Evaluation and prediction of the tensile properties of continuous fiber-reinforced 3D printed structures

“…To determine if 3D printed materials can be used for functional components, the mechanical properties need to be determined [2][3][4] and is also important to predict not only the strength, but also the stiffness and how they relate to process parameters.…”

Effects of Raster Orientation, Infill Rate and Infill Pattern on the Mechanical Properties of 3D Printed Materials

“…To determine if 3D printed materials can be used for functional components, the mechanical properties need to be determined [2][3][4] and is also important to predict not only the strength, but also the stiffness and how they relate to process parameters.…”

Effects of Raster Orientation, Infill Rate and Infill Pattern on the Mechanical Properties of 3D Printed Materials

“…Multi-material deposition capability with low cost and good strength of fabricated parts expanding their application area in other manufacturing industries of functional models and prototypes. But premature failure of fabricated parts, avoid use of this technique for manufacturing functional parts [25]. One drawback of this technique is that in the extrusion process composite material should have to be in filament form.…”

Comparison and analysis of different 3d printing techniques

“…Another technology, called Composite Filament Fabrication (CFF) makes it possible to 3D print composites with continuous fibers. MarkForged's carbon fiber and fiberglass filaments have unique strength among 3D-printable materials [11,12]Fiberglass or Kevlar fibers. The aim of this study is to evaluate the elastic properties of the fiber reinforced 3D printed structures and predict elastic properties using an Average Stiffness (VAS.…”

Design and Analysis of 3D Printable Foot Prosthesis