Organic compounds -- part of the class 532-570 series – Organic compounds – Silicon containing
Reexamination Certificate
2003-05-13
2004-05-18
Barts, Samuel (Department: 1621)
Organic compounds -- part of the class 532-570 series
Organic compounds
Silicon containing
C556S453000, C556S456000, C556S466000
Reexamination Certificate
active
06737538
ABSTRACT:
This nonprovisional application claims priority under 35 U.S.C. §119(a) on Patent Application No(s). 2002-136694 filed in Japan on May 13, 2002, which is (are) herein incorporated by reference.
This invention relates to the purification of silicone oil, and more particularly, to a method for purifying silicone oil to a high level of purity to use in the electric and electronic industry and cosmetic applications.
BACKGROUND OF THE INVENTION
Silicone oil is a family of organosilicon compounds comprising straight chains or straight and branched chains of siloxane bonds, modified with organic groups attached to silicon atoms as typified by methyl and phenyl groups. The viscosity of silicone oil varies over a wide range of 0.65 to 1,000,000 centistokes (cs) at 25° C. By virtue of superior heat resistance, freeze resistance, temperature properties of viscosity, and biological action as compared with mineral oils and oils of organic origins such as animal and plant oils, the silicone oil has already been widely used in the industry.
As silicone oil has found increasing novel applications for recent decades, oils produced by prior art methods do not necessarily possess all satisfactory properties. To acquire appropriate properties for a particular application, novel production methods or purification methods have been developed. Through further modifications made thereon, industrial methods have been established.
Nevertheless, in the electric and electronic industry and cosmetic application, especially in recent years, it is a matter of great urgency to obtain a silicone oil of high purity with a minimal impurity content.
Meanwhile, the raw material from which silicone oil is produced is composed mainly of dimethyldichlorosilane which is a monomer isolated to a high degree by distillation and optionally, a monochlorosilane (isolated by distillation) for end formation and a dichlorosilane containing phenyl or other organic groups for imparting certain properties, which are optionally hydrolyzed to form a siloxane intermediate, which is polymerized to eventually form a silicone oil. Almost for a certainty, the assistants used in this process are only a polymerization catalyst and a neutralizing agent. Therefore, the target for high purity is how to remove minor amounts of catalyst residue and by-products. At the same time, an analysis technique chosen and a preset level of these impurities dictate the level of product quality.
Prior art purification methods include neutralization, filtration, activated carbon treatment, water washing and the like, which are optionally used in combination. These methods are not necessarily satisfactory. Although impurities are basically removed by water washing, the generation of a large amount of waste water and the installation and time needed for separation become serious problems. Among the above-mentioned methods, the activated carbon method is relatively easy and effective to a certain extent, but suffers from difficulties of handling including large amounts of carbon used, the concomitant problem of waste carbon, and complete removal of activated carbon fines after the treatment. There is a need to develop a simple, inexpensive, stable method entailing a minimized amount of waste and capable of mass scale production.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a method for purifying silicone oil which is simple, inexpensive and stable, entails a minimized amount of waste, and can offer a silicone oil of high purity and quality enough to find use in the electric/electronic and cosmetic applications.
Studying activated carbon, we have found that a specific activated carbon has an activity to purify silicone oil. More specifically, an attempt to treat a crude or unpurified silicone oil with fibrous activated carbon, especially activated carbon fibers based on carbon fibers derived from phenolic resins becomes a simple, inexpensive, stable purification method with minimized waste. The silicone oil obtained by this purification method has a high purity enough to find use in the electric/electronic and cosmetic applications.
Therefore, the present invention provides a method for purifying silicone oil by treating silicone oil with fibrous activated carbon.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Activated carbons include those derived from natural wood sources such as coconut shell-origin activated carbon and charcoal-origin activated carbon, and are often in powder or granular form. From the past, they have long been utilized in the organic chemistry field for purification, decoloring and removal of trace ingredients. The application of activated carbon to the electronic industry was recently reported as disclosed in JP-A 8-12602. There are also known coal-origin activated carbons, such as those derived from coal and tar. Recently, activated carbon in fibrous form is available. It is reported that a certain activated carbon exerts a specific function depending on its shape and its composition or microstructure which will be inherent to its origin, and is used in a particular application requiring such a function. See JP-A 56-168824, JP-A 4-267872, JP-A 6-128816 and JP-A 10-120402. These prior art approaches challenged to increase the level of purification to the limit of analysis, but failed to establish an industrially acceptable process. The material that the present invention addresses is silicone oil which is a family of organosilicon compounds.
Namely, the present invention is essentially different from the prior art techniques discussed above. It has been found that for the purification of silicone oil to a higher level, fibrous activated carbon is outstandingly effective. The concept of purifying silicone oil using fibrous activated carbon is based on a unique combination of a specific material with its applicable properties. The present invention is predicated on this finding.
Although the purifying ability of fibrous activated carbon is apparently regarded similar to the purifying ability of granular activated carbon commonly used in the prior art, a definite difference is seen between them when used in the purification of silicone oil. Of course, the difference is considered partially inherent to the chemical and physical properties of the original fibers, while the relationship of the exact material and properties on the activated carbon side to the object to be purified has not been well understood.
The silicone oil to be purified herein is not critical. The silicone oil which can be used herein is one obtained by using as a main component a diorganodichlorosilane such as dimethyldichlorosilane which is a monomer isolated to a high level of purity by distillation and optionally, a monochlorosilane (isolated by distillation) for end formation such as trimethylmonochlorosilane, and a dichlorosilane containing phenyl or other organic groups for imparting certain properties such as diphenyldichlorosilane or methylphenyldichlorosilane, optionally hydrolyzing the monomer or monomers to form a siloxane intermediate, and polymerizing the intermediate.
The viscosity of the silicone oil is not critical as long as it is oily. For filtration and other properties, the silicone oil should preferably have a viscosity of up to 10,000 cs, especially up to 5,000 cs at 25° C. The structure of the silicone oil is not critical as well and may be terminated with a triorganosilyl group such as trimethylsilyl or a diorganohydroxysilyl group.
Impurities which can be most effectively removed by the fibrous activated carbon include hydrocarbons and anionic impurities as typified by sulfate ions and chloride ions. Hydrocarbons can give off oily odor and incur color deficiencies. Ionic impurities can exacerbate insulating properties and high-temperature stability.
The content of impurities in the oil to be purified depends on the starting material and preparation conditions and is preferably in the range of not more than about 5,000 ppm, especially not more than 1,000 ppm of hydrocarbons and not more than about 100 ppm, especially not mo
Maruyama Masao
Nakabayashi Hiromi
Nakayama Hiroshi
Ueno Susumu
Barts Samuel
Shin-Etsu Chemical Co. , Ltd.
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