Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – From carboxylic acid or derivative thereof
Reexamination Certificate
1999-10-08
2002-04-23
Acquah, Samuel A. (Department: 1711)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
From carboxylic acid or derivative thereof
C528S275000, C528S285000, C524S779000, C524S783000
Reexamination Certificate
active
06376642
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a method for manufacturing polyesters, in particular, to using a lithium titanyl oxalate as the catalyst for such reaction to provide fast reactions with excellent color properties for the resulting polyester.
DESCRIPTION OF THE PRIOR ART
Polycondensation reactions used conventionally in the manufacture of polyesters require an extremely long period of time without a catalyst. Therefore, various types of catalysts are used in order to shorten the reaction time. For example, antimony trioxide and manganese acetate are generally used.
Titanyl oxalate compounds have been suggested as catalysts for polycondensation reactions to produce polyesters. However, titanyl oxalate compounds when used as polycondensation catalysts in the manufacture of polyesters have caused color problems in the resulting polyester.
Polyesters are obtained by esterification, ester interchange or polycondensation of dibasic acids such as terephthalic acid and isophthalic acid or esters thereof, functional derivatives of acid chlorides and glycols such as ethylene glycol and tetramethylene glycol or oxides thereof and functional derivatives of carbonic acid derivatives. In this case, a single polyester is obtained when one dibasic acid component and glycol component is used. Mixed copolyesters can be obtained when at least two or more types of dibasic acid component and glycol component are mixed, esterified or subjected to ester interchange and then subjected to polycondensation. When a single polyester or two or more initial polycondensates of a mixed copolyester are subjected to polycondensation, an ordered polyester is obtained. In this invention, the term polyester is a general designation for these three types.
Prior literature has disclosed titanyl oxalate compounds for use as polycondensation catalysts for polyesters. The titanyl oxalate compounds disclosed include potassium titanyl oxalate, ammonium titanyl oxalate, lithium titanyl oxalate, sodium titanyl oxalate, calcium titanyl oxalate, strontium titanyl oxalate, barium titanyl oxalate, zinc titanyl oxalate and lead titanyl titanate. However, based upon the examples in such literature references, only potassium and ammonium titanyl oxalate have actually been used to catalyze the polyester forming reaction. See for example Japanese Patent Publication 42-13030, published on Jul. 25, 1967. European Patent application EP 0699700 A2 published on Mar. 3, 1996 assigned to Hoechst and entitled “Process for production of Thermostable, Color-neutral, Antimony-Free Polyester and Products Manufactured From It” discloses the use as polycondensation catalyst, however only potassium titanyl oxalate and titanium isopropylate were used for such a catalyst, and, while improved color and antimony free polyester are disclosed, cobalt or optical brighteners were also employed. Lithium titanyl oxalate was not employed and the present invention's discovery of substantial color improvement with lithium titanyl oxalate versus potassium titanyl oxalate. Other patents have disclosed potassium titanyl oxalate as a polycondensation catalyst for making polyester such as U.S. Pat. No. 4,245,086, inventor Keiichi Uno et al., Japanese Patent JP 06128464, Inventor Ishida, M. et al. U.S. Pat. No. 3,957,886, entitled “Process of Producing Polyester Resin, Inventors Hideo, M. et al, at column 3, line 59 to column 4, line 10, contains a disclosure of titanyl oxalate catalysts for polyesters including a listing of many types of titanyl oxalate catalyst. However, only potassium titanyl oxalate and ammonium titanyl oxalate were used in the examples and lithium titanyl oxalate was not even listed among their preferred titanyl oxalate catalysts.
SUMMARY OF THE INVENTION
The present invention provides an improved method of producing polyester by the polycondensation of polyester forming reactants wherein the improvement comprises utilizing, as the polycondensation catalyst, lithium titanyl oxalate. The improved process produces a polyester of improved color versus other titanyl oxalate catalysts and a novel polyester without the presence of antimony. In addition lithium titanyl oxalate can be used as a polycondensation catalyst in combination with other catalysts to achieve a combination of the attributes of each catalyst in the mixture. Such mixtures include lithium titanyl oxalate with antimony oxide and/or potassium titanyl oxalate K
2
TiO(C
2
O
4
)
2
. Such mixtures include lithium titanyl oxalate with antimony oxide and/or potassium titanyl oxalate K
2
TiO(C
2
O
4
)
2
.
DETAILED DESCRIPTION OF THE INVENTION
The production of polyester by polycondensation of polyester forming reactants is well known to those skilled in the polyester art. A catalyst is usually employed such as antimony oxide. Titanyl oxalate catalysts such as potassium titanyl oxalate and ammonium titanyl oxalate have also been suggested as catalysts for the polycondensation reaction to produce polyester. The present invention is based upon the discovery that one titanyl oxalate (lithium titanyl oxalate) is surprisingly superior in catalyst performance for polycondensation reactions by producing polyesters of superior color (white) in comparison to other titanyl oxalate catalysts. The need for an antimony containing catalyst can thereby be eliminated, and an antimony free polyester can thereby be produced with lithium titanyl oxalate as the catalyst. Such advantages provided by using lithium titanyl oxalate are retained when lithium titanyl oxalate is used in combination with other polycondensation catalysts for producing polyester as long as lithium titanyl oxalate comprises at least 5 parts per million based on the weight of titanium in the reaction mixture. Included within the meaning of the term “lithium titanyl oxalate” as used herein are di lithium titanyl oxalate [Li
2
TiO(C
2
O
4
)
2
] and mono lithium titanyl oxalate wherein one of the lithiums of di lithium titanyl oxalate is replaced with another alkaline metal such as potassium (e.g., LiKTiO(C
2
O
4
)
2
) and such compounds with or without water of hydration. Lithium titanyl oxalate catalysts can be combined with antimony catalyst to achieve the benefits of both catalysts when elimination of antimony is not a requirement for the resulting catalyzed product.
In addition to catalyzing polycondensation reactions, titanyl oxalates of the formula M
2
TiO(C
2
O
4
)
2
(H
2
O)
n
wherein each M is independently selected from potassium, lithium, sodium and cesium are useful for catalyzing esterification and transesterification reactions when used in catalytically effective amounts with reactants known to participate in esterification or transesterification reactions. An advantage to lithium titanyl oxalate catalyst in esterification and transesterification reaction is that it has excellent air stability versus Ti(OR)
4
. The titanyl oxalate may be anhydrous (n=0) on contain some water of hydration, i.e. n representing the amount of water of hydration. A catalytically effective amount is suitable. Preferred is at least 5 parts of titanyl oxalate based on the weight of titanium per million parts of esterification or transesterification reaction mixture being.
Reactants for forming polyesters via a polycondensation reaction are well known to those skilled in the art and disclosed in patents such as U.S. Pat. No. 5,198,530, inventor Kyber, M., et al., U.S. Pat. No. 4,238,593, inventor B. Duh, U.S. Pat. No. 4,356,299, inventor Cholod et al, and U.S. Pat. No. 3,907,754, inventor Tershasy et al, which disclosures are incorporated herein by reference. The art is also described in “Comprehensive Polymer Science, Ed. G. C. Eastmond, et al, Pergamon Press, Oxford 1989, vol. 5, pp. 275-315, and by R. E. Wilfong, J.Polym. Science, 54 (1961), pp. 385-410. A particularly important commercial specie of polyester so produced is polyester terephthalate (PET).
A catalytically effective amount of lithium titanyl oxalate is added to the polyester forming reactants. Preferred is from 30 parts to 400 parts per mill
Cannon Kevin Charles
Seshadri Sri Ram
Acquah Samuel A.
Atofina Chemicals, Inc.
DeBenedictis Nicholas J.
Marcus Stanley A.
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