Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Reexamination Certificate
2000-07-19
2002-05-28
Sanders, Kriellion A. (Department: 1714)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
C524S075000, C524S076000, C524S265000, C252S400310, C252S404000
Reexamination Certificate
active
06395808
ABSTRACT:
DETAILED DESCRIPTION OF THE INVENTION
Field of Industrial Application
In general, polycarbonate (PC), polybutylene terephthalate (PBT), polyethylene terephthalate (PET), blends thereof and thermoplastic resins obtained by blending one or a plurality of these resins with other resins cause heat decomposition when heated and molten in various molding processes and are reduced in a molecular weight, which results in a reduction in the mechanical properties. The present invention relates to a thermoplastic resin additive for preventing heat decomposition in such case and a heat stabilizing method of a thermoplastic resin using the above resin additive.
Problems to be Solved by the Invention
Resin materials, particularly the respective resins of PC, PBT and PET are heavily reduced in a molecular weight in heating and melting and therefore have notably been reduced in a molecular weight by virtue of heat given in the respective molding processes and a shearing stress in kneading. Accordingly, it has been difficult to recycle sprues and runners produced in molding as well as recycling of the products. An object of the present invention is to provide a novel thermoplastic resin additive which inhibits the preceding reduction in a molecular weight of resin materials in heating and melting and which can turn them into recyclable materials and a heat stabilizing method of a thermoplastic resin using the above resin additive.
Means for Solving the Problems
The object of the present invention described above can be achieved by:
(1) a thermoplastic resin additive comprising a tannin and a coupling agent, and
(2) a heat stabilizing method of a thermoplastic resin characterized by adding 5 to 3000 ppm of the above resin additive to the thermoplastic resin. The present invention shall be explained below in further details.
Intensive researches of an influence exerted on materials by polyhydric phenol continued by the present inventors have resulted in finding that a thermoplastic resin can be inhibited from being reduced in a molecular weight in heating and melting by adding a compound obtained by adding a coupling agent to or reacting with tannin or a compound obtained by further adding a coupling agent to or reacting with tannin heated and dehydrated to be subjected to polycondensation.
The tannin used in the present invention is a general term of complicated aromatic compounds having a lot of phenolic hydroxyl groups which are widely distributed in the plant kingdom, and to roughly divide, it is divided into two kinds of a hydrolyzed type and a condensed type. Either of them is a natural compound, and therefore a lot of the compounds having different structures are present. Either tannin may be used in the present invention.
Polyhydric phenol compounds having a dye-fixing effect and a tanning effect of leather are called “synthetic tannin” and “cintan”, and among the synthetic tannins, the compounds which are effectively used can be used as well in the present invention.
Also, tannic acid is called tannin as well and shall not specifically be distinguished in the present invention.
China tannin which is a typical hydrolyzed type tannin is shown by Formula (1). To further describe the China tannin, it has been apparent that the China tannin has a structure in which 10 gallic acid groups are disposed in the circumference of a glucose residue and two gallic acid groups are bonded in a vertical direction [a portion of a * mark in Formula (1)]. However, the center of the compound is not necessarily restricted to glucose and is the compound of a cellulose type in a certain case. Thus, tannins are compounds contained widely in plants in the natural world, and therefore it can readily be presumed that they are partially different in a chemical structure.
Tannins including decomposition products obtained by alkaline decomposition or hydrolytic decomposition of tannin are used as well in the present invention and, for example, didepside of gallic acid shown by Formula (2) which is obtained by hydrolysis of tannin can be used as well. At present, tannin is used for daily needs such as an ink, medical uses such as a hemostatic agent and industrial uses such as a tanning agent of leather and a mordant in dyeing, and in recent years, it is used as a food additive.
Further, tannins including catechin are used as well in the present invention. Catechin is a polyhydroxy derivative of 3-hydroxyflavane which is a polyhydric phenol compound and contained widely in plants in the natural world. It is said that catechin includes heterogeneous types having various molecular structures, and any ones are natural compounds, so that a lot of catechins having different structures are present. Catechin used in the present invention shall not specifically be restricted and may be any one as long as it is catechin which can effectively be used for the object of the present invention. Also, catechin is called shibu. At present, catechin is used for medical uses such as a carcinostatic agent and industrial uses such as a color fixing agent and a mordant for nylon.
Tannin preferably used in the present invention includes China tannin and 3,5,7,3′, 4′-pentahydroxyflavane (catechin in terms of a narrow sense). Catechin (3), quebrotannin (4) and turkey tannin (5) are shown in Formula (3), Formula (4) and Formula (5) as various tannins having different chemical structures.
Tannin subject to polycondensation which is obtained by heating and dehydrating it at a temperature of 70 to 230° C., Preferably 90 to 160° C. can be used as well for the tannin used in the present invention. In this case, conditions of heating and dehydrating shall not specifically be restricted, and it is usually heated and dehydrated at 70° C. for about 8 hours, 230° C. for about 2 minutes and 90 to 160° C. for about 2 to 3 hours. When tannin is subjected to condensation polymerization, tannin is required to be dehydrated to some extent, and the whole thereof is not necessarily required to be subjected to condensation polymerization. In the case of China tannin, the product which is dehydrated by not much more than 8 to 11% is preferably used. Tannin thus subjected to polycondensation has the advantages that an OH group contained in tannin is reduced to some extent by polycondensation, and therefore when this is added to the thermoplastic resin, it can prevent the OH groups which are present in excess from being decomposed in heating and melting the resin and foaming in the resin to form bubbles and that the thermoplastic resin can further be thermally stabilized. In the present invention, tannins can be used alone or in a mixture of two or more kinds thereof. Next, the coupling agent used in combination with tannin in the present invention is a surfactant, and the coupling agents of a silane base, titanate base and an aluminate base are used. In the present invention, the coupling agents of a silane base are preferably used. Among them, the compounds having terminal groups such as an epoxy group, a vinyl group and an amino group are preferably used. To be specific, these coupling agents of a silane base include, for example, vinyltriethoxysilane, &ggr;-methacryloxypropyltrimethoxysilane, &ggr;-glycidoxypropyltrimethoxysilane, &ggr;-aminopropyltriethoxysilane and trifuloropropylmethyldimethoxysilane, and the particularly preferred coupling agents of a silane base include &ggr;-methacryloxypropyltrimethoxysilane, &ggr;-glycidoxypropyltrimethoxysilane and trifuloropropylmethyldimethoxysilane. The coupling agent can be used in the form of a mixture with tannin or a compound obtained by reacting with tannin. Tannin is a compound containing a lot of phenolic hydroxyl compounds and therefore does not have so good wettability against a thermoplastic resin. Accordingly, it is considered that tannin does not have a so good dispersibility in a resin. It is considered that the coupling agent improves this dispersibility of tannin in a resin and elevates further more a heat stabilization of the resin. The coupling agents can used alone or in com
Kanno Maki
Nikkeshi Susumu
Sanders Kriellion A.
Tohoku Munekata Co. LTD
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