Low melt viscosity amorphous copolyesters with enhanced...

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Reexamination Certificate

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C528S176000, C528S190000, C528S191000, C528S194000, C528S195000, C528S294000, C528S298000, C528S302000, C528S307000, C528S308000, C528S308600, C428S357000

Reexamination Certificate

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06183848

ABSTRACT:

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH
Not Applicable
REFERENCE TO A MICROFICHE APPENDIX
Not Applicable
FIELD OF THE INVENTION
The invention relates to amorphous copolyesters containing 2,2′-(sulfonylbis(4,1-phenyleneoxy))bis(ethanol). The amorphous copolyesters exhibit enhanced heat distortion temperatures and glass transition temperatures without a significant increase in viscosity at low shear rates. The amorphous copolyesters also have improved oxygen barrier properties and are readily molded and extruded to form containers and films useful for packaging perishable goods and other oxygen sensitive products such as inks and adhesives.
BACKGROUND OF THE INVENTION
Amorphous copolyesters are generally defined as copolyesters that do not show a substantial melting point by differential scanning calorimetry when scanned at a rate of 20 C./min. These copolyesters are typically based on terephthalic acid, isophthalic acid, ethylene glycol, neopentyl glycol and 1,4-cyclohexanedimethanol. It is generally known in the art that amorphous copolyesters possess a combination of desirable properties, such as excellent clarity and color, toughness, chemical resistance and ease of processing. Accordingly, such copolyesters are known to be useful for the manufacture of extruded sheets, packaging materials, and parts for medical devices. However, when compared to other families of materials such as polycarbonates based on bisphenol A and certain acrylic resins like polymethyl methacrylate, amorphous copolyesters generally have lower glass transition temperatures (Tg) and lower heat distortion temperatures (HDT). The lower Tg and HDT of amorphous polyesters inhibit their application where resistance to thermal deformation is important, for example, green house panels, skylights and other products prepared by extrusion or injection molding processes.
It is also important that amorphous copolyesters have a low shear melt viscosity. Unlike semi-crystalline polyesters, where ultimate molecular weight values can be raised by polymerization in the crystalline or solid state, high molecular weight amorphous copolyesters must be obtained directly in the melt phase polymerization. It is not possible or it is too expensive to render the amorphous copolyesters into a crystalline pellet or particle form. Further, when heated to the temperatures required for solid state polymerization, amorphous pellets or particles flow together and stick together.
Polyethylene terephthalate (PET) and polyethylene naphthalate (PEN) are valuable commercial semicrystalline polyesters, which are widely used for packaging materials due to the combination of desirable properties that these resins possess. The high oxygen barrier properties of these polyesters renders them particularly valuable for packaging oxygen sensitive food and other goods and materials. PEN has advantages over PET due to its higher Tg and higher oxygen barrier properties. PEN, however, is somewhat harder to process than PET, which is a disadvantage to its use.
Crystallization modifiers like isophthalic acid (IPA) and 1,4-cyclohexanedimethanol (CHDM) are often copolymerized into PET and PEN polyesters to form copolyesters that have better processing properties. Modest levels of IPA slow down crystallization and raise the oxygen barrier properties. Higher levels of IPA break up crystallinity and lead to amorphous copolyesters with good barrier properties, but these copolyesters, are known to those familiar with the art, to possess poor impact and other mechanical properties. On the other hand modest levels of CHDM slow down crystallization, but decrease oxygen barrier properties. Higher levels of CHDM are well known to form families of amorphous copolyesters, which are widely used in commerce in a multitude of applications including heavy gauge sheet, signage, medical packages, etc. These copolyesters have excellent impact resistance and other mechanical properties, but have lower oxygen barrier properties than IPA modified copolyesters and lower oxygen barrier properties than PET.
Accordingly, there is a need for amorphous copolyesters having sufficiently low shear melt viscosities allowing the copolyesters to flow through the reactor at a practical rate allowing the copolyesters to build to a useful molecular weight. It is known in the art that the molecular weight of copolyesters can be conveniently measured in terms of its inherent viscosity (“IV”). Generally, an IV of 0.65 or higher is necessary for useful mechanical properties. Further, the maximum melt viscosity at 1 radian/second (shear rate) generally ranges from about 10,000 poise to about 12,000 poise at the temperature of the melt phase polymerization which is commonly in the range of about 260 to about 290 C. There is an unmet need in commerce for amorphous copolyesters with high Tg that also have good mechanical properties with good oxygen barrier properties.
Crystalline copolyesters with good heat resistance and high strength are disclosed by Japanese Patent No. 08295731. These copolyesters are based on terephthalic acid as the acid component and a mixture of 1,4-cyclohexanedimethanol, ethylene glycol, and ethylene oxide adducts of bisphenol as the glycol component. Amorphous copolyesters, however, are not disclosed.
A process for preparing polyesters with good transparency and which are useful in the production of bottles and films is disclosed by Japanese Patent No. 08283398. The process comprises the use of a specific antimony compound as a polycondensation catalyst. Polyester compositions for use in the preparation of optical instruments are disclosed by Japanese Patent No. 4173837. These copolyester compositions comprise an acid component consisting of terephthalic acid and a diol component consisting of 4,4′-bis(beta-hydroxyethoxy)-diphenylsulfone (2,2′-(sulfonylbis-(4,1-phenyleneoxy))bis(ethanol)) and at least one aliphatic or alicyclic diol having from 2 to 12 carbon atoms and containing a specific combination of at least one metal and phosphorous. According to this Japanese patent, the specific combination of metal and phosphorous is necessary to obtain polyesters with sufficient transparency, hue, Tg, and heat resistance.
Japanese Patent No. 50096692 relates to a process for preparing polyesters from (A) a bifunctional carboxylic acid component composed primarily of terephthalic acid and/or an ester forming derivative thereof, (B) a diol with an aromatic nuclei composed primarily of 4,4′-bis-(beta-hydroxyalkoxy)-diphenylsulfone (2,2′-(sulfonylbis-(4,1-phenyleneoxy))bis (ethanol)) and another diol. According to this Japanese patent, specific property limitations occur when a third diol, such as neopentyl glycol is incorporated.
Polyester sheets composed of ethylene glycol based glycols and terephthalic acid based dicarboxylic acids and containing diphenylsulfone and cyclohexane groups are disclosed by Japanese Patent No. 5279464. However, in order to obtain polyesters with superior transparency and heat resistant properties, the polyesters must contain both diphenylsulfone and cyclohexane groups at low levels.
U.S. Pat. No. 5,183,863 discloses viscoelastic resin compositions for vibration damping material. The resin comprises (A) at least one amorphous polyester resin of low specific gravity in which more than 40 mole % of the dibasic acid moiety is of aromatic type, (B) at least one amorphous polyester resin of high specific gravity in which more than 80 mole % of the dibasic acid is of aromatic type, and at least one hardener. As shown by Table 1 of the patent, the polyester resins according to this patent have relatively low Tg values ranging from −33 to 68 C.
U.S. Pat. Nos. 5,356,989 and 5,510,417 disclose aqueous dispersions suitable for use as coatings, paints, or adhesives which comprise a polyester resin, a water soluble organic compound, water, and a neutralizer. The polyester resins contain a polycarboxylic acid component and a polyol component. The glass transition temperature of the polyester resins according to these patent

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