Jordan Noronha
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View article: Engineering hollow-strut lattice nodes for enhanced load-bearing with cubic symmetry
Engineering hollow-strut lattice nodes for enhanced load-bearing with cubic symmetry Open
View article: A conclusive model to predict PBF-LB of AlSi10Mg thin-walled structures: digitally reconstructed models guided by both artificial neural networks and computational fluid dynamics
A conclusive model to predict PBF-LB of AlSi10Mg thin-walled structures: digitally reconstructed models guided by both artificial neural networks and computational fluid dynamics Open
Metal thin-walled structures (TWS) are critical to all engineering industries, however, their complex manufacture has prevented large-scale adoption. The additive manufacturing process of laser-based powder bed fusion (PBF-LB) can produce …
View article: A novel metric for design of microstructure and mechanical properties in PBF-LB/M Ti6Al4V alloy
A novel metric for design of microstructure and mechanical properties in PBF-LB/M Ti6Al4V alloy Open
View article: Enhancing the energy absorption of AlSi10Mg thin-walled tubes with internal lattice structure through laser powder bed fusion
Enhancing the energy absorption of AlSi10Mg thin-walled tubes with internal lattice structure through laser powder bed fusion Open
Heat-treated aluminium thin-walled tubes combine efficient energy absorptive properties with low weight, making them common engineering structures for impact mitigation. Recently, the integration of foam cores within these structures furth…
View article: Thin-plate lattices in AlSi10Mg alloy via laser additive manufacturing: Highly enhanced specific strength and recovery
Thin-plate lattices in AlSi10Mg alloy via laser additive manufacturing: Highly enhanced specific strength and recovery Open
View article: Tailoring Nodal Designs in Hollow-Strut Lattice Metamaterials for Enhanced Load-Bearing Capacity with Cubic Symmetry
Tailoring Nodal Designs in Hollow-Strut Lattice Metamaterials for Enhanced Load-Bearing Capacity with Cubic Symmetry Open
View article: A hybrid continuum-beam optimisation model: the virtual extensometer method for efficient optimisation of lattice materials
A hybrid continuum-beam optimisation model: the virtual extensometer method for efficient optimisation of lattice materials Open
Additive manufacturing (AM) enables the fabrication of complex lattice structures that are infeasible with traditional manufacturing processes. These structures are typically implemented with constant cross-sectional strut elements; this s…
View article: Ti–6Al–4V hybrid-strut lattice metamaterials: A design strategy for improved performance
Ti–6Al–4V hybrid-strut lattice metamaterials: A design strategy for improved performance Open
Metal hollow-strut lattices manipulate the strut and node sections to achieve higher strength. Although these metamaterials have recently surpassed the structural efficiency of conventional solid-strut lattices of comparable density and to…
View article: AlSi10Mg hollow-strut lattice metamaterials by laser powder bed fusion
AlSi10Mg hollow-strut lattice metamaterials by laser powder bed fusion Open
Intricate submillimetre scale AlSi10Mg hollow-strut lattices can be fabricated by LPBF, and observe yield strength superior to metal solid-strut lattices.
View article: Titanium Multi‐Topology Metamaterials with Exceptional Strength
Titanium Multi‐Topology Metamaterials with Exceptional Strength Open
Additively manufactured metamaterials are architectured cellular materials that can be engineered through structural innovations to achieve unusual mechanical and multifunctional properties. Among these, hollow‐strut lattice (HSL) metamate…
View article: Additively Manufactured Functionally Graded Lattices: Design, Mechanical Response, Deformation Behavior, Applications, and Insights
Additively Manufactured Functionally Graded Lattices: Design, Mechanical Response, Deformation Behavior, Applications, and Insights Open
Flora and fauna have evolved to distribute their structural mass efficiently in response to their environment. Inspired by this structural efficiency, functionally graded lattices (FGL) are an emerging subset of non-uniform lattices that e…
View article: Ti-6Al-4V hollow-strut lattice materials by laser powder bed fusion
Ti-6Al-4V hollow-strut lattice materials by laser powder bed fusion Open
Hollow-strut metal lattices are an emerging class of cellular metallic materials. However, their mechanical properties at relative densities (ρRD) higher than 10% are largely unknown because conventional manufacturing methods are ill-equip…
View article: The effect of geometric design and materials on section properties of additively manufactured lattice elements
The effect of geometric design and materials on section properties of additively manufactured lattice elements Open
Additive manufacturing (AM) technologies such as laser-based powder bed fusion (LB-PBF) facilitate the fabrication of complex lattice structures. However, these structures consistently display dimensional variation between the idealised an…
View article: The effect of geometric design and materials on section properties of additively manufactured lattice elements
The effect of geometric design and materials on section properties of additively manufactured lattice elements Open
Additive manufacturing (AM) technologies such as laser-based powder bed fusion (LB-PBF) facilitate the fabrication of complex lattice structures. However, these structures consistently display dimensional variation between the idealised an…
View article: Manufacturability of Ti-6Al-4V Hollow-Walled Lattice Struts by Laser Powder Bed Fusion
Manufacturability of Ti-6Al-4V Hollow-Walled Lattice Struts by Laser Powder Bed Fusion Open