DE4304491A1 - Use of hard fillers in radiation-curable lacquers, coatings and printing inks in order to increase the abrasion resistance - Google Patents

Abstract

The document describes the use of hard fillers in radiation-curable systems such as lacquers, coatings and printing inks in order to increase the abrasion resistance.

Description

The invention relates to the use according to Patentan say.

Within the scope of the use according to the invention, radiation-hardening takes place systems, including UV-curable and electrons radiation-curable systems are to be understood as powdery hard Fillers added.

Radiation-curable systems of this type, in particular especially radiation-curable paints, coatings and printing colors are preferably based on those in the beam oil curing chemistry known acrylic acid esters (such as Polyu rethane, polyester, polyether or epoxy acrylates), but also based on the so-called unsaturated polyester or Basis of cationically curing binders, such as epoxy compounds, cycloaliphatic epoxy compounds, vinyl ethers or -ester built. Increase the powdery hard fillers now in the cured systems the abrasion resistance in be significant extent.

Powdery fillers for this come in particular Quartz, synthetic silicon dioxide, basalt, glass powder, glass ku gel or glass fibers, silicon carbide, tungsten carbide or Ko round in question.

These fillers preferably have an average particle size in the range from 1 to 50 μm, particularly preferably in the range from 5 to 20 µm.  

The fillers can be used alone or as a mixture Get involved.

The amounts of these fillers used are preferably 1 to 20% by weight, particularly preferably 5 to 10% by weight, based on the Overall wording.

Highly abrasion-resistant systems of the type described can be used come especially in the following areas:

• 1. as a lacquer or coating for wood and wood-based materials, preferably with particle board, MDF (= medium density fiber panels), parquet or veneer;
• 2. as a varnish, coating or printing ink for plastics, in particular thermoplastics, preferably polycarbonate and PVC;
• 3. as a varnish, coating or printing ink for paper and Carton.

These paints and coatings can be used as single or Multi-layer system can be applied.

Areas of application of such coated wood or wood Materials are preferably furniture, furniture fronts, work surfaces floors, floors, wall panels, doors or stairs.

Areas of application of such coated plastics are preferably sheets or foils for floors, furniture, furniture fronts, signs, glazing, profiles, car body parts, such as B. fenders or bumpers, suitcases and others.

Areas of application of such coated papers or cards tons are preferably decorative papers for wood-based materials strie, packaging and others.

The lacquers and coatings designed according to the invention can be rolled, cast, sprayed on the respective substrate  or dip painting can be applied. Appropriate pressure colors can be printed using the usual and well-known printing processes such as gravure, flexo, offset, book or screen printing become.

Conventional radiation-curing can be carried out in the manner described systems (varnishes, coatings and printing inks) that are used for an application is determined in each individual case by Addition of the fillers mentioned with regard to their abrasion significantly improve stability.

Furthermore, the Sy designed according to the invention takes place preferably add additives (such as e.g. Matting agent, anti-settling agent or rheological additive substances), additives (such as waxes, slip additives, defoaming mer, deaerator, dispersing agent, wetting agent, adhesive improvers and others) or organic or inorganic coloring pigments.

The amounts of hard fillers used are in particular 1 to 20% by weight, preferably 5 to 10% by weight, based on the Overall wording. The proportion of radiation-curable components te is in particular 50 to 95% by weight, preferably 60 to 90% by weight, based on the overall formulation. The share of Auxiliaries are in particular 0.5 to 20% by weight, preferably two se 1 to 15% by weight, based on the total formulation. Of the The proportion of additives is in particular 0.1 to 5% by weight preferably 0.5 to 2% by weight, based on the total formulation.

Incorporation of the hard fillers into the respective jet oil-curable system is carried out with common and well-known stirring and dispersing units, such as. B. paddle stirrer, dissolver, Ball or pearl mills, three-roll mills.

The following quantities in the working examples refer to weight percent.

The paints of these embodiments are preferably with an electron emitter with an acceleration voltage of 175 KeV hardened at a dose rate of 40 KGy.

The above embodiments lead to the following Re results.

Formulation A: highly abrasion-resistant, silk-matt coating varnish for the application on wood and wood materials.

Formulation B: highly abrasion-resistant, matt rolled lacquer for the ap application on wood and wood-based materials.

Formulation D: abrasion-resistant, silk-matt lacquer for the roller application on paper and cardboard.

Formulation C: highly abrasion-resistant lacquer for roller application on polycarbonate and on PVC, thermoformable.

By using the hard fillers according to the invention The abrasion resistance can be fixed in the radiation-curing systems radiation-hardened paints, coatings or printing inks  increase significantly in an unpredictable way. This ef fect is especially enhanced when the hard fillers by suitable means that prevent them from settling in the radiation-curable Prevent system from being stabilized.

By using hard fillers according to the invention particularly advantageous properties of the cured Systems. So z. B. the abrasion resistance test to DIN 53 799, part 4.6 using a Taber abrasive (grinding paper with 180 grit, 500 g load) of a common Chen UV varnish on parquet (layer thickness 70 µm) an abrasion worth 200 revolutions; same test of a paint Embodiment A, however, gives 2500 revolutions, so more than 10 times higher abrasion resistance.

Claims (4)

1. Use of powdered hard fillers in jet oil-curable varnishes, coatings and printing inks to increase abrasion resistance. 2. Use according to claim 1, characterized in that the powdery hard filler is selected from quartz, synthetic silicon dioxide, basalt, glass powder, glass balls, Glass fibers, silicon carbide, tungsten carbide or corundum or their mixtures. 3. Use according to one of the preceding claims, characterized characterized in that the powdered hard filler substances have an average particle size in the range from 1 to 50 μm exhibit. 4. Use according to any one of the preceding claims, characterized characterized in that the powdered hard filler substances in an amount of 1 to 20% by weight, based on the Overall formulation, can be used.