Nanostructured metal powder and method of fabricating the same
First Claim
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1. A nanostructured metal powder, comprising:
- a plurality of nano-grains; and
grain boundaries formed among the nano-grains;
wherein the nanostructured metal powder is spherical, and an average diameter of the nanostructured metal powder is μ
m-scaled.
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Abstract
The present invention relates to a nanostructured metal powder and a method of fabricating the same. A twin-wire electric arc process is performed to melt the wire tips, and metal melt is formed. Simultaneously, the metal melt is broken up into melt droplets by an atomizing device. The operating temperature of the electric arc process is controlled between melting point and boiling point of the wire, to avoid vaporization of the melt droplets. Then, a fast cooling is performed to quench the melt droplets. Thus, melt droplets are solidified to μm-scaled, spherical and dense powders comprising nano-grains (d<100 nm).
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Citations
20 Claims
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1. A nanostructured metal powder, comprising:
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a plurality of nano-grains; and
grain boundaries formed among the nano-grains;
wherein the nanostructured metal powder is spherical, and an average diameter of the nanostructured metal powder is μ
m-scaled. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of fabricating the nanostructured metal powder, comprising the steps of:
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using metal wire as feedstock;
using two wires as electrodes;
performing a twin-wire electric arc process to melt the wire tips to form a metal melt, and simultaneously, breaking the metal melt into melt droplets by an atomizing device, wherein an operating temperature of the electric arc process is controlled between melting point and boiling point of the wire, to avoid vaporization of the melt droplets; and
performing a quenching process to cool the melt droplets by means of a cooling medium. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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20. A method of fabricating the nanostructured metal powder, suitable for fabricating Pd (palladium) powders, comprising the steps of:
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using two Pd wires as feedstock and electrodes;
performing a twin-Pd wire electric arc process to melt the Pd wire tips to form a Pd metal melt, and simultaneously, breaking the Pd metal melt into Pd melt droplets by an atomizing device; and
performing a quenching process to cool the melt droplets by means of a cooling medium;
wherein a diameter of each Pd wire is about 1.5 mm;
wherein operating conditions of the electric arc process are 30 DC Voltage and 120 Ampere;
wherein the atomizing device atomizes the metal melt through an inert gas under pressure of about 20 psi.
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Specification
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Current AssigneeIndustrial Technology Research Institute
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Original AssigneeIndustrial Technology Research Institute
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InventorsLiao, Shih-Chieh, Wu, Zhong-Ren, Hong, Song-Wein, Chen, Jin-Ming
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Application NumberUS10/457,957Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current75/255CPC Class CodesB22F 1/065 Spherical particlesB22F 1/07 Metallic powder characteris...B22F 2009/0836 with electric or magnetic f...B22F 2009/084 combination of methodsB22F 2009/0848 Melting process before atom...B22F 2009/086 Cooling after atomisationB22F 2202/03 Treatment under cryogenic o...B22F 2998/00 Supplementary information c...B22F 2999/00 Aspects linked to processes...B22F 9/082 atomising using a fluid usi...B22F 9/14 using electric discharge
