DE2302473C3 - Process for joining or gluing polyolefin moldings to other objects - Google Patents

Description

The invention relates to a method for firmly joining or gluing polyolefin molded parts with other objects using simple means.

Polyolefins, such as polyethylene and polypropylene, which find a wide range of applications in numerous molded parts, point towards one excellent resistance and resistance to a large number of chemicals. This excellent chemical resistance or resilience make there considerable difficulties where the surface of polyolefin molded parts, such as films, foils or vessels, is printed or to be colored, or where polyolefin molded parts are connected or glued to other objects should be.

In order to connect polyolefin molded parts with other objects made of metal, wood, plastic / To be able to bring about synthetic resin or glass, a wide variety of processes have been developed so far. These processes include activating the surface of molded polyolefin parts by ionization by means of y-rays, by ozone oxidation or by high temperature treatment (Japanese Patent Application No. 11 836/63). Also are Process of thermal decomposition or modification with maleic anhydride for molded parts Polyethylene (Japanese Patent Application No. 8,728/69), method of modification with maleic anhydride for polypropylene (Japanese Patent Application No. 10 757/67), method for modifying liquid polymers of conjugated diolefin with maleic anhydride (Japanese Patent Application No. 21 109/64), Use of a copolymer of ethylene and maleic anhydride or acylic acid (Japanese patent application No. 23 341 / b3) and finally the use of a graft copolymer (Japanese Patent application No. 27 235/70) known.

These previously proposed methods can be the gluing or adhesion of polyolefin molded parts improve other items to a certain extent. However, these methods have the following Disadvantages: The polyolefin moldings cannot be made fully adhesive; there are complicated work processes required; the costs for systems and machines increase considerably Wise; the shape of the objects that are to be connected to the polyolefin molded parts, is subject to a certain restriction; Finally, the reaction in making one also decreases Adhesive, binder or adhesive take a considerable amount of time.

The invention thus relates to a method for connecting or gluing polyolefin molded parts with other objects, with an adhesive between the polyolefin molded parts and the objects is brought and the bonding is effected by pressing together in the heat. A characteristic of this process is that the adhesive is a mixture of

a) an ethylene-vinyl acetate copolymer and optionally polyethylene,

b) an unsaturated carboxylic acid which is solid at ambient temperature and

c) an organic peroxide
is used.

The ethylene-vinyl acetate copolymer used in the context of this invention as a component of an adhesive bond contains 1 to 35% by weight, preferably 5 to 30% by weight, vinyl acetate. With a share of less than 1% by weight of vinyl acetate cannot exhibit good adhesiveness or adhesiveness achieve. On the other hand, if the proportion of vinyl acetate is greater than 35% by weight, then the Adhesive connection or the adhesive too soft, which causes the adhesive connection between the polyolefin molded parts and the other objects undesirably deteriorated. Also has a Adhesive connection with such an adhesive composition which contains more than 35 wt .-% vinyl acetate, a slight Heat resistance. If an ethylene-vinyl acetate copolymer, whose proportion of vinyl acetate is greater than 35 wt .-%, with polyethylene in such amounts that in this mixture, the proportion of vinyl acetate is set to 1 to 35 wt .-%, then this mixture has a good adhesiveness and does not soften at room temperature.

The unsaturated carboxylic acids to be used according to the invention are unsaturated, aliphatic and aromatic carboxylic acids to anhydrides of unsaturated dicarboxylic acids. Anhydrides Unsaturated aromatic dicarboxylic acids are difficult to dissolve in ester compounds and therefore not suitable. Unsaturated, aliphatic or aromatic carboxylic acids are particularly suitable when they are with an ethylene-vinyl acetate copolymer or with a mixture of polyethylene and the aforementioned Copolymers are mixed. Unsaturated carboxylic acids, which solid at normal temperatures, are suitable are unsaturated carboxylic acids that are liquid at room temperature, such as acrylic acid or methacrylic acid are less suitable with the ethylene-vinyl acetate copolymers or with the mixture of derr Ethylene-vinyl acetate copolymers and Polyäthyler strong odor nuisance and corrosion on the Mixing devices occur. The unsaturated aliphatic carboxylic acids include: Crotonic acid Maleic acid, fumaric acid, itaconic acid, 2-methylene-glu tarsic acid and citraconic acid. The unsaturated aromatic carboxylic acids include, for example, di Cinnamic acid. These aforementioned unsaturated carboxylic acids can be used alone or in a mixture be used. On their own, they are only slightly polymerized or not at all. So you get example wise a dry powder when a mixture ai Fumaric acid and from 5% by weight dicumyl peroxide

3 4

Minutes to a temperature of 165 ° C is heated. Ethylene, propylene and dienes and copolymers that are

η rrh an analysis can be determined that the ocier are composed in the main amount of ethylene

Mentioned powder no high molecular weight products propylene and small amounts of vinyl compounds

^{Have V of} the high molecular weight components, including, for example, vinyl acetate, acrylic ester and

Hipie analysis with methyl alcohol as solvent or 5 vinyl chloride. .

rh of gel chromatography is performed. The aforementioned polyolefins can be used on their own, or a mixture of ethylene or as a mixture. According to the invention, vinyl acetate copolymers, fumaric acid and dicumyl can also be mixtures which essentially consist of polyolefins for 5 minutes at a temperature of 160 ° C. and other synthetic resins and then pulverized. By extracting substances or rubber-like materials, some ^{g of} the powder obtained with methyl alcohol will be used. Polyolefins used can also be recovered practically quantitatively. The del will that contain one or more of the following extracted material that contains infrared absorbing additives: stabilizers against Z _n «Strum which also shows the unprocessed ethylene-Vi-oxygen, ozone, light (UV radiation and warm Sr copolymers This demonstrates .5 inhibitors that prevent the decomposition of the polyolefin by 3 SiSSZtidililymtnaento. Metals; fire- or flame-retardant ^d fn the scope of this invention, such organic components; (plasticizers); V ™ ** ™ * ^ ™ , chen Peroxides are used, which are generally used as substances, dyes, antistatic additives, adhesive activators _A i, _B anesmaterial in radical polymerization, etc. Polyoxo compounds are also used for example dicumyl, for example a preparation of JU peroxide diaryl peroxide, such as, for example, the ben-polyolefin and 70 parts by weight of an am ™ f peroxy d · Ketone peroxides, such as, for example, the filler, can be used for carrying out the methyl ethyl ketone peroxide and the l-bis-t-butyl peroxide of the invention. According to S 335, trimethylcyclohexane; Hydroperoxides, as with- * ₅ Furthermore, the P ^ ⁰ ^ ¹ "- ^" ¹ ^; _r l £ e _bt e oielswe the cumene hydroperoxide and 2,5-di- method of the invention ^{verb "nd" n} ^^ '^ xan Uh-2,5-dihydroperoxide; and peroxide esters, such as to be, various ^ F ^ ^ rmaufwe such as t-butyl _P eroxibenzoat, t-Butylperoxiace- for example, powders, films, plates Foil η singeing. ? _a and 2 5-dimethyl 2,5-dibenzoylperoxihexane. These pipes, as well as objects of other shapes, which are used in the Orean peroxides, can be produced on their own or in an injection molding process and in an extrusion process.

mmmmmmmm

Akto smaller than 0.005G. Weight Kile. It has a J »den _; de ^ medng ^ heg, ^ ^^^^ _org , _ni .

at the application temperature of the adhesive

must be complete.

If an adhesive to be used according to the invention has ethylene-vinyl acetate copolymers, then can this adhesive between the polyolefin moldings and the other objects in solid form, optionally after previous shaping to be made into films or foils. The chosen one Shaping must, however, be carried out under conditions under which no networking of the to Ethylene-vinyl acetate copolymers occur, because otherwise the binding capacity of the adhesive is reduced. the Adhesives containing ethylene-vinyl acetate copolymers must therefore be molded at one temperature below the temperature at which the decomposition half-life of organic peroxides 1 Hour or preferably 10 hours. But it is also possible to use a solution or a suspension the solid adhesive on the surface of the polyolefin molded parts or the other objects 20 to be sprayed on, or these polyolefin moldings or these other objects in such a solution or immerse suspension.

The polyolefin molded parts and the other objects between which the adhesive is introduced, 25 are pressed together, for example, using a heated press and this way connected with each other. In the case of film-like or sheet-like polyolefin molded parts, it is advantageous to use a heated pressure roller worked. It often happens 30 that polyolefin moldings, which with the adhesive mass are coated, stick to the surface of the metal plate belonging to the press. Around To avoid this, it is advantageous to coat the metal plate with a film or foil, for example 35 wisely with a film over a film made of polyester, which is difficult to handle with polyolefin moldings and the adhesive connects.

Polyolefin moldings and other articles should preferably be bonded together at one temperature which is higher than the temperature at which the half-life of the decomposition of the organic Peroxides is 10 hours, preferably 1 hour. In addition, this temperature should also be at least 10 ° above the temperature of the melting point or the softening point of the polyolefins. on the other hand must be operated at a temperature at which the polyolefin moldings and the other parts do not decompose and are protected from decomposition. A temperature below the melting point or below the softening point of the polyolefins, but also a temperature below this temperature Decomposition half-life of organic peroxides of 10 hours, does not guarantee good adhesiveness or Setting ability.

The setting time depends on the type and proportions of the components of the adhesive, as well as the setting temperature and the force with which the polyolefin molded parts and the other objects are pressed against each other. In general, however, a setting time of 1 minute to 10 is sufficient

Minutes.

_{If, according to the method of this invention, polyolefin molded parts and the other objects can be connected to one another by simply pressing them together} with the application of heat, then powders, foils and sheets made from polyolefin molded parts and other objects can also be used with pressure mite.nander J ^^ Ä ^ use heated ^ presses _{? Wipe the}

Pressure transfer becomes an object

Polyoler.n-Formte.len and the an _e ^ _high

made possible by β '"g" _{an isl a}

Ä? Ä? ^ the pressing

which ae accordingly, ' _become

the polyolef.n-FormteJe vero _{iniumi copper} ,

include: metals be «pf we» ^ _{a] ^

Chrom, E.sen BIe., J ^ _Melalle . For example, alloys of the aforementioned _Qmme

Brass, _{rustproof ^ J in particular} wood,

and silver solder; ^Cellular ° ^S "K" nstharz / plastics, beiPapier. Cotton fabric Kans ^ _e ^

Play-white poly athylen.Po yp Pf _{h,. Methacry} , _al ,

^P0lyaCry Tadieis "» synthetic resin, polyamides. Phe-Acrynitr.l-Butadiens.iyr _e ^ _depen

nolharze, "« "« ^ "^ 'Sarze e.g. Po mixtures; easusche Kunsth - ^ J ^, _{A (hy} . lybutad.enkautschuk M ^ ro, _dienTerpoly

lenpropylenkauischuk Athyi P W _lnitrilblUa .

mere. ^Po 'y ^ch , ^lor ° P ^r _r ^ Se materials, such as diene rubber; anoran. marriage ^

Glass and plaster. All ait * have any shape,

or substances can, rgendeme remedied «^ ^ you can be.sp.eswe * e ^ n ^. ^

Platelets or foils ™. _{previously mentioned [Uen Sloffe}

dation or the like

_the invention ^^^^ ^

iL treatments are possible. ge ^, _{Γσρη act according to} the invention protects, in the ubnge w ke _{f bw}

ke in a Munun _a -

Pulling speed of 100 mm / min.

example 1

pressed by 10 kg / cm ^{2 for} 5 minutes. The interconnected foils have a peel or peel strength of 18.90 kg / 2.5 cm.

Comparative example A.

In the manner described in Example 1, an adhesive in the form of a film is produced, wherein however, in this case, fumaric acid is not added to the adhesive. Have the associated slides a peel or split strength of 5.10 kg / 2.5 cm.

Comparative example B

In the manner described in Example 1, adhesive in the form of a film is produced, with however, in this case, dikumyl peroxide was not added to the adhesive bond. The associated Films have a peel or split strength of 5.80 kg / 2.5 cm.

Example 2

In the manner described in Example 1, an adhesive in the form of a film is produced, wherein however, instead of the fumaric acid used in Example 1, 2-MethylengluUirat is used and during the Processing during pressing a temperature of 190 ° C is maintained. The resulting composite has a peel or split strength of 20.10 kg / 2.5 cm.

Example 3

Using a heated roller, the following ^{are mixed with one another at a temperature of 80 °} C. for a period of 5 minutes: 100 parts by weight of an ethylene-vinyl acetate copolymer, 24 parts by weight of vinyl acetate, 5 parts by weight of aconic acid and 1.0 part by weight of 2,5-dimethyl-2 , 5-dibenzoylperoxihexane. This adhesive composition is then compressed mm at a temperature of 100 ⁰ C in a heated press to a sheet having a thickness of 0.1. The resulting film is placed between a 0.1 mm thick aluminum film previously degreased in trichlorethylene and a 0.2 mm thick film made of crystalline polypropylene (viscosity of 3.3 dl / g in decalin at 135 °). This arrangement is exposed to a pressure of 10 kg / cm ² under a heated press at a temperature of 200 ^{° C. for a period of 3 minutes.} The resulting composite material has a peel or peel strength of 17.90 kg / 2.5 cm.

Example 4

A 0.1 mm thick film of the adhesive according to Example 1 is arranged on both sides of a 0.2 mm thick film made of high molecular weight polyethylene with a density of 0.96 g / cm ¹ . After previous degreasing with trichlorethylene, a 1 mm thick stainless steel plate is placed on the outside of one of the Klcbcmasscnfolic, whereas a 0.1 mm thick aluminum foil is placed on the outside of the other Klcbcmassenfolic after F.iitfeiten in trichlorethylene. Using a heated press, this arrangement is subjected to a pressure of 10 kg / cm ² at a temperature of 190 ° C. for a period of 5 minutes. In a peel test from the rope of the aluminum foil, the resulting composite exhibits a peel or split resistance of 21.30 kg / 2.5 cm.

Example 5

A laminated body is produced in the manner described in Example 4, except that that in Example 4 The stainless steel plate used is replaced by a galvanized plate that has previously been degreased in trichlorethylene Sheet steel, thickness 0.2 mm, is replaced. The composite has a peel or peel strength of 20.70 kg / 2.5 cm.

Example 6

In the manner described in Example 4, a laminated body is produced, but instead of the stainless steel plate used in Example 4, a 5 mm thick plate is used, which consists of 30 parts by weight of polyethylene with a density of 0.935 g / cm ³ and 70 parts by weight of aluminum hydroxide. The laminated body is pressed at a temperature of 160 ° C. The composite has a peel or peel strength of 19.20 kg / 2.5 cm.

Example 7

To produce an adhesive bond, 25 parts by weight of an ethylene-vinyl acetate copolymer containing 45% by weight of vinyl acetate, 75 parts by weight of a polyethylene with a kg at a load of 2.16 and a temperature of 190 ⁰ C measured melt viscosity of 5.0 g / 10 minutes and a density of 0.922 g / cm ^a, 5 parts by weight of fumaric acid and 1 part by weight of Dieumylperoxid. A film with a thickness of 0.2 mm is produced from this composition at a temperature of 110 ^{° C. using a heated press.} In the manner described in Example 4, a laminated body is produced. The composite exhibited a peel or peel strength of 15.80 kg / 2.5 cm.

Example 8

In the procedure described in Example 1, a Layered or composite material produced, but instead of that used in Example 1 Fumaric acid crotonic acid is used. The composite material has a peel or gap strength wedge of 12.50 kg / 2.5 cm.

Comparative Example C.

In the manner described in Example 1 is a so composite material produced, but the ethylcn-vinyl acetate copolymer used in Example 1 used by an ethylene-vinyl acetate Copolymerc with a vinyl acetate content of 45 wt .-% and dei Mixing process is carried out at a temperature of 40 "C for 5s. The composite material has a peel or dropping resistance of 9.00 kg / 2.5 cm. The from de! Films or foils produced with adhesive already sticks to one another before the Klcbcvorgang and hinders work considerably as a result.

Comparative example D

A composite material is produced in the manner described in Example 1, but the ethylene-vinyl acetate copolymer "* wounded in Example 1 by a polyethylene with a melt viscosity of 11, measured at a load of 2.1 kg and a temperature of 190" C. , 2 g / H) minutes and cini density of 0.920 g / cm ¹ replaced and mixing at eir

Temperature of 105 ⁰ C is carried out. The composite material has a peel or split strength of 5.20 kg / 2.5 cm.

Example 9

In the manner described in Example 1, a polyethylene foil and an aluminum foil are together connected. In this case, however, a heated roller is used to produce the adhesive a temperature of 90 ° C in 3 minutes 100 parts by weight of an ethylene-vinyl acetate copolymer with a vinyl acetate content of 11 percent by weight and 5 parts by weight of a mixture of 5 parts by weight of dynamylic acid and 0.5 part by weight of 2,5-dimethylhexane-2,5-dihydroperoxide mixed together. The composite has a peel or peel strength of 12.50 kg / 2.5 cm.

Example 10

In the manner described in Example 1, a polyethylene foil and an aluminum foil are together connected. To produce the adhesive, in this case, a heated roller at a Temperature of 85 ° C 100 parts by weight of the ethylene-vinyl acetate copolymer used in Example 3, 100 Parts by weight of fumaric acid and 5 parts by weight of l, l-bis-t-butylperoxy-3, 3, 5-trimethylcyclohexane 5 Minutes mixed. The composite has a peel or peel strength of 12.80 kg / 2.5 cm.

Example 11

The ethylene-vinyl acetate copolymer used in Example 1 is reduced to powder in a turbo mill. A mixture of 100 parts by weight of the aforementioned pulverized ethylene-vinyl acetate copolymer, 2 parts by weight of maleic acid and 0.3 parts by weight of dicumyl peroxide is then processed by means of an extruder at a temperature of 90 ⁰ C to pellets of the adhesive with a diameter of 20 mm, with which the Polyethylene foil is connected to the aluminum foil. The composite has a peel or peel strength of 16.80 kg / 2.5 cm.

Example 12

A composite material is produced in the manner described in Example 11, except that instead of that in Example 11 used maleic acid citraconic acid was used. The composite has a Peel or split strength of 13.10 kg / 2.5 cm.

^ 10

Example 13

100 parts by weight of methanol become 10 parts by weight dissolved in itaconic acid and 0.5 part by weight of dicumyl peroxide. In this solution is at room temperature a 0.8 mm thick film of the ethylene-vinyl acetate copolymer used in Example 1 for 10 seconds immersed. The film soaked in the solution is then left on at room temperature for one week

ίο air and finally dried for a further for 10 minutes at a temperature of 5O ⁰ C. The polyethylene film and the aluminum foil are bonded to one another in the manner described in Example 1, but using the film-like or sheet-like adhesive described above. The composite has a peel or peel strength of 18.30 kg / 2.5 cm.

Comparative example E.

A composite material is produced in the manner described in Example 13, but instead of the itaconic acid acrylic acid used in Example 13 is used. The composite has a Peel or split strength of 6.70 kg / 2.5 cm.

Example 14

100 parts by weight of the ethylene-vinyl acetate copolymer used in Example 1, 10 parts by weight of crotonic acid and 5.0 parts by weight of dicumyl peroxide are dissolved in 1000 parts by weight of toluene at a temperature of 4O ⁰ C. A 0.2 mm thick film made of the polyethylene used in Example 1 is immersed in this solution for 10 minutes. After the immersion, the film is dried for one hour at a temperature of 5O ⁰ C. A previously degreased in trichlorethylene aluminum foil is then adhered mm with a thickness of 0.1 and under a heated press at a temperature of 16O ⁰ C for 5 minutes exposed to a pressure of 5 kg / cm ² on both sides of the thus treated polyethylene film. The composite has a peel or peel strength of 10.10 kg / 2.5 cm.

Comparative example F

In the manner described in Example 1, a composite material is produced, where instead of 0.5 Parts by weight of dicumyl peroxide, however, 20 parts by weight can be used. The composite has a peel or peel strength of 5.70 kg / 2.5 cm. This

low value is an indication that the adhesive has not set evenly.

Claims (1)

Palent claim: Process for joining or gluing polyolefin molded parts to other objects, wobt i between the polyolefin moldings and the Objects an adhesive is brought and the bond by pressing together in the Heat is effected, characterized in that that as an adhesive a mixture of a) an ethylene-vinyl acetate copolymer and optionally polyethylene, b) an unsaturated carboxylic acid which is solid at ambient temperature and c) an organic peroxide is used.