2026-06-02
The paper titled “Additive Manufacturing of Hot-Work Tool Steel by In Situ Alloying Using Laser Powder Bed Fusion and Directed Energy Deposition—Strategies to Improve Chemical Homogeneity,” authored by researchers at LWT, was selected as one of the top 20 publications in the journal “Steel Research International” for the year 2025 and included in the special issue “Best of Steel Research International 2026.”
The publication addresses the use of powder mixtures as feedstock for laser-based additive manufacturing. The goal is to achieve chemical homogenization of powder mixtures during the additive manufacturing process. This is intended to make powder mixtures usable for the rapid and cost-effective production of components made from special alloys or for experimental alloy development. The special issue is freely available.
The paper titled “Additive Manufacturing of Hot-Work Tool Steel by In Situ Alloying Using Laser Powder Bed Fusion and Directed Energy Deposition—Strategies to Improve Chemical Homogeneity,” authored by researchers at LWT, was selected as one of the top 20 publications in the journal “Steel Research International” for the year 2025 and included in the special issue “Best of Steel Research International 2026.”
The publication addresses the use of powder mixtures as feedstock for laser-based additive manufacturing. The goal is to achieve chemical homogenization of powder mixtures during the additive manufacturing process. This is intended to make powder mixtures usable for the rapid and cost-effective production of components made from special alloys or for experimental alloy development. The special issue is freely available.
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Last update: Jun 02, 2026
