Compositions – Miscellaneous
Reexamination Certificate
2001-05-01
2004-09-07
Warden, Jiji (Department: 1743)
Compositions
Miscellaneous
C252S364000, C252S062000
Reexamination Certificate
active
06787057
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a viscous liquid vibration damping composition prepared by combining a viscous liquid and at least two solid powders. More particularly, this invention relates to a viscous liquid vibration damping composition possessing stable vibration damping characteristics which are not significantly affected by temperature changes.
BACKGROUND OF THE INVENTION
Vibration damping compositions containing viscous liquids and solid powders have been disclosed. For example, in Japanese Patent Publication No. 62113932 is disclosed a vibration damping composition containing water, liquid polymers such as diethylene glycol, glycerin, or polybutadiene, and clay mineral powders. In Japanese Patent Publication No. 63308241 is disclosed vibration damping compositions containing viscous liquids, such as silicone oil, and solid powders, such as silica powder, glass powder, and silicone resin powder. In Japanese Patent Publication No. 63308242 are disclosed vibration damping compositions containing viscous liquids, such as silicone oil, and powders of organic resins whose glass transition point is within the working temperature range, such as acrylic resins.
In addition, in Japanese Patent Publication No. 10251517 a vibration damping composition possessing excellent vibration characteristics even if the frequency of vibration changes was disclosed by the authors of the present invention. The vibration damping effects of these vibration damping compositions, however, varied depending on temperature changes, and they did not possess stable vibration damping characteristics.
SUMMARY OF THE INVENTION
The present invention relates to a viscous liquid vibration damping composition containing (A) 30-95 weight percent of a viscous liquid and (B) 5-70 weight percent of at least two solid powders having different average particle diameters, wherein the difference between the respective average particle diameters of the solid powders is at least 10 &mgr;m.
It is an object of the present invention to provide a viscous liquid vibration damping composition superior in vibration damping properties and possessing a stable vibration damping characteristic that is not significantly affected by temperature changes.
The term viscous liquid as used herein is intended to mean that compositions prepared according to this invention are viscous liquids, and range from viscous liquids having a kinematic viscosity of 100 mm
2
/s at 25° C., to viscous liquids having a Williams Plasticity Number of 500 as determined according to Japanese Industrial Standard (JIS) Procedure K 6249 (ISO 7323).
DETAILED DESCRIPTION OF THE INVENTION
The present invention relates to a viscous liquid vibration damping composition containing (A) 30-95 weight percent of a viscous liquid and (B) 5-70 weight percent of at least two solid powders having different average particle diameters, wherein the difference between the respective average particle diameters of the solid powders is at least 10 &mgr;m.
In the viscous liquid vibration damping composition of this invention, Component (A), the viscous liquid, is a medium used for dispersing the solid powders, Component (B). The viscous liquid (A) is exemplified by mineral oil, vegetable oil, synthetic oil, and silicone oil. Preferably the viscous liquid is a silicone oil because of its high compressibility, weak dependence of changes in viscosity on temperature, and superior heat resistance. Organopolysiloxanes having a siloxane backbone are recommended as the silicone oil, with the organopolysiloxane preferably containing groups exemplified by alkyl groups such as methyl, ethyl and propyl, alkenyl groups such as vinyl and butenyl, aryl groups, such as phenyl and tolyl, halogenated alkyl groups such as 3,3,3-trifluoropropyl, and other substituted or unsubstituted monovalent hydrocarbon groups, and, additionally, a small amount of hydroxyl groups, methoxy groups, ethoxy groups, or other alkoxy groups as the groups bonded to the silicon atom in such siloxanes. Among them, in terms of the weak dependence of changes in viscosity on temperature and the excellent storage stability of the viscous liquid vibration damping composition of the present invention, alkyl groups are preferable, with the methyl group being particularly preferred. Also, the molecular structures of such silicone oils are exemplified by linear, partially branched linear, branched, and cyclic structures, with the linear structure being particularly preferred.
The kinematic viscosity of such silicone oils at 25° C. is, preferably, within the range of from 100 mm
2
/s to 1,000,000 mm
2
/s, with the range of from 500 mm
2
/s to 500,000 mm
2
/s being even more preferable. This is due to the fact that if the kinematic viscosity at 25° C. is less than 100 mm
2
/s, maintaining the solid powders in a dispersed state tends to become impossible, and, on the other hand, if it exceeds 1,000,000 mm
2
/s, the handling properties deteriorate, and it becomes more difficult to disperse the solid powders. Preferred silicone oils as Component (A) are exemplified by trimethylsiloxy-endblocked polydimethylsiloxanes and trimethylsiloxy-endblocked polydimethylsiloxane-polymethylphenylsiloxane copolymers.
The content of the viscous fluid, Component (A) in the viscous liquid vibration damping compositions of this invention, is typically from 30 weight percent to 95 weight percent, preferably from 30 weight percent to 91 weight percent, and, more preferably from 30 weight percent to 80 weight percent. This is due to the fact that if the amount of the added viscous fluid is not within this range, the vibration damping characteristics of the viscous liquid vibration damping compositions of this invention tends to deteriorate. If the weight percent of Component (A) is less than 30 weight percent, the resulting vibration damping composition will not be a viscous liquid.
The solid powder, Component (B), used in the viscous liquid vibration damping compositions of this invention, which is a component intended for imparting vibration damping properties to the viscous liquid vibration damping composition of the present invention, is a mixture of two or more solid powders with different average particle diameters. It is necessary that the difference in the particle diameters, based on the average particle diameter, of those two or more solid powders should be at least 10 &mgr;m, with 15 &mgr;m or more being preferable. The average particle diameters of the solid powders are usually within the range of from 1 &mgr;m to 200 &mgr;m, and, preferably, within the range of from 10 &mgr;m to 150 &mgr;m, with a mixture of (B1) a solid powder with an average particle diameter of 1 &mgr;m to 50 &mgr;m, and (B2) a solid powder with an average particle diameter of 20 &mgr;m to 200 &mgr;m, being particularly preferred as the solid powder of the present invention.
The solid powders are exemplified by inorganic powders such as silica powder, calcium carbonate powder, and glass powder, organic resin powders such as polyethylene resin powder and acrylic resin powder, and silicone resin powder. As for their shape, they can be spherical, oblate, and irregular in shape. It is preferable to combine powders of different materials, with a combination of a calcium carbonate powder with an average particle diameter of about 10-30 &mgr;m, and a glass powder with an average particle diameter of about 70-120 &mgr;m, being especially preferred.
The content of the two solid powders in the viscous liquid vibration damping composition of the present invention is within the range of from 5 weight percent to 70 weight percent, preferably, within the range of from 9 weight percent to 70 weight percent, and, more preferably, within the range of from 20 weight percent to 70 weight percent. This is due to the fact that if the amount of the added solid powders is not within this range, the vibration damping characteristic tends to deteriorate. In addition, the proportion, in which the above mentioned solid powder of component (B1) and solid powder of component (B2
Akamatsu Shoji
Tateishi Mari
Cross LaToya I.
De Cesare Jim L.
Dow Corning Toray Silicone Co. Ltd.
Warden Jiji
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