🥳 We congratulate Marcos Rodríguez Sánchez following his successful #PHD defence at @uc3m.es.

His doctorate was entitled: #LPBF of soft magnetic metallic glasses. A fundamental study on the interplay between processing conditions, defects, microstructure and properties.

@divulgauc3m.bsky.social

Multiscale evolution of TiC particles in GH3536-based composites fabricated via laser powder bed fusion: coarsening mechanisms and hierarchical distribution

#LPBF of GH3536-5TiC composites shows energy density controls TiC particle evolution, enabling superior strength–ductility synergy (UTS 304 MPa, elongation 42%), offering a guideline for optimizing advanced AM composites.
#AdditiveManufacturing

#IJEM: doi.org/10.1088/2631...

Characterization, preparation, and reuse of metallic powders for laser powder bed fusion: a review

This review explores advances in #MetallicPowders for #LPBF, focusing on characterization, preparation, and reuse, and how powder evolution impacts printing consistency, performance, cost reduction, and industrial adoption across alloy systems.

#IJEM: doi.org/10.1088/2631...

🧑‍🔬 We have welcomed MSCA PF, Dr. Dmytro Lesyk from CFAA - Advanced Manufacturing Centre for Aeronautics, for a seminar.

Dr. Lesyk's research interest is focused on #LPBF additive manufacturing and post-processing of #superalloys, also a key research focus at IMDEA Materials.

@pie-upvehu.bsky.social

Precision Additive Launches Revolutionary AI-Driven 3D Metal Printer for Enhanced Manufacturing Precision Additive has unveiled the world's fastest AI-powered LPBF printer, the PA-300, set to revolutionize metal manufacturing for defense and aerospace.

Precision Additive Launches Revolutionary AI-Driven 3D Metal Printer for Enhanced Manufacturing #United_States #Noblesville #Precision_Additive #PA-300 #LPBF

Alloy design for laser powder bed fusion additive manufacturing: a critical review

This #IJEM review assesses #LPBF alloy design strategies, categorizing crack mitigation and microstructure manipulation approaches to guide the development of novel materials tailored for rapid solidification environments.

#OpenAccess: doi.org/10.1088/2631...

Endowing low fatigue for elastocaloric effect by refined hierarchical microcomposite in additive manufactured NiTiCuCo alloy

NiTiCuCo #alloys fabricated via #LPBF form refined Ti2Ni–NiTi and nano‑Ti2Cu #microcomposites, achieving superior elastocaloric cyclic stability through strong interphase coupling and reversible transformations. #SolidStateRefrigeration

#OpenAccess in #IJEM: doi.org/10.1088/2631...

Scientists reveal how vapour depression/keyhole morphology governs spatter dynamics in #LPBF of Al-Fe-Zr #alloys, using #SynchrotronXrayimaging to quantify spatter trajectories and energies and uncover a spatter-induced cavity mechanism.
#OpenAccess in #IJEM: doi.org/10.1088/2631...

Determination of Optimal Process Parameters for L-PBF Produced 1.2709 Alloy
www.mdpi.com/2673-4591/11...

By Balázs Lőrincz et al.
From the Sustainable Mobility and Transportation Symposium 2025

#Metal3DPrinting #LPBF #MaragingSteel

A hybrid #AdditiveManufacturing approach combining #LPBF and #UltrasonicShotPeening was developed to produce hierarchical gradient AlMgSc #alloys with multi-nanoprecipitates, achieving refined grains, 609 MPa yield strength, and enhanced #ductility.

#OpenAccess #IJEM: doi.org/10.1088/2631...

A high-throughput and #GaussianProcess-based optimization strategy for #LPBF of #NickelAlloy #microchannels enables rapid correlation discovery among parameters & quality metrics, achieving precise data-driven control for #AerospaceCooling applications.

#IJEM: doi.org/10.1088/2631...

Beyond its capability to create intricate geometries, #LPBF additive manufacturing is a powerful tool to tailor the microstructure of metallic materials.

Last Friday, we were pleased to welcome a guest seminar from Dr. Christos Sofras from @empa-materials.bsky.social on this fascinating topic.

A comprehensive overview of recent advances in multi-material #LPBF, highlighting compositionally heterogeneous & gradient structures, fabrication methods, and emerging applications in #AdditiveManufacturing. #Fabrication #MaterialsScience

#OpenAccess #IJEM: doi.org/10.1088/2631...

One of my favourite moments each semester - final thesis presentations for 2025 Master Projects in Civil Engineering at @sydney.edu.au !
🎓 Congrats to Josh Chen & Junqi Wang on completing your engineering theses focusing on Laser Powder Bed Fusion #LPBF) & Additive Friction Stir Deposition #AFSD

Biodegradable #Mg alloys and laser powder bed fusion ( #LPBF): a recent #IJEM review explores their use in medical #implants and key research challenges ahead.

🔗 doi.org/10.1088/2631-7990/ad967e

#3DPrinting #AdditiveManufacturing #OpenAccess #TissueEngineering #Biofabrication #Biomaterials

🎯TOPICAL REVIEW in #IJEM

"Laser powder bed fusion #AdditiveManufacturing of #NiTi shape memory alloys: a review"

#LPBF enables complex, high-performance NiTi components with SME, SE, and biocompatibility—ideal for #biomedical and #aerospace uses.
🔗 doi.org/10.1088/2631-7990/acc7d9

🚨 We are #hiring! Our #Biometals, #Coatings & #Devices research group is looking for a PhD candidate focused on the design, manufacture, and characterisation of biodegradable #scaffolds based on Zn alloys via #LPBF.

+info: jobs.materials.imdea.org/offer/view?i...