid as a curing catalyst, and 20 parts by weight of non-volatile matter diluted with a mixture of toluene and isopropyl alcohol (2:l) as a solvent. %
The prepared prepreg sheet is applied and dried at 80 to 100°C to create a prepreg sheet.

Next, a non-volatile content of 45% by weight of self-adhesive polyorganic and nosiloxane resin was applied to one side of each of a 50 μm thick stainless steel foil and a 50 μm hard aluminum foil.
Add 0.0 parts of aluminum hydroxide to 100 parts by weight of toluene solution.
A pressure-sensitive adhesive containing 5 parts by weight, 0.3 parts by weight of aminoxysilane and 5 parts by weight of methyl ethyl ketone as a curing catalyst is uniformly applied with a roller brush and dried at 60 to 70°C.

Two prepreg sheets thus prepared were sandwich-laminated, consisting of a 50 μm thick stainless steel foil coated with an adhesive and a 50 μm thick aluminum foil with the adhesive coated layer facing inside, and press molded.

Pressing conditions were: 40 kg/cm', 160°C, 10
After pressing for 1 minute, degassed for -10 minutes, then 20kg/
crn', 180°C, and 60 minutes of pressing.

The thus obtained metal clad heat-resistant plate does not burn even when exposed to flame, and can be easily cut with household scissors. Also,
Even with extreme bending of 180°, only a few layer cracks occurred at the bent portion, and good results were obtained that met the practical purpose of the present invention.

Example 2゜Example 1. and 2. In Example 2, a 100 μm thick aluminum foil was used instead of a 50 μm thick stainless steel foil. Three 80 μm thick mica prepreg sheets obtained by the same manufacturing method as in Example 1. 100μm thick aluminum foil coated with the same adhesive and 50μm
The same good results as in Example 1 were confirmed in the case of a metal clad plate obtained by sandwich laminating m-thick hard aluminum foils and press-forming them.

Example 3゜500 glass paper or ceramic paper
Using a μm thickness, each has a thickness of 100 μm, which is the same as in Example 2.
In the case of a metal clad plate made by sandwich laminating m-thick aluminum foil and 50 μm-thick hard aluminum foil and bonding them together by press-forming, there is a drawback that some parts of the board peel off more easily than the paper, but other than that, the expected effects can be obtained. It was confirmed.

[Effects of the Invention] As described above, the metal clad heat-resistant plate of the present invention is a prepreg sheet using a base material such as glass paper or ceramic paper using a binder whose main component is polyorganosiloxane resin with excellent fire resistance. This is a laminated board made of a combination of stainless steel foil and aluminum foil coated with a heat-resistant adhesive, which has excellent fire resistance and can be easily cut into desired shapes and dimensions with scissors. In addition, even when subjected to severe bending of 18o0, there is little layer cracking, the bending process can be easily and neatly performed, and it is extremely safe, convenient, and has excellent handling properties.

Therefore, it has a wide range of uses, including as screens and underlays for cooking utensils in kitchens that handle fire, and as repair materials for building materials.

In the above-mentioned embodiments, examples of using stainless steel foil and aluminum foil were shown, but metal clad heat-resistant plates with their respective characteristics can be easily obtained by combining other metal foils such as copper.

Furthermore, even in the case of a laminated board made of a mica prepreg sheet and a metal foil laminated on only one side, sufficient effects can be obtained depending on the purpose of use.

On the other hand, as a binder for prepreg sheets.

In the example, a case was shown in which the main component was a polyorganosiloxane resin with one methyl group, but a polyorganosiloxane resin with a maximum of 1.6 methyl groups and phenyl groups per St molecule was also used. Those containing sun resin as a main component can also be used. However, the metal clad heat-resistant plate produced using this method is inferior in fire resistance, but has much better flexibility and bending workability, and can be expected to have sufficient effects depending on the purpose of use.

Claims (4)

[Claims] (1) A laminate made of a polyorganosiloxane resin with excellent fire resistance and a carbon-functional organosilicon compound as a binder, and an inorganic material such as glass paper or ceramic paper as the main component, and a self-adhesive polyester plate on one side. A metal foil made of stainless steel, aluminum, copper, etc. coated with a heat-resistant adhesive mainly composed of organosiloxane resin is laminated on at least one side and cured by heating. Excellent metal clad heat resistant board. (2) The metal clad heat-resistant plate according to claim 1, wherein both surfaces of the metal foil are made of a combination of different materials. (3) The metal clad heat-resistant plate according to claim 1, wherein the metal foil has only one side. (4) The metal foil is made of a heat-resistant adhesive whose main component is a flame-retardant, self-adhesive polyorganosiloxane resin containing aluminum hydroxide. The metal clad heat-resistant plate described in item 3.