Stock material or miscellaneous articles – Composite – Of epoxy ether
Reexamination Certificate
2000-08-21
2003-04-22
Dawson, Robert (Department: 1712)
Stock material or miscellaneous articles
Composite
Of epoxy ether
C428S417000, C523S451000, C525S481000, C525S482000, C525S490000, C525S523000, C528S089000, C528S096000, C528S108000
Reexamination Certificate
active
06551714
ABSTRACT:
The present invention relates to a resin composition having excellent flame retardancy with no halogen-containing flame retardant incorporated, and prepregs and laminates using such a resin composition.
Owing to their surpassing properties, thermosetting resins represented by epoxy resins are prevalently used for electrical and electronic machine parts, and in many cases these resins are provided with flame retardancy for securing safety against fires in use. Conventionally, the resins have been made flame-retardant by incorporating a halogen-containing compound such as brominated epoxy resin. Although such halogen-containing compounds have high flame retardancy, aromatic bromine compounds have the problem that they not only release corrosive bromine and hydrogen bromide in the course of pyrolysis but also have a possibility of forming highly toxicant polybromodibenzofuran and polydibromobenzoxine when decomposed in the presence of oxygen. Further, great difficulty comes in disposing of superannuated wastes containing bromine. For these reasons, study is now being made in earnest on use of phosphorus and nitrogen compounds as well as inorganic fillers as a flame redardant in place of the conventional bromine-containing ones.
As mentioned above, flame retarding of resins can be realized by making use of a phosphorus compound, a nitrogen compound and an inorganic filler. This is based on the concept that the nitrogen and phosphorus compounds accelerate carbonization of a resin to prevent its combustion, while the inorganic fillers help to reduce the amount of a combustible resin by their addition, consequently making the resin less combustible. Inorganic fillers such as metal hydroxides release water when burned to lower temperature and thereby prevent combustion. It has been known in the art, as disclosed in for instance JP-A-10-195178 and JP-A-10-166501, to render resins flame-retardant by incorporating a phosphorus compound and a nitrogen compound along with an inorganic filler instead of using a halogen compound, and prepregs and laminates using such resin compositions have been put to practical use.
The circuit-board manufacturing process involves various chemical liquid treating steps. In the desmearing step, for instance, a basic compound such as sodium hydroxide is required, while use of an oxidizing compound is essential for the blackening treatment. Phosphorus compounds such as phosphoric esters, which are commonly used as a flame retardant, have the problem that they tend to react with the above-mentioned treating compounds to give rise to difficulties.
As a phosphorus compound reactive with epoxy resins and epoxy resin curing agents, other than phosphoric esters, there is known 9,10-dihydro-9-oxa-10-phosphaphen-anthrene-10-oxide (produced and sold under the trade name of HCA by Sanko Chemical Co., Ltd.). (See, for example, JP-A-11-124489 and JP-A-2000-7898). HCA is hardly hydrolyzable and has excellent chemical resistance, but it is highly reactive with epoxy resins, so that when HCA alone is used as a phosphorus compound, its content must be increased and the reaction proceeds in the state of precuring varnish with an epoxy resin, and hence the final product such as a laminate may not be provided with the desired properties such as soldering heat resistance.
The present invention has been achieved in the course of studies for solving the above problems, and it provides a resin composition having excellent chemical resistance and flame retardancy by using a phosphine oxide compound with a low tendency to hydrolyze as a phosphorus-containing flame retardant. It is also envisaged in the present invention to provide prepregs using the resin composition, and flame-retardant laminates comprising such prepregs.
Specifically, the present invention provides a flame-retardant resin composition comprising as essential components (A) an epoxy resin, (B) a curing agent, and (C) a phosphorus compound containing at least as a part thereof a phosphine oxide compound. The present invention also provides a prepreg obtained by impregnating the flame-retardant resin composition in a base, and a flame-retardant laminate or a copper-clad flame-retardant laminate produced by hot-pressing a single sheet or a pile of two or more sheets of the prepreg.
As mentioned above, the added type phosphoric esters generally used as a phosphoric flame retardant, such as triphenyl phosphate and cresyl diphenyl phosphate, are easily hydrolyzed and tend to be eluted in a chemical solution. Therefore, resin compositions comprising such compounds as a flame retardant involve problems in their use for laminates.
The phosphine oxide compounds are less susceptible to hydrolysis as they have P-C bonds. These compounds, therefore, unlike the phosphoric esters having P-O bonds, have surpassing chemical resistance. Also, they show satisfactory flame retardancy by addition of only a small quantity because of high phosphorus content.
Generally, phosphorus compounds are hygroscopic, so that too much loading of a phosphorus compound gives adverse effects to moisture resistance and other properties of the cured resin composition. In contrast, phosphine oxide compounds have a restrained tendency to hydrolyze and low hygroscopicity. It is also notable that use of a novolak epoxy resin and a novolak resin as a curing agent makes it possible to provide satisfactory flame retardancy of the composition by addition of a smaller amount of phosphorous compound than required in the conventional art, because these resins have a high content of benzene rings and are therefore high in heat resistance and flame retardancy.
Thus, the flame-retardant resin composition according to the present invention is characterized by use of an epoxy resin and a curing agent with high heat resistance and use of a phosphine oxide compound as a flame retardant to realize satisfactory flame retardancy and chemical resistance of the composition without using a halogen compound.
Examples of the epoxy resins (A) usable in the present invention include bisphenol A epoxy resins, bisphenol F epoxy resins, phenolic novolak epoxy resins, cresol novolak epoxy resins, and bisphenol A novolak epoxy resins, and are not limited to these epoxy resins. It is also possible to use two or more different types of epoxy resins simultaneously.
In view of heat resistance, it is preferred to use the novolak epoxy resins with a high benzene ring content and high heat resistance, especially phenolic novolak epoxy resins and cresol novolak epoxy resins. The phenolic aralkyl epoxy resins represented by the following formula (1), the naphthalene aralkyl epoxy resins represented by the following formula (2) and the biphenyl-modified epoxy resins represented by the following formula (3) are also preferred, as these resins have a high content of aromatic rings and are small in ratio of polar groups, and hence high in heat resistance and capable of reducing water absorption of the composition:
wherein n is a natural number,
wherein n is a natural number, and
wherein n is a natural number.
In the present invention, the above type of epoxy resin is preferably used in an amount of at least 50% by weight of the whole epoxy resins for providing the desired improvement of heat resistance and flame retardancy.
As the curing agent used as component (B) in the present invention, novolak resins, amine compounds, acid anhydrides and the like can be used. Novolak resins are preferred, as they have high heat resistance and allow reduction of the amount of the phosphorus compound to be added. Phenolic novolak resins and phenolic aralkyl resins are usually used. Use of a triazine-modified novolak resin represented by the following formula (4) is preferred, as flame retardancy is further improved by the presence of triazine ring which is a nitrogenous component:
wherein R is NH
2
, alkyl group or phenyl group; and m and n are each a natural number.
In view of the fact that a phosphorus compound is contained in the composition, the nitrogen content is preferably selected to be 2.5 to 4% by wei
Aylward D.
Dawson Robert
Smith , Gambrell & Russell, LLP
Sumitomo Bakelite Company Limited
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