Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – From carboxylic acid or derivative thereof
Reexamination Certificate
2001-05-09
2003-07-08
Hampton-Hightower, P. (Department: 1711)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
From carboxylic acid or derivative thereof
C528S323000, C528S324000, C528S332000, C528S335000, C528S338000, C528S340000, C526S935000, C428S357000, C428S392000, C428S394000, C428S395000, C428S474400
Reexamination Certificate
active
06590063
ABSTRACT:
BACKGROUND OF THE INVENTION
Hot-melt adhesives on the basis of aliphatic copolyamides for the production of bonds between interlining textiles and face fabrics which are resistant to washing and dry cleaning have been known for a long time and are extensively used on a world-wide scale. Such polyamides are for instance disclosed in DE-A 1594233. The desired temperatures of the molten mass of between 80 and 130° C. are adjusted by the additional combination of further &ohgr;-amino carboxylic acids and further polyamide formers like 6,6 salt, 6,9 salt, 6,10 salt and/or 6,12 salt in different amounts with the commonly used components caprolactam/&ohgr;-aminocapronic acid and laurolactam/&ohgr;-aminolauric acid.
The stickiness or adhesive power of the known polyamides in a molten state is sufficient to permit their use in the hot-melt sealing and bonding of textiles in the textile industry. They also show a good resistance to the solvents generally used in the dry cleaning of textiles and to the washing temperatures of up to approximately 80° C. generally used in the textile industry. This resistance greatly depends on a high content of laurolactam and/or 11-aminoundecanenic acid or dimer fatty acid, though. The higher the content of these basic components, the higher the resistance to high washing temperatures; but simultaneously, the melting temperature of the copolyamides also rises, which is not desirable. Therefore, the known copolyamides cannot be used for the hot-melt sealing of temperature-sensitive substrates like leather, temperature-sensitive fleeces, felts, velvet finishes and the like made of natural or synthetic fibers. In DE-A 2324160 and DE-A 2324159 a copolyamide containing great amounts of caprolactam and having a low melting temperature of below 115° C. was suggested as the solution to this problem. This copolyamide must contain 20 to 40 wt.-% caprolactam. This copolyamide is suitable for the holt-melt sealing of temperature-sensitive substrates and has good adhesive properties and a high resistance to dry cleaning agents despite low bonding temperatures. However, it is a drawback that the lower melting point results in a lower resistance to washing. This is confirmed by German Patent DE 37 30 504.
Practical work has shown that in order to reach a low melting point, the polyamide must contain at least two dicarboxylic acids as components, wherein part of the usual aliphatic dicarboxylic acids may be substituted by aromatic compounds. However, the proportion of aromatic diacid(s) must not be greater than 10 mol-% (in reference to the total amount of the formulation), as a further increase in the content of aromatic compounds results in products with a high glass-transition temperature (Tg), which do not crystallize any more and remain completely amorphous. Such substances are mostly unsuitable as hot-melt adhesives, since they display a bad resistance to washing and dry cleaning.
On the other hand, many applications also require the hot-melt adhesive to remain workable for some time after application. This is often the case in direct laminating, where a certain time elapses between the application of the adhesive and the laminating and the adhesive should not lose its adhesive properties in the meantime.
The time-span within which the adhesive displays its adhesive properties is also often called “open time” among those skilled in the art.
According to the definition by ASTM Standard D 4497-85 the open time corresponds to the time available between the application of the adhesive on the first substrate and the bonding with the second substrate, wherein the force required for separating the layers again must still amount to 50% of the overall value.
Classic ternary copolyamides and their uses as hot-melt adhesives are described in DE-A 2204492. These substances show rather good textile properties regarding resistance to washing and dry cleaning, but they have the disadvantage of a relatively high melting point, which rules out fabric-protecting, energy-saving bonding.
The German patents DE 2324159 and DE 2324160 describe low-melting copolyamides. However, due to the low melting point, these have a reduced resistance to washing.
Also in the German laid open application DE-A 3248776 low-melting copolyamides are described. These are especially suitable for bonding with siliconized outer textiles and contain C
6-12
diamines in addition to lactams and C
6-12
dicarboxylic acids, wherein at least 30% of these diamines consist of single-branched aliphatic diamines with 6 carbon atoms.
Further hot-melt adhesives with a clearly higher content of additional diamines (in addition to hexamethylene diamine) are also described in the literature. Thus DE-A 2509791 mentions copolyamides with at least 70 mol-% diamines with at least one secondary amino group.
The copolyamides described there are above all used in the furniture industry for the veneering of edges.
Finally, the European patent EP 0 965 627 describes copolyamides with a very long open time. However, the compounds described there do not offer any resistance to dry cleaning.
It is therefore the object of the present invention to provide new low-melting copolyamides which can be used as hot-melt adhesives and display a good resistance to washing and dry cleaning and have a prolonged open time.
BRIEF SUMMARY OF THE INVENTION
The present invention relates to novel low-melting copolyamides consisting of at least six components, which can be preferably used as hot-melt adhesives for textiles and for technical applications.
DETAILED DESCRIPTION
This object is solved by the copolyamides according to claim
1
and their uses according to claims
8
and
9
.
The subclaims contain advantageous embodiments of the invention.
The subject of the invention are copolyamides with the following contents:
caprolactam
10 to 45 mol-%
laurolactam and/or 12-aminododecanenic acid
30 to 55 mol-%
at least 2 dicarboxylic acids
20 to 50 mol-%
of the following compounds:
aliphatic &agr;,&ohgr;-dicarboxylic acids with 6 to 14 carbon atoms inclusively, terepthalic acid, isophthalic acid and 2,6-naphthalene carboxylic acid, wherein the content of aromatic dicarboxylic acids is lower than 10 mol-%, in reference to the allover amount of the above-mentioned components adding up to a total of 100 mol-%,
an amount of a diamine mixture equimolar to that of the dicarboxylic acids, chosen from the group of the following substances:
hexamethylene diamine, piperazine and/or 2-methyl-1,5-diaminopentane, wherein the molar content of hexamethylene diamine in reference to the diamine mixture amounts to between 75 and 95 mol-%.
In addition to the above-mentioned components, the hot-melt adhesives according to the present invention may also contain usual stabilizers and chain regulators for the adjustment of viscosity. Such additives are known to the skilled person.
The copolyamides according to the present invention display the following features:
low melting point enabling a fabric-protecting and energy-saving bonding,
very high resistance to dry cleaning,
very high resistance to washing,
long open time and therefore good bonding properties also in technical applications.
This prolongation of the open time is obtained in the case of the hot-melt adhesives of the present invention by the use of at least one additional diamine in addition to hexamethylene diamine. If small amounts of piperazine and/or 2-methylpentamethylene diamine (2-methyl-1,5-diaminopentane) are polymerized into the polymer, products with a greater longevity of their adhesive properties will be obtained. If piperazine is added, the effect even seems to be a little stronger.
The most surprising discovery is that the properties are greatly improved through the addition of small amounts of piperazine and/or 2-methyl-1,5-diaminopentane in addition to hexamethylene diamine. It was found that up to a maximum content of 25 mol-% referring to the diamine mixture, it is not only possible to prolong the open time, but also the resistance.
Surprisingly, this beneficial effect is diminished again if the co
Kinkelin Eberhard
Poessnecker Gerhard
Spindler Jürgen
EMS-Chemie AG
Hampton-Hightower P.
Kinney & Lange , P.A.
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