Nacreous architecture has a good combination of toughness
and modulus,
which can be mimicked at the micron to submicron level using 3D printing
to resolve the demand in numerous applications such as automobile,
aerospace, and protection equipment. The present study examines the
fabrication of two nacre structures, a nacre columnar (NC) and a nacre
sheet (NS), and a pristine structure via fused deposition modeling
(FDM) and explores their mechanically superior stacking structure,
mechanism of failure, crack propagation, and energy dissipation. The
examination reveals that the nacre structure has significant mechanical
properties compared to a neat sample. Additionally, NS has 112.098
J/m impact resistance (9.37% improvement), 803.415 MPa elastic modulus
(11.23% improvement), and 1563 MPa flexural modulus (10.85% improvement),
which are all higher than those of the NC arrangement.