DE1694619C3 - Method of weathering polyester material - Google Patents

Description

The present invention relates to a method for producing a weatherproof Polyester material and products made therefrom, in particular to a method for intimate bonding of a polyester material having a light absorber by reacting with the polyester, thereby forming a weatherproof, lightfast polyester material is formed.

Polyester materials are obtained as a reaction product of polybasic acids and polyhydric alcohols. A particularly common polyester is, for example, the reaction product of terephthalic acid and ethylene glycol to form a synthetic polyethylene terephthalate material. The synthetic polyesters formed by such a process are used, for example, as a textile material or for films.

Although these synthetic materials have a high Having tensile strength and resistance to most chemicals and heat, no polyester material can be used where the one made from it Product of the weather, especially sunlight, is exposed. Weather and especially sunlight with its UV rays decompose the polyester material within a relatively short time of about a year or less and make it brittle. UV light causes chemical breakdown of the Polyester and breaks the polymer chain. causing a decomposition of the product made from it is effected. To overcome this problem, manufacturers often coat the polyester material with a binding agent and put a layer of UV absorbers over it, in order to make the plastic surface resistant to llV-Liiht / u.

The previous methods have proven to be unsatisfactory, as cracks in the (Iber / ugs surface. Openings and perforations result in areas in which UV light causes the polymer chain to decompose and the product can no longer be used make, Furthermore, the IJber / iigsverfahren can only for covering polyester foils a peck of 0.13 mm can be used, as this is used for covering The process used for the foils is technically not easy or possible for thicknesses below 0.13 mm. A Another disadvantage of this process is that «in the binder (intermediate layer) is necessary; this is usually sensitive to UV light, although it is in the coating over the adhesive layer If a UV absorber is used, the UV light may pass through the absorber cover through and breaks down the adhesive layer, causing it to detach itself from the polyester material. The aim of the present invention is to create an improved, weatherproof, lightfast Polyestermatenals, which remains practically unaffected by UV radiation, and in cheap production, for which the existing machines for

ίο manufacture of such material not changed need to become.

The process according to the invention for the production of weatherproof polyester moldings resistant to decomposition by sunlight is thereby characterized in that the molded parts are treated with a solution of a conventional UV absorber which is reactive with the polyester in a polyhydric alcohol at a temperature between 120 ^° C. and the boiling point of the polyhydric alcohol.

then washes with water and finally the treated molded parts on at least one The flash point of the polyhydric alcohol is heated to the corresponding temperature. The polyvalent alcohol reduces the polyester properties after treatment not and nevertheless supports the intimate connection of the UV absorbers with the polyester. Polyester moldings to be treated according to the invention are all synthetic Polyester textile materials in the form of felt. Yarns. Rope, woven or knitted textile materials as well Foils.

According to the invention it was surprisingly found that by using a polyvalent Alcohol as a carrier and a lightfast UV absorber. Making a bath from them.

Heating the bath and passing the polyester material through the carrier causes the lightfast UV absorber penetrates the polyester material and forms a weatherproof and lightfast polyester material intimately united with it.

The carrier is then removed from the material. simply by subjecting it to ordinary heating. The boiling point of the carrier, i.e. the polyhydric alcohol should be below the melting point of the polyester material in order not to affect its structure to change.

The polyester material treated with a light absorber remains practical due to UV radiation unaffected. Even where the polyester material has been wrinkled or punctured, it will not show any degradation

one way or no embrittlement due to a long Exposure to UV radiation. The light absorber is homogeneous Polyester material present, so that the entire polymer chain of the same against one Resistant to attack by UV light.

The carrier should be used in the form of a liquid and during the incorporation of the light-resistant absorbent in the polyester do not evaporate material. According to the invention, polyhydric alcohols are used as carriers should be practically anhydrous to the desired maintain the high boiling point of the bath formed with the light-resistant absorbent, so that evaporation of the bath is kept to a minimum. According to the invention, more Valuable alcohols are glycols, glycol ethers or Polyglycols. Suitable glycols are e.g. B. ethylene, diethylene, propylene ·, dipropylene, biitylene and Glycerin. Although all of the carrier polyols mentioned

are suitable, ethylene glycol has been found to be more preferred Carrier proven when a light absorber is applied to a polyester film; Diethylene glycol becomes with the application of a light absorption agent a polyester textile material, particularly preferably S

Any light absorber that is reactive with the polyester material can be used and is practically unaffected by the wearer. Many such absorbents are known, e.g. B. the Mono-o-hydroxyben? .Ophenone or the o-hydroxyphenolbenzotriazole. A commercially available light absorber with particularly good results is a substituted benzophenone with only traces of inorganic salts. Other commercially useful light absorbers are phenyl - «- methyl styryl ketone and Benzo tri azo I.

The amount of UV absorber and carrier used to make the bath for treating the polyester material can be varied. 2 - 25 g / l or more absorbents can be used in the bath. However, 16-18 g / l absorbent in the bathroom are avoided, since this amount is sufficient for practically complete treatment of the polyester material and, when used according to the invention, makes it resistant to UV radiation. is

The bath of absorbent and support is heated to facilitate the reaction of the absorbent with the polyester material. By heating the bath to at least about I2O ^C C, the carrier and absorbent quickly penetrate the polyester material. The solution is not heated above the boiling point of the polyvalent alcohol to avoid loss due to evaporation.

It has been found that the polyester material can be damaged by the solvent action of the carrier contained in the bath solution if it is brought into contact with the heated bath solution at a temperature above 22TC. vVid z. B. PolyeMermaterial with a temperature above 22PC passed through a bath solution, it can be damaged by the carrier contained in the bath solution. However, if the polyester material is brought into contact with the bath solution in such a way that the mass of the heated bath solution cannot ^{bring the polyester material to a temperature above 22I 0} C, then the bath solution can also have a temperature above 22PC without damaging the polyester material will.

The reaction of the polyester with that containing the UV absorber and the carrier Bath can according to the temperature, the concentration of the bath, the mass of to be treated Material, i.e. thickness or total denier, and the speed at which the polyester material passed through the bath, vary. It was found that the polyester material was only 2-30 Seconds to be brought into contact with the bath: usually 2-3 seconds are enough Treatment of the polyester material to make it UV lightfast / ti.

After such treatment and reaction of the material with the absorbent, the carrier becomes removed by bringing the treated polyester material to a temperature above the flash point of the carrier, however heated below the melting point and decomposition point of the polyester material. Although the boiling points of some polyhydric alcohols are above 22PC their flashpoints are significantly below 22P, as can be seen in the following table:

Boiling point flash point

Ethylene glycol Diethylene glycol Propylene glycol Glycerin

197 246 188 290

99 143

99 177

Usually the carrier is removed by applying a stream of air over heating elements, such as electrical ones Heating coils in which the air can reach a temperature of over 221 ° C; due to the This one reaches the speed with which the polyester material is passed through the heating zone Temperature above 221 ° C not thereby avoiding damage to the same. The polyester material will however, practically all of the polyester material is heated after application of the absorbent remove remaining carrier polyol. In practice it has been found that the temperature in the heating zone can be kept between about 177-232 ° C without any damage to the polyester material entry

example 1

A roll of polyester film about 0.13 mm thick was passed through a bath to act as a support Ethylene glycol and, as a light absorbing agent, one based on benzophenone in an amount of 2 -25 g / l bath solution contained. The temperature of the bath solution was kept between 163-177 ° C. the Foil was passed continuously through the bath at such a rate that the foil surfaces were in contact with the bath for a maximum of! 0 seconds was. The film was then quenched in a room temperature water bath to remove excess To remove the bath solution of absorbent and carrier adhering to the film surfaces. To be practical To evaporate all of the 1 stores enclosed in the film, the film was then passed through a heating zone with a Temperature of 204-232 ° C. Thereafter, the film has been rolled up again and is for immediate use or for dispatch. Storage and later Ready to use

Example 2

A woven polyester textile material suitable for use as a sail or tent sheet. became passed through a bath as in Example I, however, diethylene glycol was used as the carrier material. After going through the bathroom it became Textile material passed through the nip of a pair of nip rollers to remove excess bath solution to remove from absorbent and carrier adhered to the material surface: then as in Example 1 treated further.

Example 3

A polyester material in the form of 25-end pieces (250 warp threads) was made as in Example 2 treated, however, as a UV absorber Phenyl - «- methyl styryl ketone in an amount of l5cmVI bath solution was present. The temperature of the bath was kept between 177-188 ° C. the Pieces were passed through the bath so that their surfaces were immersed in the bath for a maximum of 20 seconds Touched. The treatment then continued as in Example 2.

Similar results were obtained with other absorbents, such as those from the class of mono-ohydroxy-benzophenones or o-hydroxyphenolbenzotriazoles

To determine the weathering properties, the treated material of Example 1 was with a compared untreated polyester film from the same roll in standard test methods. One sample each treated and untreated material were placed in a weather meter to measure the weather properties the slide, d. H. its resistance to UV degradation. In this Device both samples were subjected to intermittent UV radiation. After 2000 hours Irradiation with UV light showed the treated polyester material no dissolution, decomposition, Embrittlement, etc. However, the untreated sample became after 900 hours of irradiation with UV light “Prudish and dissolved. In another test, photographic samples were placed in a Fade-O-meter as above laid and exposed to continuous UV irradiation. After 5000 hours, the treated sample shows no signs of dissolution, decomposition or brittleness. The untreated film was on the other hand, it became brittle and dissolved after only 380-390 hours.

As stated above, the polyester material formed according to the invention is made light and weatherproof been. The film produced in Example 1 can ι. B. for covering greenhouses or showcases used where UV light could damage the items inside. The material of Example 2 can be used for sails, tents, tarpaulins or similar materials where there are different Exposed to weather conditions. The polyester material of Example 3 can be made to any desired Textile material, e.g. B. as clothing, carpet, etc., can be processed.

The weatherproof, lightfast polyester material can also be used for many other purposes will; a weatherproof polyester film can consist of painted characters or the painted exterior of

ίο aircraft are coated in which the the paint used is sensitive to UV radiation; so will the life of the materials extended. So fades z. B. an International paint sample used to mark aircraft Orange after 200 hours of exposure in a fade-o-meter. In the case of the same sample, its layer surface is covered with a weatherproof polyester film 0.050 mm thick, occurs after 120 hours Rectification with UV radiation from the Fade-O-meter device showed only a slight fading. Farther became a sample of untreated polyethylene terephthalate film and a sample of film treated according to the invention, each with a thickness of 0.013 mm exposed to the elements; after about 7 months the untreated film sample was through decomposition U'V light completely destroyed; on the other hand, the treated film sample showed no sign of any even after 2 years Decomposition.

The one with the weatherproof polyester film can be on another plastic material, which is also a Decomposition from UV radiation is subject to being coated, reducing the life of the plastic is extended.

Claims (1)

Claim: Process for stabilizing polyester moldings against UV rays, characterized in that the moldings are treated with a solution of a conventional UV absorber which is reactive with the polyester in a polyhydric alcohol at a temperature between 120 ^° C. and the boiling point of the polyhydric alcohol, then with Water washes and finally the treated molded parts are heated to a temperature at least equal to the flash point of the polyhydric alcohol.