© 2018 The Authors Functional graded cellular materials (FGCMs) have attracted increasing attentions for their improved properties when compared to uniform cellular structures. In this work, graded Gyroid cellular structures (GCSs) with varying gradient directions were designed and manufactured via selective laser melting (SLM). As a reference, uniform structures were also manufactured. The surface morphology and mechanical response of these structures under compressive loads were investigated. Results indicate high manufacturability and repeatability of GCSs manufactured by SLM. Optimized density distribution gives these structures novel deformation and mechanical properties. GCSs with density gradient perpendicular to the loading directio...
The development of additive manufacturing techniques has made it possible to produce porous structur...
Cellular lattice structures have important applications in aerospace, automobile and defense industr...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
Functional graded cellular materials (FGCMs) have attracted increasing attentions for their improved...
Functional graded cellular materials (FGCMs) have attracted increasing attentions for their improved...
Triply periodic minimal surfaces (TPMSs) have attracted increasing attention for their high manufact...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
Bio-inspired functionally graded cellular materials (FGCM) have improved performance in energy absor...
Lightweight cellular structure generation and topology optimization are common design methodologies ...
The control of structure formation of additive manufacturing simplifies the fabrication of functiona...
Triply Periodic Minimal Surface (TPMS) structures fabricated via Additive Manufacturing (AM) have re...
Typically, cellular materials are designed for structural applications to provide stiffness or absor...
Functionally graded material (FGM) is a new generation of engineered material with changes in the pr...
Cellular lattice structures have important applications in aerospace, automobile and defense industr...
Owning to their lightweight characteristic and high performance, functionally graded lattice structu...
The development of additive manufacturing techniques has made it possible to produce porous structur...
Cellular lattice structures have important applications in aerospace, automobile and defense industr...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
Functional graded cellular materials (FGCMs) have attracted increasing attentions for their improved...
Functional graded cellular materials (FGCMs) have attracted increasing attentions for their improved...
Triply periodic minimal surfaces (TPMSs) have attracted increasing attention for their high manufact...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
Bio-inspired functionally graded cellular materials (FGCM) have improved performance in energy absor...
Lightweight cellular structure generation and topology optimization are common design methodologies ...
The control of structure formation of additive manufacturing simplifies the fabrication of functiona...
Triply Periodic Minimal Surface (TPMS) structures fabricated via Additive Manufacturing (AM) have re...
Typically, cellular materials are designed for structural applications to provide stiffness or absor...
Functionally graded material (FGM) is a new generation of engineered material with changes in the pr...
Cellular lattice structures have important applications in aerospace, automobile and defense industr...
Owning to their lightweight characteristic and high performance, functionally graded lattice structu...
The development of additive manufacturing techniques has made it possible to produce porous structur...
Cellular lattice structures have important applications in aerospace, automobile and defense industr...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...