Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – From phenol – phenol ether – or inorganic phenolate
Reexamination Certificate
2001-07-18
2002-10-15
Dawson, Robert (Department: 1712)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
From phenol, phenol ether, or inorganic phenolate
C523S457000, C528S090000, C528S093000
Reexamination Certificate
active
06465597
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to epoxy-amine compositions. More particularly, it relates to epoxy-amine compositions containing sulfur as a cure accelerator.
BACKGROUND ART
The three-dimensional epoxy-amine network produced by the curing of amine-epoxy resin formulations is well known to exhibit desirable mechanical and thermal properties. As a result, amine-curable epoxy resin systems have been widely used as coatings, adhesives, sealants and matrices for fiber-reinforced composites. For each application, the epoxy-amine resin formulation must possess a particular degree of reactivity. In many cases, the reaction rate must be increased, and cure accelerators are added.
Various cationic and anionic catalysts, such as imidazoles, tertiary and some secondary amines, alkoxides, phenols, carboxylic acids, Lewis acids, metal halides and different salts and complexes are commonly added into the epoxy-amine systems as accelerators. Such accelerators, while improving the cure speed, have been found to sometimes either provide insufficient acceleration, or adversely affect the working life of the system as well as complicate the work with significant volumes of materials.
Other accelerators are being developed in order to overcome these difficulties. For example, calcium sulfonate or calcium hydrocarbyl sulfate, disclosed in U.S. Pat. No. 5,442,035, issued to Corley et al. on Aug. 15, 1995, are also used to accelerate the curing of epoxy-amine compositions.
However, there is always a need for new catalysts that could provide extra acceleration of curing process of epoxy-amine compositions in addition to the acceleration provided by the conventional catalysts without significant adverse effects.
SUMMARY
The present invention is directed to epoxy-amine compositions to which elemental sulfur is added as a cure accelerator.
According to a first embodiment of the present invention, epoxy-amine compositions of the present invention include an epoxy resin, an amine curing agent and sulfur. The epoxy resin means aromatic or aliphatic compounds with terminal epoxy groups, preferably glycidyl ethers. The amine curing agents can contain primary or secondary monoamines, primary or secondary diamines, primary or secondary polyamines, or combinations thereof. The concentration of elemental sulfur in the epoxy-amine composition is selected in dependence on a desired degree of cure acceleration.
A process for accelerating the curing of epoxy-amine composition is also described in a second embodiment of the present invention. In this process, sulfur is added to either or both of an amine curing agent and an epoxy resin of an epoxy-amine composition, and the epoxy-amine composition is then cured.
In such compositions the acceleration is more pronounced when sulfur is mixed with the amine curing agent prior to the mixing of the amine curing agent with the epoxy resin. Sulfur can dissolve in amines up to a certain concentration that is specific for each amine. The degree of acceleration depends on the time that sulfur is in contact with the amine curing agent and the temperature of the sulfur-amine mixture. It is demonstrated that sulfur acts as an accelerator for the epoxy-amine composition even when it is added to the amine curing agent in amounts exceeding its solubility limit. When sulfur is mixed in the epoxy resin prior to the mixing of the epoxy resin with the amine curing agent, the acceleration effect is still present, but it is less pronounced.
It is an advantage of the present invention to provide a low cost accelerator that gives a high degree of acceleration for the curing the epoxy-amine compositions and could be used alone or in combination with the conventional accelerators for curing the epoxy-amine compositions.
DETAILED DESCRIPTION
Although the following detailed description contains many specifics for the purposes of illustration, anyone of ordinary skill in the art will appreciate that many variations and alterations to the following details are within the scope of the invention. Accordingly, the following preferred embodiment of the invention is set forth without any loss of generality to, and without imposing limitations upon, the claimed invention.
An epoxy-amine composition of the present invention includes an epoxy resin, an amine curing agent, and elemental sulfur acting as a cure accelerator. The epoxy resins are aromatic or aliphatic compounds having terminal epoxy groups, preferably glycidyl ethers. The amine curing agent can contain primary or secondary monoamines, primary and secondary diamines, primary or secondary polyamines, or combination thereof.
Elemental sulfur can be mixed to either or both of the amine curing agent and the epoxy resin. The acceleration effect is more pronounced when elemental sulfur is mixed with the amine curing agent prior to the mixing of the amine curing agent with the epoxy resin. It is known that elemental sulfur can be dissolved in amines up to a certain concentration that is specific for each amine. However, elemental sulfur can act as an accelerator for an epoxy-amine reaction even when it is added in the amounts exceeding the solubility limit. The effect of acceleration of the reaction of amines and epoxies by the elemental sulfur is highly regulated by the time and conditions of the contact between elemental sulfur and the amine curing agent.
The degree of acceleration is a direct function of the concentration of the elemental sulfur in the epoxy-amine composition, even when sulfur is present in undissolved form. Therefore, the acceleration effect is still present when the elemental sulfur is mixed with the epoxy resin prior to the mixing of, the epoxy resin with the amine curing agent, but the acceleration is less pronounced than when the elemental sulfur is mixed with the amine curing agent prior the mixing of the amine curing agent with the epoxy resin.
As stated above, when sulfur is mixed with the amine curing agent, the acceleration effect up to a certain degree is strongly dependent on the time that sulfur is in contact with the amine curing agent and the temperature of the sulfur-amine mixture. For, example, it may take about two days to get a maximum acceleration effect at room temperature depending on the activity of amine curing agent, and the time is reduced if the sulfur-amine mixture is kept at elevated temperature.
It is observed that if sulfur is added to the epoxy resin prior to the mixing of the epoxy resin and the amine curing agent, the time of amine-sulfur interaction is lowest, and therefore, the effect of the acceleration for the same concentration of the elemental sulfur in the epoxy-amine mixture is lowest. If elemental sulfur is added to the amine curing agent immediately prior to the mixing of the amine curing agent and the epoxy resin, the acceleration effect is more pronounced. If the elemental sulfur is added to the amine curing agent, and the amine-sulfur mixture is kept for a certain time at an elevated temperature, the effect of acceleration is highest.
It must be noted that simultaneously with acceleration of curing of epoxy-amine compositions, sulfur modifies the cured polymer, increasing its adhesion to specific substrates.
REFERENCES:
patent: 5442035 (1995-08-01), Corley et al.
patent: 170699 (1976-09-01), None
Vecera, M,Polimery38(4-5), pp 175-179, 1993.
Rappoport Leonid
Vainer Alex
Yam Aleksander
Aylward D.
Dawson Robert
Lumen Intellectual Property Services Inc.
Polymeright, Inc.
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