DE19523086A1 - Use of polymer molding compounds for partial color changes by laser energy to generate optical information with very good contrasts - Google Patents

Abstract

The invention pertains to the use of polymer molding compounds composed of polymers selected from the group of polyamides, polyolefins, ABS-type graft polymer, polyacrylates, polymethacrylates or a mixture of polycarbonate, ABS-type graft polymer and optionally copolymer, carbon black, reinforcing materials, elastomer modifier, flame-protection additives and processing additives, to produce light or gray markings on a dark background using laser inscription, in particular to generate high-contrast optical information, for example letters, numbers, patterns and/or pictures, etc.

Description

The invention relates to the use of polymer molding compositions for partial Color change due to laser energy, especially for the generation of optical information, e.g. B. letters, numbers, patterns and / or pictures etc. with very good contrasts.

The application of patterns, letters, numbers and / or images using a laser Radiation pen for marking and decorating molded parts Plastics are becoming increasingly important. In addition to the host Laserbe offers economy over conventional marking processes high flexibility with regard to font, font size and font design, regardless of the lot size. Marking electrical / electronic Components, keycaps, housings and ID cards are a classic feature application for laser marking.

The following options for marking plastics using laser are known.

1. Dark characters on a light background

A polymer matrix is made with light colorants - pigments or dyes fabrics - colored. In the case of laser marking, the Laser energy partially carbonizes the polymer matrix / colorant. Here there is a dark discoloration of the light polymer matrix. This ver hold is limited to polymers that tend to carbonize.

The contrast ratios that can be achieved in this way are sufficient for many applications do not command. The addition of colorants by absorption of the  Laser energy changing color is described in EP-A 0 190 997. So z. B. Polybutylene terephthalate colored red with iron oxide. In the Laser lettering creates dark characters on a red background. The Contrast ratio has proven to be insufficient.

2. Bright characters on a dark background

Polymers, dyes or Additives that tend to foam due to absorption of laser energy, proven. Foaming creates bright fonts on dark ones Underground. The achievable contrast ratios are for many uses do not command sufficient.

The present invention relates to polymer molding compositions which are used in absorption laser energy bright signs on dark background with very high Contrast ratio result.

Surprisingly, it was found that by using very fine distributed carbon black in the polymer matrix bright signs on dark Background can be achieved by absorption of laser energy. By changing the laser energy, different shades of gray can be created be preserved.

The invention relates to the use of polymer molding compositions out:

• A) 99.95 to 50% by weight of polymer matrix,
• B) 0.03 to 0.2% by weight of carbon black,
• C) 0 to 2.0% by weight of white pigment,
• D) 0 to 50% by weight of reinforcing materials,
• E) 0 to 20% by weight of elastomer modifier,
• F) 0 to 55% by weight of flame retardant additives and
• G) 0 to 2 wt .-% processing additives

for generating light or gray characters on a dark background using Laser beam recorder.  

Another object of the invention is the use of the colored poly mere for the production of shaped objects by means of laser beam recorders be labeled, labeled or provided with pictorial representations can.

The polymer molding compositions used according to the invention can be prepared commercially available single-shaft and twin-shaft extruders. The dosage of the Soot occurs as a color concentrate. Can be used to manufacture the molded parts commercially available injection molding machines can be used.

Suitable as polymer matrix A) for the molding compositions used according to the invention 99.5 to 50 wt .-% polymers such. B. based on polyamide, polyester, Polyacrylate, polymethacrylate, ABS, polyethylene, polypropylene, polystyrene, poly vinyl chloride, polyoxymethylene, polyimide, polyether and polyether ketones or Mixtures of these.

0.03 to are suitable as carbon black B) of the molding compositions used according to the invention 0.2% by weight of very finely divided carbon blacks. The carbon black can be pure carbon black (particle size 13 to 20 nm), in pearl shapes or as a concentrate such. B. in microlens Black B® from Ciba Geigy (Basel).

Up to 2% by weight of titanium dioxide and / or zinc sulfide can be used as the white pigment C) be used.

As reinforcement D) of the molding compositions used according to the invention are up to 50% by weight of commercially available glass fibers and / or mineral fibers and / or minera fillers such as kaolin, wollastonite, talc or chalk are used.

Up to 20% by weight are used as elastomer modifier E) according to this invention. commercially available EP (D) M rubbers, graft rubbers based on butadiene styrene Acrylonitrile, acrylate rubbers, polyurethanes or EVA copolymers with or without functional coupling groups used.

Up to 55% by weight of commercially available organic are used as flame retardant additives F) Compounds or halogen compounds with synergists or commercially available organic nitrogen compounds or organic / inorganic phosphorus compounds  uses. Also mineral flame retardants such as Mg hydroxide or Ca-Mg carbonate hydrate can be used.

The processing additives G) consist of up to 2% by weight of commercially available Lubricants, stabilizers, mold release agents and nucleating agents.

Commercial laser systems, preferably Nd-YAG-Fest, can be used as energy sources body to be used. The wavelength can be between 193 nm and 10600 nm, preferably 1064 nm.

The molding compositions used according to the invention can be used to apply optical information in the form of patterns, graphics, numbers, letters, Characters, pictures (e.g. passport photos, portraits, photos) etc. by means of Laser energy, e.g. B. be used by laser beam recorder.

So z. B. photographic images of the invention Molding compounds are transferred.  

Examples

The following products were used in the examples:
Polyamide 6 = Durethan B 31SK® from Bayer AG
Polyamide 6 glass fiber reinforced (30%) = Durethan BKV 30 H® from Bayer AG
Polyamide 6 glass fiber reinforced (30%) impact mod. = Durethan BKV 130® from Bayer AG
Polyamide 6 glass fiber reinforced (30%) with ted. Water intake = Durethan
RM KU 2-2501® from Bayer AG
Polyamide 6 glass fiber and mineral reinforced = Durethan BG 30 X® from Bayer AG
Partly aromatic. Polyamide = Durethan T 40® from Bayer AG
Polybutylene terephthalate = Pocan B 1506® from Bayer AG
Polybutylene terephthalate glass fiber reinforced (25%) = Pocon B 3225® from Bayer AG
ABS = Novodur P2H® from Bayer AG
ABS + polycarbonate flame retardant = Bayblend FR 90®
PMMA = Plexiglas 7N® from Röhm GmbH Darmstadt
Bayertitan PKB-2® from Bayer AG
Carbon black Microlen B © / Ciba Geigy
Printex 300® / Degussa
Raven 2000® / Rhein Chemie, 20% concentrate
KN 2014®Cabbot (Belgium)
Sachtolith® from Sachtleben

Examples 1 to 6 (Tables 1 and 2)

The dyes were premixed with the granules and over a Twin-screw extruder extruded and granulated. The granules obtained was injection molded into sheets on an Arburg injection molding machine and with a FOBALLAS ND-YAG laser labeled.

Depending on the intensity of the laser beam energy, white or whole characters appear generated black background. All characters and symbols stand out with very good contrasts with different shades of gray.  

Table 1

Table 2

Claims (12)

1. Use of polymer molding compounds

• A) 99.95 to 50% by weight of polymer matrix,
• B) 0.03 to 0.2% by weight of carbon black,
• C) 0 to 2.0% by weight of white pigment,
• D) 0 to 50% by weight of reinforcing materials,
• E) 0 to 20% by weight of elastomer modifier,
• F) 0 to 55% by weight of flame retardant additives and
• G) 0 to 2 wt .-% processing additives

to create light or gray characters on a dark background using laser inscription. 2. Use according to claim 1, characterized in that they are microlens Schwarz B® as 50% concentrate as finely divided soot. 3. Use according to claim 1, characterized in that it as Polymers 99.5% to 50% by weight polyamide, polyester, polyacrylate, poly methacrylate, ABS, polyethylene, polypropylene, polystyrene, polyvinyl chloride, polyoxyymethylene, polyimide, polyether, or polyether ketones or Mixtures of these contain. 4. Use according to claim 1, characterized in that it as Reinforcing materials 0 to 50% glass fibers, mineral fibers or mineral Contain fillers. 5. Use according to claim 1, characterized in that it as Elastomer modifier 0 to 20 wt .-% EPM, EPDM, acrylate rubbers or contain EVA copolymers. 6. Use according to claim 1, characterized in that it is a flame protective agent 0 to 55% by weight of commercially available flame retardants Based on organic halogen, nitrogen, phosphorus, or Mg Contain hydroxide, or Ca-Mg carbonate hydrate.   7. Use according to claim 1, characterized in that it as Processing additives 0 to 2% lubricants, stabilizers, mold release contain agents and nucleating agents. 8. Use according to claim 1, characterized in that it as Processing additives 0 to 2% lubricants, stabilizers, mold release contain agents and nucleating agents. 9. Use according to claim 1 for the application of optical Information using laser energy. 10. Images according to claims 1 and 9. 11. Passport picture, portrait, photo transferred according to claim 10.