DD289182A7 - METHOD FOR PRODUCING PVC FILM ELEMENTS HAVING A HIGH LIGHT REFLECTION CONTRAST - Google Patents

Abstract

The invention relates to a process for the production of elements made of soft PVC films, which are used because of their special and unusual optical properties for effect purposes in advertising and design, but also for camouflage and / or deception in military technology. The object of the invention is to specify the production of a flexible PVC film with the addition of fluorescent perylene pigments and a formulation specification for this film, by means of which the contrast ratio, formed from the light reflection levels of adjacent surface elements, becomes greater. The object is achieved by mixing from a thermoplastic molding composition consisting of 70 to 80 parts by weight of suspension PVC (K value 60 to 70), 20 to 30 parts by weight of dioctyl phthalate, 0.2 to 0.5 parts by weight of fatty acid amide, 0.005 to 0.03 Parts by weight of fluorescent perylene pigment having a fluorescence quantum yield of at least 0.97, 0.1 to 0.3 parts by weight of calcium stearate, 0.2 to 1.2 parts by weight of modified dibutyltin mercaptide and / or modified dibutyltin maleate, 0.1 to 0 at 150C to 180C, 5 mm thick film is calendered. Contrast ratios of greater than 100 arise through suitable processing or combination, z. B. arrangement of surface elements of the film next to cut edges of the same film and / or elements with itself doubled film; further, by creating inhomogeneities and refractive edges as a result of perforating, stamping, stamping, etc. {PVC soft film; Light reflection contrast; Effect purposes; Advertising; Camouflage; Illusion; Light emission; thermoplastic molding compound; perylene; Flureszenzquantenausbeute; Cutting edge; inhomogeneity; Perforation; Calender}

Description

Field of application of the invention

The invention relates to a process for the production of elements made of soft PVC films, due to their special and unusual optical properties for effect purposes in advertising and design, in the graphic industry, but also for camouflage and / or deception in military application been used.

Characteristic of the known technical solutions

It is known and state of the art to make flexible PVC films colored by addition of inorganic and / or organic pigments. By arranging differently colored film elements side by side, color and brightness contrasts or more general light reflection differences can be achieved. Licijtreflexionsunterschiede arise even if contours and motifs printed on slides or üt> sr further films are laminated. In the case of camouflage films, GP F41 H / 219801 describes the setting of a specific contrast (contrast K as the ratio of the light reflection factors R ₁ , R _{2 of} two adjacent surface elements K = R, / R ₂ , Ri> Rj) by duplicating differently colored soft PVC films; In this case, K can be set in the range 10 to 80.

The highest contrast K achievable according to known technical solutions is achieved when a film (R ₂ = 0.01) of a film as proposed in GP F41 H / 286814-6 for winter tinting agent is applied to a film colored black with carbon black (R ₂ = 0.01); These elements consist of an aluminized polyester carrier film onto which a vinyl resin film highly concentrated with calcium carbonate and barium sulfate is applied. Such elements achieve a high degree of light reflectance near ideal white (R ₁ = 0.99); in combination with sooty black foil becomes K - R1 / R2 = 99

 The disadvantage of all known technical solutions, as described above, is that an increase in the contrast K beyond 100 is not possible. However, this is just as desirable for certain requirements of camouflage and deception in the military sector as for advertising and design materials. It is furthermore known that fluorescent perylene pigments can be incorporated in polycarbonates and / or polyacrylates (polymethyl methacrylate)

 However, according to Technical Information BASFTI / S1151 d v. Oct. 1986 due to compatibility problems between pigment and polymer matrix not possible to make an incorporation in PVC films.

Object of the invention

The aim of the invention is to overcome the disadvantages of the known technical solutions and to achieve a contrast greater than 100.

Explanation of the essence of the invention

The idea of solution is based on the recognition that it is virtually impossible to set R ₂ substantially smaller than 0.01

 Likewise, it is not possible to set Rt alone based on light reflection properties greater than 0.99. Since ideal white has a light reflectance of Ri = 1.00, the solution idea can only assume to increase the light reflection by a partial light emission as with self-illuminants.

The object of the invention is therefore the preparation of a soft PVC film with the addition of fluorescent perylene pigments

with a contrast greater than 100 and specify the packaging for different applications.

The object is achieved in that of a thermoplastic molding composition consisting of

70 to 80 parts by weight of suspension PVC (K value 60 to 70)

20 to 30 parts by weight of dioctyl phthalate

0.2 to 0.5 parts by weight of fatty acid amide

0.005 to 0.03 parts by mass of fluorescent perylene pigment with a fluorescence quantum yield of at least 0.97 (fluorescence quantum yield - number of light quanta emitted / number of light quanta absorbed) 0.1 to 0 * 3 parts by weight of calcium stearate

0.2 to 1.2 parts by weight of modified dibutyltin mercaptide and / or modified Dibutylzinnmaleinatund possibly other processing aids and additives (total of all components = 100), at 15O ⁰ C to 18O ⁰ C 0.1 to 0.5 mm thick film is calendered. Since this film reflects substantially more light over all edges and other refractive inhomogeneities than over the surfaces and there Ri is greater than 1.00 (Ri = 1.1 to 100), suitable

Processing or combinations of contrasts greater than 100 (101 to 1000) achievable. So z. B. surface elements of the film

surface next to cut edges of the same film are arranged. The high contrast is also created when the film itself is laminated on parts of the surface, d. H. is brought into optical contact. Contrast effects continue to arise when

Inhomogeneities and breaking edges are created by perforating, embossing, punching etc. of the foil. Ausführungsbelsplfale

1. From a thermoplastic molding composition consisting of

74,200 parts by weight of PVC S 6559 W 20 (VEB Kombinat Chemische Werke Buna) 24.291 parts by mass of Dicktylphthalat

0.356 parts of Irgawax 280 (CIBA GEIGYAG, Switzerland)

0.015 parts by weight of l.umogen F-Red 300 (BASF AG, Ludwigshafen, Germany) 0.148 parts by weight of calcium stearate

0.495 parts stabilizer BTS 70 (VEB Kombinat Chemische Werke Buna)

0.495 parts stabilizer BT22 (VEB Chemical plants Buna) 100,000

is calendered via a 4-roll F calender (temperatures of the individual calender rolls 175 ⁰ C, 17O ⁰ C, 16O ⁰ C, 155 ⁰ C) a soft PVC film with a thickness of 0.3 mm. From the film strips are cut 2 mm wide and arranged on the film so that the cut canton to the viewer or the reflection device show. Measured values: R ₁ (cut edge on foil): 11,20

R ₂ (FoUe): 0.10

K = R, / R ₂ : 112 ,

R ₁ , R _{2 are} each measured so that the film is lined with dark gray paper (R = 0.09). Application: Advertising and design

2. From the thermoplastic molding composition according to Ex. 1, a soft PVC film with a thickness of 0.25 mm is calendered on the calender described therein. Part of the film is doubled with a self-inking calender. Duplicate and undublated foil is placed side by side.

Measured values: R ₁ (doubled film): 4.10

R ₂ (foil): 0.02

K = R, / R ₂ : 205

R ₁ , R _{2 are} each measured so that pieces of film without optical contact are placed on top of each other until optical opacity occurs

 Application: Advertising and design

3. From a thermoplastic molding composition consisting of

74,200 parts by weight of PVC S 6559 W 20 24,763 parts by weight of dioctyl phthalate

0.356 parts of Irgawax 280

0.018 parts by weight of Lumogen F-Orange (BASF AG Ludwigshafen, Germany)

0.148 parts by weight calcium stearate

0.515 parts stabilizer BTS 70 100,000

is calendered via a 4-roll F calender (temperature of the individual calender rolls 178 ⁰ C, 175 ° C, 158 ° C, 155 ⁰ C) a soft PVC film with a thickness of 0.35 mm. In the film sheet-shaped segments are cut, which emerge from the film

Measured values: R _t (cut edges): 35.40

R ₂ (FoMe): 0.18

K = R, / R ₂ : 197

Ri, R2 measured as described in Example 2

 Application: Camouflage and deception in military technology

Such strongly contrasting leaf segments are consciously perceived by means of visual and / or photoelectric technology and thus serve as delusion elements. Against the high contrast of these means of deception reduces the recognizability of camouflage conventional contrast.

Claims (5)

1. A process for the production of film elements with high light reflection contrast, characterized in that from the thermoplastic molding composition consisting of 70 to 80 parts by weight of suspension PVC (K value 60 to 70) 20 to 30 parts by weight of dioctyl phthalate 0.2 to 0.5 parts by weight of fatty acid amide 0.005 to 0.03 parts by weight of fluorescent perylene pigment having a fluorescence quantum yield of at least 0.97 0.1 to 0.3 parts by weight of calcium stearate 0.2 to 1.2 parts by weight of modified dibutyltin mercaptide and / or modified Dibutylzinnmaleinat and optionally other processing aids and additives, at 15O ⁰ C to 180 ⁰ C, a 0.1 mm to 0.5 mm thick film calendered and further processed in a suitable manner. 2. The method according to claim 1, characterized in that the further processing of
Surface elements of the film surface next to cutting edges of the same film takes place. 3. The method according to claim 1, characterized in that the further processing by doubling the film is done with itself and parts doubled film in addition to such undublierter film
are arranged side by side. 4. The method according to claim 1, characterized in that the further processing of duplicated films next to such undublated films takes place side by side. 5. The method according to claim 1 and 4, characterized in that the further processing by
Perforation and / or embossing and / or punching or equivalent aids takes place.