1. Field of Invention
The present invention relates to a method for protecting aluminum nitride from moisture and, more particularly, to a method for protecting aluminum nitride from moisture via using calcium silicate and dodecylamine of which the hydrophilism, thermal stability and thermal conductivity make the aluminum nitride moisture-proof and not vulnerable to deterioration so that the stability of the aluminum nitride is improved.
2. Related Prior Art
Solid materials include metals, ceramics, polymers and composites. The ceramics include precision ceramics. The precision ceramics exhibit mechanical strength, stability at high temperature, wear-resistance and erosion-resistance. Some of the precision ceramics even exhibit conductivity at high temperature, isolation, piezoelectricity and photoconductivity. Hence, the precision ceramics are deemed essential in science and technology.
Aluminum nitride is an important precision ceramic material. Aluminum nitride is highly thermally conductive as its heat transfer coefficient reaches 170 W/mK. Moreover, aluminum nitride is electrically isolative, mechanically strong, refractory and vibration-resistant. Hence, aluminum nitride can be used to make a substrate for use in a high-power electronic device.
A conventional process for making an aluminum nitride substrate includes the steps of providing aluminum nitride powder, molding, sintering and finishing. Each of the steps of the process influences the quality of the aluminum nitride substrate. Hence, the process for making the aluminum nitride substrate must be chosen carefully.
An aluminum nitride substrate radiates heat more than 7 times better than a substrate made of sapphire. The life of an aluminum nitride substrate reaches 6000 to 7000 hours. However, aluminum nitride easily reacts with oxygen. Therefore, in a hot or wet environment, the aluminum nitride on the surface of an aluminum nitride substrate easily reacts with oxygen and water to produce aluminum oxide. Thus, the purity of the aluminum nitride substrate is reduced, and the performance regarding the heat radiation is reduced.
The present invention is therefore intended to obviate or at least alleviate the problems encountered in prior art.
It is the primary objective of the present invention to provide a method for protecting aluminum nitride from moisture.
To achieve the foregoing objective, the method includes the step of providing a mixing apparatus for mixing aluminum nitride powder, calcium silicate, dodecylamine, a bonding agent and an anhydrous solvent with one another to provide a mixture. Then, a granulating process is executed to make the mixture into a plurality of aluminum nitride grains.
In another aspect, the mixing apparatus includes a container and an agitator provided in the container.
In another aspect, the bonding agent is PVB.
In another aspect, the anhydrous solvent is absolute alcohol.
In another aspect, the anhydrous solvent is methanol.
In another aspect, the anhydrous solvent is alcohol.
In another aspect, the anhydrous solvent is benzene.
In another aspect, the granulating process is a pelletizing process.
In another aspect, the granulating process is a grinding and screening process.
In another aspect, each of the aluminum nitride grains is covered by a plurality of calcium silicate grains and a plurality of dodecylamine grains. The calcium silicate grains are used to absorb moisture from the aluminum nitride grain. The dodecylamine grains are used to prevent moisture from reaching the aluminum nitride grain.
Other objectives, advantages and features of the present invention will be apparent from the following description referring to the attached drawings.
The present invention will be described via detailed illustration of the preferred embodiment referring to the drawings wherein:
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As described above, in the method for protecting aluminum nitride from moisture, the calcium silicate and dodecylamine, which absorb moisture and are stable and conductive at high temperature, are used to cover and protect the aluminum nitride from moisture. Therefore, the aluminum nitride is not vulnerable to deterioration. Furthermore, the stability of the aluminum nitride in the air is ensured.
The present invention has been described via the detailed illustration of the preferred embodiment. Those skilled in the art can derive variations from the preferred embodiment without departing from the scope of the present invention. Therefore, the preferred embodiment shall not limit the scope of the present invention defined in the claims.
Number | Date | Country | Kind |
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100127701 | Aug 2011 | TW | national |