Patent Application
20240376571
The present invention relates to an aluminum alloy with ultra-high thermal conductivity and manufacturing method thereof, in particular to an industrial aluminum alloy manufacturing field.
The mainly raw material of Aluminum alloy ingots is pure aluminum and recycled aluminum. The other elements are added in accordance with international standards or special requirements, such as: silicon (Si), magnesium (Mg), iron (Fe), etc., to improve alloys formulated with pure aluminum with insufficient castability, chemical properties and physical properties generally used in the foundry industry.
With the rapid development of science and technology, performance and precision requirements of equipment are getting higher and higher. Harsh operating environment requirements are demanded for precision equipment, and temperature control is an important part of ensuring equipment operation. Temperature control of most equipment is closely related to heat sink, but in order to improve the heat dissipation performance of heat sink, in addition to structural changes, the most fundamental thing is to improve the heat dissipation performance of the material used to prepare the heat sink. Therefore, it is necessary to develop a more reasonable preparation method capable of preparing high-quality heat-dissipating materials that can be formed and processed to meet the requirements of equipment configured with higher heat generation, and provide a guarantee for improving the integration degree and reducing the size of various devices. However, in actual production, the currently available aluminum alloy materials have poor heat conduction performance.
A main object of the present invention is to provide aluminum alloy with ultra-high thermal conductivity and manufacturing method thereof, which can be used in aluminum alloy products made of parts that require ultra-high thermal conductivity, and can meet the thermal conductivity requirements of particular industries for aluminum alloy materials.
The composition of the aluminum alloy with ultra-high thermal conductivity of the present invention is mainly composed of aluminum, nickel, and aluminum titanium carbon, and the weight percentages of the composition are as follows: nickel is 2˜5%, carbon of aluminum titanium carbon is 0.1%˜0.5%, titanium of aluminum titanium carbon is 0.01˜0.2%, iron is less than 0.1%, silicon is less than 0.1%, the metal components including copper, zinc, manganese, magnesium, chromium, lead, and tin is respectively less than 0.01%, M is another element with a content being limited to less than 0.005%, and the balance is aluminum.
The composition of the aluminum alloy with ultra-high thermal conductivity of the present invention, the weight percentage of aluminum is greater than 94%.
The manufacturing method of the aluminum alloy with ultra-high thermal conductivity of the present invention comprises the steps of:
The aluminum alloy with ultra-high thermal conductivity and manufacturing method thereof of the present invention, advantages include the following: the aluminum alloy with ultra-high thermal conductivity of the present invention has both high temperature strength and conductivity, creating an aluminum alloy that is easy to form and process, and without heat treatment, the thermal conductivity of the aluminum alloy is similar to that of pure aluminum, which can be up to more than 230 W/mK, with very excellent heat dissipation effect, and can be applied to aluminum alloy die casting, aluminum alloy casting and other production methods, the products of the aluminum alloy can be applied to electronic parts with high heat dissipation and heat conduction requirements, such as computers, communications, consumer electronics devices, 5G network equipment, automotive electronic parts, motor rotors, aerospace/satellite communications and so on.
Regarding the technical means adopted by the invention to achieve the above-mentioned object and efficacies, a preferred and feasible embodiment is explained in details hereunder in conjunction with the figures.
The manufacturing method of the aluminum alloy with ultra-high thermal conductivity of the present invention, referring to
The composition of the aluminum alloy with ultra-high thermal conductivity of the present invention is mainly composed of aluminum (Al), nickel (Ni), and aluminum titanium carbon (AITiC), wherein the weight percentages of the composition is as follows: nickel is 2˜5%, carbon (C) of aluminum titanium carbon is 0.1%˜0.5%, titanium (Ti) is 0.01˜0.2%, iron (Fe) is less than 0.1%, silicon (Si) is less than 0.1%, the metal components including copper, zinc, manganese, magnesium, chromium, lead, and tin is respectively <0.01, M is another element with a content being limited to less than 0.005%,, and the balance aluminum (Al) is greater than 94%.
In the present invention, the metallographic structure formed by adding different proportions of nickel and aluminum titanium carbon to the aluminum alloy is not the same.
The aluminum alloy made according to the different additions of nickel (Ni) according to the present invention, wherein the thermal conductivity and tensile test results of the aluminum alloy are shown in Table 2:
The aluminum alloy with ultra-high thermal conductivity of the present invention has electrical conductivity and is close to the thermal conductivity of pure aluminum, which is beneficial to aluminum alloy die-casting/aluminum alloy casting molding, and the cast product is easy to process.
In summary, the invention has indeed achieved the intended object and efficacy of use, and is more ideal and practical than the prior art. However, the above-mentioned embodiment is merely the specific description of the preferred embodiment of the invention, the embodiment is not intended to limit the claims of the invention, and all other equivalent changes and modifications completed without departing from the technical means disclosed in the invention should be included in the claims covered by the invention.
