Large‐Scale Interlaboratory Study Along the Entire Process Chain of Laser Powder Bed Fusion: Bridging Variability, Standards, and Optimization across Metals and Polymers

I. M. Kuşoğlu

S. Garg

A. Abel

P. V. Balachandran

S. Barcikowski

L. Becker

J.-S. Bernsmann

J. Boseila

C. Broeckmann

M. Coskun

M. Dreyer

M. East

M. Easton

N. Ellendt

S. Gann

B. Gökce

M. Goßling

J. Greiner

P. Gruber

M. Grünewald

K. Gurung

N. Hantke

F. Hengsbach

H. Holländer

B. van Hooreweder

K.-P. Hoyer

Y. Huang

F. Huber

O. Kessler

B. Ö. Kısasöz

S. Kleszczynski

E. Koc

T. Kurzynowski

A. Kwade

S. Leupold

D. Liu

F. Lomo

A. Lüddecke

G. A. Luinstra

D. A. Mauchline

F. Meyer

L. Meyer

P. Middendorf

S. Nolte

M. Olejarczyk

L. Overmeyer

A. Pich

S. Platt

F. Radtke

R. Ramm

S. K. Rittinghaus

R. Rothfelder

J. Rudloff

M. Schaper

M. L. Scheck

J. H. Schleifenbaum

M. Schmidt

J. T. Sehrt

Y. P. Shabanga

A. Sommereyns

R. Steuer

L. S. Tisha

A. Toenjes

C. Tuck

A. Vaghar

B. Vrancken

Z. Wang

S. Weber

J. Wegner

B.-X. Xu

Y. Yang

D. Zhang

E. Zhuravlev

A. R. Ziefuss

Large‐Scale Interlaboratory Study Along the Entire Process Chain of Laser Powder Bed Fusion: Bridging Variability, Standards, and Optimization across Metals and Polymers

Advanced Engineering Materials

2402930

2025

Type: Zeitschriftenaufsatz (reviewed)

DOI: 10.1002/adem.202402930

Abstract

What happens when 32 labs join forces to study nanoparticle-modified powders? A data-driven journey through laser powder bed fusion—now openly accessible for the entire additive manufacturing communi...