Method of manufacturing aluminum-based clad heat sink, and aluminum-based clad heat sink manufactured thereby

What is claimed is: 1. A method of manufacturing an aluminum-based clad heat sink, the method comprising: (A) preparing a plurality of composite powders by ball-milling (i) aluminum or aluminum alloy powder and (ii) carbon nanotubes (CNT); (B) preparing a multi-layered billet using the plurality of composite powders; and (C) directly extruding the multi-layered billet using an extrusion die, wherein the multi-layered billet comprises a first billet having a can shape and serving as a second shell layer; a second billet disposed inside the first billet as a first shell layer; and a third billet disposed inside the second billet as a core layer, wherein the first billet is made of aluminum, and the second billet comprises one of the plurality of composite powders and the third billet comprise another one of the plurality of the composite powders, and wherein the second billet comprises 0.09 to 10 parts by volume of the carbon nanotubes with respect to 100 parts by volume of the aluminum or aluminum alloy powder, and the third billet comprises 0.08 part by volume of the carbon nanotubes with respect to 100 parts by volume of the aluminum or aluminum alloy powder. 2. The method according to claim 1 , wherein in the step (B), the preparing of the multi-layered billet comprises compressing at least one of the plurality of composite powders at a high pressure of 10 to 100 MPa. 3. The method according to claim 1 , wherein in the step (B), the preparing of the multi-layered billet comprises subjecting at least one of the plurality of composite powders to spark plasma sintering performed at a pressure of 30 to 100 MPa and a temperature of 280° C. to 600° C. for a duration of 1 second to 30 minutes. 4. The method according to claim 1 , wherein the ball-milling in the step (A) is performed at a low speed ranging from 150 to 300 rpm or a high speed of 300 or more rpm, for a duration of 12 to 48 hours, with 100 to 1500 parts by volume of milling balls and 10 to 50 parts by volume of an organic solvent with respect to 100 parts by volume of each of the plurality of composite powders, in a horizontal or planetary ball mill. 5. The method according to claim 4 , wherein the organic solvent is heptane. 6. An aluminum-based clad heat sink comprising an extruded multi-layered billet, wherein the multi-layered billet comprises a first billet having a can shape and serving as a second shell layer; a second billet disposed inside the first billet as a first shell layer; and a third billet disposed inside the second billet as a core layer, wherein the first billet is made of aluminum, the second billet comprises 0.09 to 10 parts by volume of carbon nanotubes with respect to 100 parts by volume of an aluminum or aluminum alloy powder, and the third billet comprises 0.08 part by volume of carbon nanotubes with respect to 100 parts by volume of the aluminum or aluminum alloy powder wherein the aluminum-based clad heat sink is produced by the method of claim 1 . 7. The heat sink according to claim 6 , wherein the heat sink is a fin-type heat sink or a bar-type heat sink. 8. The heat sink according to claim 7 , wherein the heat sink is a straight fin-type heat sink or a pin fin-type heat sink.