The study of grinding behavior characteristics on aluminum powders and carbon nano tubes (CNTs) has recently gained scientific interest due to their useful effect in enhancing advanced nano materials and components, which significantly improves the property of new mechatronics integrated materials and components. We performed a series of dry grinding experiments using a planetary ball mill to systematically investigate the grinding behavior during Al/CNTs nano composite fabrication. This study focused on a comparative study of the various experimental conditions at several variations of rotation speeds, grinding time and with and without CNTs. The results were monitored for the particle size distribution, median diameter, crystal structure from XRD pattern and particle morphology at a given grinding time. It was observed that pure aluminum powders agglomerated with low rotation speed and completely enhanced powder agglomeration. However, Al/CNTs composites were achieved at maximum experiment conditions (350 rpm, 60 min.) of this study by a mechanical alloy process for Al/CNTs mixed powders because the grinding behavior of Al/CNTs composite powder was affected by addition of CNTs. Indeed, the powder morphology and crystal size of the composite powders changed more by an increase of grinding time and rotation speed.

• 최희규(창원대학교 메카트로닉스 융합부품소재 연구센터) | Choi, Heekyu
• 이재현( 창원대학교 메카트로닉스 융합부품소재 연구센터) | 이재현
• 김성수( 하지이엔지) | 김성수
• 최경필( 창원대학교 금속신소재공학과) | 최경필
• 배대형( 창원대학교 금속신소재공학과) | 배대형
• 이승백( 창원대학교 금속신소재공학과) | 이승백
• 이웅( 창원대학교 금속신소재공학과) | 이웅