Additive Manufacturing and Mechanical Characterization of PLA-Based Skull Surrogates

Abstract: Several occupational and leisure activities involve a high risk of head impacts, resulting in varying degrees of injuries with chronic consequences that adversely affect life quality. The design and manufacturing of effective head protections rely on proper head simulators to mimic the behavior to impact loading. 3D-printed human skulls are reported herein to address the need for reproducible, cost-effective, anatomically-correct surrogates. To demonstrate the viability of the investigated approach, surrogate … Show more

“…The skulls were 3D-printed using polylactic acid (PLA) filaments with common processing parameters, including a 205 °C extrusion temperature, a 50 °C printing bed temperature, a 60 mm/s printing speed, and a 25% infill. The material selection has grounds in previous studies by the authors [ 30 ]. This study also covers the sectioning strategy, accounting for the effects of the orientation of the manufactured parts.…”

Additive Manufacturing of Head Surrogates for Evaluation of Protection in Sports

“…The skulls were 3D-printed using polylactic acid (PLA) filaments with common processing parameters, including a 205 °C extrusion temperature, a 50 °C printing bed temperature, a 60 mm/s printing speed, and a 25% infill. The material selection has grounds in previous studies by the authors [ 30 ]. This study also covers the sectioning strategy, accounting for the effects of the orientation of the manufactured parts.…”

Additive Manufacturing of Head Surrogates for Evaluation of Protection in Sports

Characterization and selection of a skull surrogate for the development of a biofidelic head model