EFFECT OF ULTRASONIC-ASSISTED COMPACTION ON DENSITY AND HARDNESS OF Cu-CNT NANOCOMPOSITES SINTERED BY CAPSULE-FREE HOT ISOSTATIC PRESSING

Abstract: Cu-CNTs composites were prepared with and without ultrasonic-assisted compaction in this work. The samples were sintered by capsule-free hot isostatic pressing at 920 o C and 50 MPa Ar gases. The results showed that the higher relative density and Brinell hardness were obtained for ultrasonic assisted compaction samples (at the same CNT content). For both cases, the highest hardness values was achieved at 0.5 wt.% CNT (49.2 HB and 45.8 HB for specimens with and without the ultrasonic-assisted compaction, respe… Show more

“…Powder Metallurgy (PM) engineering starts to use a new possibility of design controlled by the new technologies, led by additive manufacturing (AM), ultrasonic-assisted compaction or/and sintering, severe plastic deformation (SPD) and it has a huge potential to disrupt current manufacturing process processing. Mainly AM is to take care of a forum demonstrating the depth and breadth of the research and development activities through manufacturing technology which most describes that goal [1][2][3][4].…”

Evaluation of the Material Properties of the Ti and CoCr Alloys Prepared by Laser Powder Bed Fusion

“…Powder Metallurgy (PM) engineering starts to use a new possibility of design controlled by the new technologies, led by additive manufacturing (AM), ultrasonic-assisted compaction or/and sintering, severe plastic deformation (SPD) and it has a huge potential to disrupt current manufacturing process processing. Mainly AM is to take care of a forum demonstrating the depth and breadth of the research and development activities through manufacturing technology which most describes that goal [1][2][3][4].…”

Evaluation of the Material Properties of the Ti and CoCr Alloys Prepared by Laser Powder Bed Fusion

Ultrasonic metal forming: Processing

Effect of ultrasonic assisted sintering on mechanical properties and degradation behaviour of Mg15Nb3Zn1Ca biomaterial