[1]    Kirschner, Markus; S. Guk, R. Kawalla, U. Prahl: Powder forging of in axial and radial direction graded components from TRIP-matrix-composite. Advances in Physical Metallurgy (Metals) (2021) Vol.11, 378, p. 1-17, doi: https://doi.org/10.3390/met11030378

1.   [2]    Kirschner, Markus; S. Guk, R. Kawalla, U. Prahl: Compaction of powder composites for constructions with high wear resistance requirements. The XVI International Forum-Contest of Students and Young Researchers, St. Petersburg, den 19.06.2020, (2020), Vol. 1, ISBN: 978-5-94211-915-7

[3]    Kirschner, Markus; S. Guk, R. Kawalla, U. Prahl: Powder forging of presintered TRIP matrix composites. SFB799-Buch "Austenitic TRIP/TWIP Steels and Steel-Zirconia Composites", Kapitel 8. H. Biermann und Ch. Aneziris (Hrsg.) Springer Nature Switzerland AG, (2020), ISBN: 978-3-030-42602-6

[4]    Kirschner, Markus; S. Martin, S. Guk, R. Kawalla, U. Prahl: Forming Complex Graded and Homogeneous Components by Joining Simple Presintered Parts of TRIP-Matrix Composite through Powder Forging. Metals (2020) Vol.543, p. 1-14, doi:10.3390/met10040543

3.   [5]    Kirschner, Markus; S. Guk, R. Kawalla, U. Prahl: Compaction of powder composites for constructions with high wear resistance requirements. The XVI International Forum-Contest of Students and Young Researchers, St. Petersburg, den 19.06.2020, (2020), Vol. 1, ISBN: 978-5-94211-915-7