GROSSMANN, Alexander, REXER, Manuel, GREINER, Matthias, MEYER, Guillaume, MÖLLENEY, Jan, KOHN, Leonie, ABBATIELLO, Vincenzo, PELZ, Peter und MITTELSTEDT, Christian, 2024. Material and process invariant scaling laws to predict porosity of dense and lattice structures in laser powder bed fusion. Materials and design. 2024. No. Band 238 (2024), Artikel-ID: 112684, p. , Artikel-ID: 112684. DOI 10.1016/j.matdes.2024.112684.

Großmann, A., Rexer, M., Greiner, M., Meyer, G., Mölleney, J., Kohn, L., Abbatiello, V., Pelz, P., Mittelstedt, C., 2024. Material and process invariant scaling laws to predict porosity of dense and lattice structures in laser powder bed fusion. Materials and design , Artikel-ID: 112684. https://doi.org/10.1016/j.matdes.2024.112684

Großmann, A., Rexer, M., Greiner, M., Meyer, G., Mölleney, J., Kohn, L., Abbatiello, V., Pelz, P., & Mittelstedt, C. (ca. 2024). Material and process invariant scaling laws to predict porosity of dense and lattice structures in laser powder bed fusion [Electronic]. Materials and design, Band 238 (2024), Artikel-ID: 112684, , Artikel-ID: 112684. https://doi.org/10.1016/j.matdes.2024.112684

Großmann A, Rexer M, Greiner M, Meyer G, Mölleney J, Kohn L, Abbatiello V, Pelz P, Mittelstedt C (2024) Material and process invariant scaling laws to predict porosity of dense and lattice structures in laser powder bed fusion. Materials and design , Artikel-ID: 112684. https://doi.org/10.1016/j.matdes.2024.112684

Großmann, Alexander/ Rexer, Manuel/ Greiner, Matthias/ Meyer, Guillaume/ Mölleney, Jan/ Kohn, Leonie/ Abbatiello, Vincenzo/ Pelz, Peter/ Mittelstedt, Christian, Material and process invariant scaling laws to predict porosity of dense and lattice structures in laser powder bed fusion, Materials and design 2024, , Artikel-ID: 112684.