Plastic and nonmetallic article shaping or treating: processes – Forming continuous or indefinite length work – Shaping by extrusion
Reexamination Certificate
2001-07-13
2002-05-07
Acquah, Samuel A. (Department: 1711)
Plastic and nonmetallic article shaping or treating: processes
Forming continuous or indefinite length work
Shaping by extrusion
C528S287000, C528S296000, C528S301000, C528S302000, C528S308600, C524S081000, C524S710000, C428S364000, C264S176100
Reexamination Certificate
active
06383433
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention concerns a copolyester fiber consisting of a copolyester with mainly C
2
-C
4
alkylene terephthalate units, poly(C
2
-C
4
alkylene glycol) units, and units derived from polyfunctional compounds (pentaerythritol and/or carboxy methylene phosphonic acid and/or carboxy ethylene phosphonic acid), as well as a process for synthesis of these copolyester fibers by esterification, subsequent precondensation and polycondensation of terephthalic acid with C
2
-C
4
alkylene glycol, poly(C
2
-C
4
alkylene glycol), and a polyfunctional compound as well as spinning the resulting polyester in the melt at spooling speeds of at least 3000 m/min.
2. Summary of the Related Art
Copolyester fibers are known. Examined German Patent No. 1,266,922 discloses a process for producing fibers by melt spinning a modified polyester of terephthalic acid or isoterephthalic acid or the dimethyl esters thereof, ethylene glycol, 0.05 to 4.0 mol% alkoxy polyalkylene glycol and 0.05 to 2.4 mol % of a polyhydroxy compound such as pentaerythritol. The fibers or filaments of this modified polyester are essentially free of discoloration.
U.S. Pat. No. 5,756,033 describes a process for producing POY fibers from a polyester containing approximately 150 to 2500 ppm carboxy ethylene phosphonic acid units. The polyester may also contain up to 10 wt % other co-monomers, including polyglycols with a molecular weight of less than 1000. This patent does not disclose any relationship to the dyeing properties of the fibers or how to optimize them.
U.S. Pat. No. 4,086,208 also describes a flame-retardant polyester containing at most 10 mol % polyethylene glycol units and at least 2500 ppm carboxy ethylene phosphonic acid units.
It is also known that fibers of polyesters can be pigmented with disperse dyes. However, there are technical problems associated with dyeing because it is difficult for the large molecules of the disperse dyes to penetrate and diffuse into the amorphous portions of the partially crystalline polyester. Fibers of unmodified polyethylene terephthalate are therefore dyed at temperatures above 120° C. and under excess pressure. However, it is also possible to add organic chemicals that penetrate like plasticizers into the polyethylene terephthalate, causing it to swell and thus making it more readily accessible for dyes. A disadvantage of this, however, is that the added organic chemicals are usually toxic substances that cause severe wastewater pollution.
International Patent Application WO 92/13120 discloses fine, non-delustered fibers that can be dyed at atmospheric pressure without chemical additives, the fibers consisting of a polyethylene terephthalate containing 3.9 wt % polyethylene oxide and 0.175 wt % trimethylol propane which must not contain any delustering agents. A disadvantage of these fibers with regard to uniform spinnability is the high trimethylol propane content. In addition, most applications require delustered fibers.
SUMMARY OF THE INVENTION
The present invention provides a copolyester fiber that can be dyed relatively easily with disperse dyes. The dyed fibers have a relatively high dye receptivity with minimal streakiness at the same time. The invention also provides a process for producing said copolyester fibers.
The invention is described in greater detail below. All patents and other publications are hereby incorporated by reference in their entirety.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The polyester fibers of the invention are obtained by polymerizing more than 4 wt % up to 12 wt % poly(C
2-4
alkylene glycol) units and 60 to 260 ppm pentaerythritol units and/or a total of 150 to less than 2500 ppm carboxy methylene phosphonic acid units and/or carboxy ethylene phosphonic acid units into the copolyester. The amounts given in ppm are based on the total copolymer. It has surprisingly been found that by adjusting the quantity ranges of pentaerythritol units to 60 to 260 ppm and/or of carboxy methylene and/or ethylene phosphonic acid units to a total of 150 to less than 2500 ppm, the dye receptivity of the copolyester fibers can be increased while there is a simultaneous reduction in streakiness. In this way it is also possible to avoid the detrimental effects of using toxic It substances (carriers) when dyeing fibers with disperse dyes.
In a preferred embodiment of this invention 80 to 200 ppm pentaerythritol units and/or a total of 500 to 750 ppm carboxy methylene phosphonic acid units and/or carboxy ethylene phosphonic acid units are polymerized into the copolyester. According to another preferred embodiment of this invention, the amount of poly(C
24
alkylene glycol) units is 5 to 9 wt %. According to another preferred embodiment of this invention, the number average molecular weight of the polyalkylene glycol units is between 200 and 3000 g/mol. When these quantity limits are maintained, an optimum is achieved with respect to dyeing properties, mechanical properties, and processing properties of the fibers.
The invention also comprises a process for producing a copolyester fiber, where more than 4 wt % up to 12 wt % poly(C
2-4
alkylene glycol) with a number average molecular weight between 200 and 3000 g/mol and 60 to 260 ppm pentaerythritol and/or a total of 150 to less than 2500 ppm carboxy methylene phosphonic acid and/or carboxy ethylene phosphonic acid is added to the reaction mixture before precondensation. The copolyester fibers produced by this process have proven especially advantageous for dyeing with disperse dyes, yielding a high dye receptivity as well as low streakiness.
According to another embodiment of this invention, pentaerythritol and/or carboxy methylene phosphonic acid and/or carboxy ethylene phosphonic acid and optionally a poly(C
2-4
alkylene glycol) are added when 50% to 95% of the carboxyl groups of the dicarboxylic acid(s) of the esterification mixture are esterified. If addition of these substances is postponed until this time, development of long chain branching is guaranteed. This long chain branching leads to a change in the viscoelasticity of the copolyester, i.e., the polyester melt becomes compressible, can absorb pressure variations, and dampens the fiber oscillations that occur during spinning, thus resulting in more uniform fibers. The degree of esterification (U) can be calculated from the saponification number (V,) and the acid number (S,) of the reaction mixture according to the formula U=(V
z
−S
z
)·100/V
z
. The saponification number is determined by saponification with potassium hydroxide in n-propanol and potentiometric titration, and the acid number is determined by potentiometric titration in dimethyl formamide.
According to another especially optimal embodiment of this invention, the amount of poly(C
2-4
alkylene glycol) in the copolyester is 5 to 9 wt %.
The quantity of pentaerythritol to be added is preferably 80 to 200 ppm. In the case of carboxy ethylene phosphonic acid, preferably 500 to 750 ppm is added. Mixtures of both branching components may be added, e.g., 50% pentaerythritol based on 80 to 200 ppm and 50% carboxy ethylene phosphonic acid based on 500 to 750 ppm. If the quantity added is too low, spinnability will be adequate, but the elongation of the POY filaments spun at a high speed will be too low for draw texturing. If the quantity added is slightly too high, the strength of the DTY yarn will leave something to be desired, whereas if the quantity added is substantially too high, the copolyester can no longer be spun well and uniformly. Pentaerythritol and carboxy phosphonic acid compounds are neither volatile nor do they form volatile compounds under the conditions of polyester synthesis, so the metered addition of the compounds can be performed without concern for possible losses. Furthermore, there is no disturbance due to entrained pentaerythritol or carboxy phosphonic acid compounds in recycling unpurified glycol (from the vapors from condensation).
According to another embodiment of this invention, the process
Acquah Samuel A.
McDonnell & Boehnen Hulbert & Berghoff
Zimmer Aktiengesellschaft
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