Topology optimization for metal additive manufacturing: current trends, challenges, and future outlook
Metal additive manufacturing is gaining immense research attention. Some of these
research efforts are associated with physics, statistical, or artificial intelligence-driven …
research efforts are associated with physics, statistical, or artificial intelligence-driven …
State-of-the-art review of machine learning applications in additive manufacturing; from design to manufacturing and property control
In this review, some of the latest applicable methods of machine learning (ML) in additive
manufacturing (AM) have been presented and the classification of the most common ML …
manufacturing (AM) have been presented and the classification of the most common ML …
Design, mechanical properties and energy absorption capability of graded-thickness triply periodic minimal surface structures fabricated by selective laser melting
Graded triple periodic minimal surface (TPMS) structures fabricated by selective laser
melting (SLM) are superior candidates for lightweight and energy-absorbing applications …
melting (SLM) are superior candidates for lightweight and energy-absorbing applications …
Compression–compression fatigue behaviour of gyroid-type triply periodic minimal surface porous structures fabricated by selective laser melting
Abstract Triply Periodic Minimal Surface (TPMS) porous structures are recognized as the
most promising bionic artificial structures for tissue engineering. The fatigue properties of …
most promising bionic artificial structures for tissue engineering. The fatigue properties of …
Additive manufacturing of high-strength crack-free Ni-based Hastelloy X superalloy
Laser powder bed fusion (LPBF) is a proven additive manufacturing (AM) technology for
producing metallic components with complex shapes using layer-by-layer manufacture …
producing metallic components with complex shapes using layer-by-layer manufacture …
3D printing of a titanium-tantalum Gyroid scaffold with superb elastic admissible strain, bioactivity and in-situ bone regeneration capability
The simultaneous achievement of admirable mechanical compatibility and osteoinduction in
metallic implants can avoid stress shielding and facilitate osseointegration and …
metallic implants can avoid stress shielding and facilitate osseointegration and …
Multi-physics modelling of molten pool development and track formation in multi-track, multi-layer and multi-material selective laser melting
Selective laser melting (SLM) is a promising powder-based additive manufacturing
technology due to its capability to fabricate metallic components with complex geometries …
technology due to its capability to fabricate metallic components with complex geometries …
The influence of selective laser melting defects on the fatigue properties of Ti6Al4V porosity graded gyroids for bone implants
Porosity grading of metallic lattice structures is becoming a favorable design for bone
implant applications since these structures mimic the bone mechanical and biological …
implant applications since these structures mimic the bone mechanical and biological …
[HTML][HTML] Selective laser melting of Hastelloy X nanocomposite: effects of TiC reinforcement on crack elimination and strength improvement
Abstract The Hastelloy X (HX) nickel-based superalloy is increasingly applied in the
aerospace industry because of its exceptional combination of oxidation resistance and high …
aerospace industry because of its exceptional combination of oxidation resistance and high …
An investigation into the effect of gradients on the manufacturing fidelity of triply periodic minimal surface structures with graded density fabricated by selective laser …
Triply periodic minimal surfaces (TPMSs) have attracted increasing attention for their high
manufacturability, biocompatibility, and mechanical properties. In this work, graded Gyroid …
manufacturability, biocompatibility, and mechanical properties. In this work, graded Gyroid …