DE1804095C - Heat reflective material - Google Patents

Description

804 095

The invention relates to a heat-reflecting embodiment shown in the drawing

rendes material with an over an adhesive layer with explained in more detail. In the drawing shows a flexible carrier material connected plastic F i g, 1 a partial section through a flexible, thermal film, which is at least on its carrier material resistant material according to the invention, the facing surface is smooth and is connected on both of its 9 with a carrier material, Surface has a vapor-deposited metal film. F i g. 2 a block diagram to explain the

Process steps around the material according to FIG. 1 have often been sought with varying degrees of success, namely flexible, heat-reflecting modeling.

material to create the up to the production of protective I _n ρ ig. 1 is that flexible, heat reflective suits and the like are useful. Such a material 10 protective material according to the invention as a whole with should not only mean radiant heat 10 in an effective manner. It has, among other things, a foil 12 that is reflective and flexible, but it should also be made of polyimide resin. Polyimide resins are particularly durable in the sense that ^A .s withstands abrasion of their combination of physical, chemical, and thermal and electrical properties in so far as the heat reflector can be bent without destroying its effectiveness. 15 than they are strong, durable and chemically inert and

Such a material is described in British Patent Also Good Electrical Properties and document 924,636. It consists of possessing an excellent thermal stability. In particular, film made of polyethylene terephthalate, which is suitable for the application of the surfaces according to the invention, a vapor-deposited aluminum multilayer material has been shown to be a polyimide, film and is attached by means of an adhesive layer to a flexible carrier under the name polypyromellitimide. This material is known. The strength of the polyimide film 12 is not critical, although it can be used satisfactorily in many cases. It can be a layer of any usual one so that it can be used according to the requirements, for example within the right. However, the range between 6 μ and about 0.25 mm is relatively complicated. The two surfaces 14 and 20 of the film 12 can therefore only be produced with greater time and expense. are smooth. The surface 14 of the film carries a very

The invention is now based on the object of creating a thin adhesive layer 16 of a suitable, normally simpler and cheaper to manufacture, thermally reflective, non-tacky, thermosetting adhesive material / u. This is done with a rials. The adhesive material should advantageously be Materia! of the type mentioned at the outset _{according to the invention 30,} after curing, achieves an equally good thermal stage in that the plastic film is made of a bility like film 12, and any polyimide can be made and only on its adhesive that corresponds to the carrier! With these features facing away from the surface a vapor-deposited metal can be used. For example, the use of film and that between the plastic film and neoprene-guinmic adhesive or nitrile-rubber metal film, a thin second adhesive layer of _3S adhesive with or without pl.uiul is favorable. It can fer a heat-bonding adhesive is provided. _n he also vei a thin cover of a nitrile rubber

This means that only a single turn is required, on which a neoprene rubber reflective metal film is required. It is brought about. This can polychloroprene or Butahinaus · wi.d by these measures weiia ".a" crylonitril with c <). 'I' i'.ac PVnolformaldehyd more superior wärmereflek! Erep ^H? S Mt ■ <·!. " achieved, be 40. Fen; .τ can also ni: J. ··. KJeUmittcl. bei .] ., _s »,. -; r, -. _r .« ■ • | 'i «r», _! , hwcjsv ,: fi. F ^ vnsciiaticu. For example, thermosetting polyvinyl butyral o.in is more resistant to hold and kinking and phenolic bulyryl can be used. The thin long exposure to moisture without adhesive layer 16 can be applied to the surface 14 in any way that the individual layers separate from each other solve _e j _ner known manner using a geals the previously known material aufwendi- ₄₅ with the suitable plasticizer or solvent aufgegen multilayer body. are placed. As the nature of the application of the adhesive

According to one embodiment of the invention, the layer 16 per se does not form part of the invention, the polyimide of the plastic film being polypyromellitimide. Pre _SO H will not be discussed in more detail, some way legally the metal film and the Trä- exist Now that the polyimide film 12 with a thin

gerstoff, as from the said British Patent ₅₀ nen adhesive layer is provided i6, a metal signature is known from aluminum or a heat-resistant layer 18 of a suitable heat reflecting resistant material. Metal, for example aluminum, on the adhesive

According to a further embodiment of the invention, coating 16 is applied. Preferably this is done there is also the first adhesive layer between the synthetic material by vapor deposition of aluminum on this layer fabric sheet and the carrier fabric from a heat bond 55 in a vapor deposition process like this ilen glue, which is advantageously a phenolic resin. . is indicated by the block 22 in FIG. At-

In an advantageous method of production, for example, aluminum can be heated to approximately 700 ° C in a heat-reflecting material according to the invention, a vacuum vapor deposition device, and then the metal film is vapor-deposited onto the normally non-polyimide film with layer 16 through the device-sticky second adhesive layer. Be passed therethrough chamber 60 then, under a is the adhesive layer, optionally silver pillar together with suitable pressure, for example 10 ~ ⁵ mm Queckderjenigcn between the plastic film and the Trä- stands. This process is continued, heated and thereby added to the sticky additive until a metal layer of such thickness has been transferred. For this purpose, the second adhesive layer 65 may reflect heat after another is deposited, the effectively radiant embodiment of the invention.

at least in part by the vapor deposition of the metal, while the thickness of this coating per se is not

tallfilms are heated. forms part of the invention, it should be pointed out

In the following the invention is shown on the basis of a reflective aluminum layer

preferably from a thickness of 50 and about SOO Angstrom is applied. It is possible to use corrosion-resistant materials other than aluminum nium for the formation of the reflective layer, but aluminum is preferably used, β since it is relatively cheap and resistant to corrosion.

In most cases it is desirable to apply the multi-loop body formed in this way to a carrier layer, for example a backing material 24. This can be achieved by applying the multilayer body to the surface 20 of the film 12 after the layer 16 has hardened and a second adhesive layer 26 of a suitable adhesive has been applied, for example corresponding to the adhesive of the adhesive layer 16, as is done by the block 28 the Fig.2 is indicated. After the adhesive layer 26 has been applied to the surface 20, this multilayer body is now applied to the carrier material 24, as indicated by the block 30. This adhesive _"0 by application of pressure and heat layer, as indicated by the block 32, cured.

The substrate 24 is preferably made of a heat resistant material such as Fiberglass or asbestos yarn.

The material resulting from the above-mentioned operations combines in a particularly favorable manner the desired characteristics of a highly heat-reflecting, durable and abrasion-resistant material with slight flexibility, resistance to moisture without any Damage to the metal layer 18 and also good thermal stability. This material is in particularly suitable for use in the manufacture of protective suits and the like.

Claims (8)

Patent claims 1. Heat-reflecting material with an over an adhesive layer with a flexible support lofi connected plastic film, at least on its surface facing away from the carrier material is smooth and has a vapor-deposited metal film on its two surfaces, characterized in that the plastic film (12) consists of a polyimid and only on its surface (14) facing away from the carrier material (24) a vapor-deposited metal film (18) and that between the plastic film (12) and the Metal film (18), a thin second adhesive layer (16) made of a heat-bonding adhesive is provided 1st. 1 2. Material according to claim 1, characterized in that the polyimide is polypyromellitimide jst. 3. Material according to claim 1 or 2, characterized in that the metal film (18) consists of aluminum. 4. Material according to claim 1, 2 or 3, characterized characterized in that the carrier gate (24) consists of a heat-resistant material. 5. Material according to any one of the preceding claims, characterized in that also the first adhesive layer (26) between the plastic film (12) and the carrier material (24) made of one thermosetting adhesive. 6. Material according to claim 1 and / or S, characterized in that the adhesive is a phenolic resin. 7. A method for producing a material according to any one of the preceding claims, characterized in that the metal film (18) is vapor-deposited onto the second adhesive layer 16) will. 8. The method according to claim 7, characterized in that the second adhesive layer (16) at least partially ό \ .: ·, Ή da ·, A ^ d ^ nj · / ;: «t'er. Metal film (! 8) warms ·. «. Mi. 1 BIaU Zcier nangcn on this