Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Reexamination Certificate
2000-07-25
2001-10-23
Sanders, Kriellion A. (Department: 1714)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
C524S099000, C524S102000, C524S231000, C524S252000, C524S378000, C524S400000, C524S487000, C524S515000, C524S538000, C524S612000
Reexamination Certificate
active
06306940
ABSTRACT:
The present invention relates to colorant concentrates which are particularly suitable for coloring molding compositions made from polyoxymethylene (POM) and for producing colored injection moldings or colored POM extrudates. The resultant products are particularly stable during processing and have very low formaldehyde emissions.
The invention further relates to the use of the novel colorant concentrates for preparing colored POM pellets, POM molding compositions or POM moldings with low formaldehyde emission, and to the process associated therewith for preparing low-emission, colored POM materials and low-emission POM molding compositions which comprise appropriate proportions of the constituents of the novel colorant concentrates.
Since their introduction into the market about 30 years ago, polyoxymethylenes have become established as highly useful engineering plastics for a great many applications. POMs are particularly widely used as engineering plastics in automotive construction and in the electrical industry, as found in many examples in POM producers' technical service literature.
The advantageous properties of polyoxymethylenes means there is a requirement for their use to be extended to visible parts and for further application sectors to be opened up for the materials. However, for this it is frequently necessary for the material to be matched for visual purposes, i.e. color-matched. To this end, colorants in the form of pigments or polymer-soluble dyes are admixed with POM molding compositions.
Pigments and dyes are in most cases dusty and tend to clump and agglomerate and are therefore often not free-flowing. It is therefore very costly to incorporate pure colorants uniformly into plastics. To achieve uniform perceived color, however, uniform distribution of the colorant in the plastic is particularly important. It can be achieved by first mixing a high concentration of colorant into polymeric carriers, usually with addition of dispersion aids. The resultant colorant preparation, also termed masterbatch or colorant concentrate, is then admixed with the plastic to be colored in order finally to achieve the desired perceived color.
Now it is well known (Damm, W. and Herrmann, E., in Gächter, Müller; 3rd edition, 1989, p. 730) that specifically POM is particularly difficult to color. This material is highly sensitive to foreign substances, particularly if these contain acid or have acid groups, as is often the case with colorants. This means that degradation of the material, leading to release of formaldehyde, can occur during processing, and this severely impairs the usefulness of the material for producing moldings. For these reasons it has hitherto been possible to use only a limited number of colorants for pigmenting POM without adverse effect on the properties of the material or of the product. To suppress degradation of the material in POM molding compositions use is usually made of stabilizers. Effective stabilization is particularly important in colored POM molding compositions.
Attempts have long been made to circumvent these disadvantages. JP-07053770 describes how pigments are incorporated into a polyolefin carrier using long-chain primary alcohols, to obtain a color concentrate for coloring a wide variety of commercial polymers. Many other texts (JP-02281046, U.S. Pat. Nos. 4,810,733, 4,624,983, JP-60086155) also describe the use of polyolefins as carrier for pigments.
JP-08208946 adds dicyandiamide as stabilizer to a colored polyacetal molding composition. This reduces formaldehyde odor during injection molding with no loss of physical properties.
JP-04077528 describes the use of POM as carrier material for pigments. This mixture also has admixed nylon-6 and boric esters as dispersing agents. KR-9308188 describes the use of POM as a carrier for conductivity black.
Although, as stated above, the use of POM as carrier material for pigments is already known, the current problem of chemical instability followed by formaldehyde liberation during processing and from moldings has hitherto not been adequately solved. The customary colorant concentrates used hitherto do not reliably produce low-emission moldings.
There was therefore a need to develop POM molding compositions in which firstly the colorant has very good dispersion and secondly there is a significant reduction in the formaldehyde emissions hitherto found from these compositions.
The object is achieved by colorant concentrates which comprise POM as carrier material and stabilizers and, if desired, dispersion aids, as well as the necessary colorants.
The novel colorant concentrates are composed of free-flowing POM copolymer as carrier for 15-80% by weight, preferably 20-60% by weight, particularly preferably 20-45% by weight, of colorant, 2-15% by weight, preferably 2-10% by weight, particularly preferably 4-10% by weight, of nitrogen-containing stabilizer and 0-15% by weight, preferably 0-10% by weight, particularly preferably 3-5% by weight, of dispersion aids. The POM here may also comprise other customary additives, such as UV stabilizers etc. The % by weight data here are based on 100% by weight of colorant preparation.
The free-flowing POM copolymer used according to the invention comprises an oxymethylene copolymer which generally contains 0.6-15 mol %, preferably 0.8-12 mol % and particularly preferably 1-10 mol % of oxyethylene units as comonomer units in the POM copolymer and has an MFR of 9-50 g/10 min, preferably 13-35 g/10 min and particularly preferably 25-35 g/10 min. The number-average molar mass Mn determined by GPC is at least 5000 g/mol, generally 30,000-70,000 g/mol and preferably 45,000-65,000 g/mol. A mixture of different polyoxymethylene copolymers of differing compositions may also be used instead of a single POM copolymer.
The colorants used may be any desired inorganic pigments, such as titanium dioxide, ultramarine blue, cobalt blue and other, organic pigments and dyes, such as phthalocyanines, anthraquinones and others, or carbon black, either individually or as a mixture or together with polymer-soluble dyes. Surprisingly and specifically, using the colorant preparation with its composition according to the invention means that the selection of colorants is no longer restricted to those hitherto particularly suitable for POM.
Particularly advantageous nitrogen-containing stabilizers are triamino-1,3,5-triazine and its derivatives, aliphatic diamines, among which the secondary diamines are preferred, piperidine derivatives, including polymeric forms, preferably 2,2,6,6-tetramethylpiperidine derivatives, melamine-formaldehyde condensates, polyamides, dicyan diamide, allantoin and its derivatives, and also hydantoin and its derivatives, individually or in combination.
Dispersion aids which may be used, individually or in combination, are polyalkylene oxides, such as polyethylene glycol (PEG), alkali-metal or alkaline-earth-metal salts or salts of other bivalent metal ions, such as Zn
2+
, of long-chain fatty acids, such as stearates, laurates, oleates, behenates, montanates and palmitates, and also amide waxes, montan waxes or olefin waxes. Preferred dispersion aids here are high-molecular-weight polyalkylene oxides, in particular polyethylene glycol with a molecular weight above 25,000, amide waxes, montan waxes or olefin waxes, and also the stearates or hydroxystearates of magnesium or of calcium.
The novel colorant concentrates may be prepared simply by mixing the components. The colorant concentrates may then be incorporated into POM molding compositions by the general customary and known processes, such as pelletizing, extrusion, kneading, etc. The proportion of the colorant concentrate in the colored POM molding here depends on the color intensity of the colorant selected and on the perceived color desired. In principle any mixing ratio is possible.
It is also possible for the appropriate proportions of the constituents of the novel colorant concentrates, i.e. the colorants, the stabilizer and, if present, the dispersion aid, to be incorporated directly into
Disch Stefan
Eckardt Peter
Hoffmockel Michael
Muck Karl-Friedrich
Reuschel Gerhard
Connolly Bove & Lodge & Hutz LLP
Sanders Kriellion A.
Ticona GmbH
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