Fatigue behavior and electromechanical properties of additively manufactured continuous wire polymer composites for structural health monitoring

Abstract: The fatigue behavior of continuous wire polymer composite (CWPC) fabricated by fused filament fabrication (FFF) was investigated. Four compositions were examined: polylactic acid (PLA), PLA with copper wire (Cu), thermoplastic polyurethane (TPU), and TPU with Cu wire. Residual properties were measured after different sets of number of cycles (10 2 , 10 4 , 10 5 ). Residual strengths were 89.7% and 70.5% of the ultimate tensile strength of the original material after 10 5 cycles for PLA CWPC and TPU CWPC, respe… Show more

“…As reported in previous studies, 35,36 the voids frequently exist in the 3D-printed structures of carbon fiber reinforced thermoplastics due to the geometry of the extruded polymer of this technique. Additionally, it was reported in several studies 19,20,37,38 of continuous reinforced 3D-printed samples that voids mostly exist around the continuous reinforcement.…”

High stiffness 3D-printed continuous pitch carbon fiber reinforced polymer composites

“…As reported in previous studies, 35,36 the voids frequently exist in the 3D-printed structures of carbon fiber reinforced thermoplastics due to the geometry of the extruded polymer of this technique. Additionally, it was reported in several studies 19,20,37,38 of continuous reinforced 3D-printed samples that voids mostly exist around the continuous reinforcement.…”

High stiffness 3D-printed continuous pitch carbon fiber reinforced polymer composites

Fatigue Characterization of Additively Manufactured Continuous Fiber Composites Using Traditional and Non-traditional Experimental Techniques