Tag: Materials Science

Computational framework enables 3D-printed wood to transform from flat sheets into complex curved forms through hydration cycles, reducing fabrication barriers.

Constitutive model for nonlinear deformation in woven fiber composites incorporating matrix plasticity, microdamage, and yarn rotation, validated against fabric CFRP specimens.

Hybrid lattice-honeycomb sandwich metastructure design optimizes arch geometry to simultaneously enhance impact resistance and thermal dissipation for transportation applications.

Biomimetic lattice structures based on muskox and bighorn sheep anatomy demonstrate enhanced energy absorption with external horns, though material ductility proves more critical than geometry.

Research on alumina-coated ventilated disc brakes demonstrates improved friction coefficient and braking force across varied operational parameters compared to conventional gray cast iron.

Catenary-reinforced re-entrant honeycomb sandwich beams demonstrate enhanced crashworthiness, with 64.9% improvement in load-bearing capacity and 46.9% increase in energy absorption.

In situ organoselenization strategy converts selenium into organic selenide forms to prevent polyselenide shuttle in lithium-selenium batteries, achieving 92.87% capacity retention after 1300 cycles.