Full name Familienname, Vorname
Schmid, Barbara
 
 

Results 1-8 of 8 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Schmid, Barbara ; Koutna, Nikola ; Thomas Schöngruber ; Wojcik, Tomasz ; Bühler-Paschen, Silke ; Kolozsvári, Szilárd ; Mayrhofer, Paul Heinz Design of transition metal carbonitride superlattice thin film systems and its influence on material propertiesPresentation Vortrag6-Sep-2023
2Schmid, Barbara ; Koutna, Nikola ; Thomas Schöngruber ; Kolozsvári, Szilárd ; Mayrhofer, Paul Heinz A study on Ti- and Ta-based Transition Metal Carbide, Carbonitride and Nitride superlatticesPresentation Vortrag13-Jun-2023
3Schmid-2023-INTERNATIONAL JOURNAL OF REFRACTORY METALS  HARD MATERIALS-vor.pdf.jpgSchmid, Barbara ; Koutná, Nikola ; Hahn, Rainer ; Wojcik, Tomasz ; Polcik, Peter ; Mayrhofer, Paul Heinz Development of TaC-based transition metal carbide superlattices via compound target magnetron sputteringArticle Artikel Jun-2023
4Schmid, Barbara ; Kolozsvári, S. ; Mayrhofer, Paul Heinz Super Hard High Temperature TaC-Based Superlattice Protective Coatings Prepared by Magnetron SputteringPresentation Vortrag9-Nov-2022
5Schmid, Barbara ; Koutna, Nikola ; Hahn, Rainer ; Wojcik, Tomasz ; Polcik, Peter ; Mayrhofer, Paul Heinz Development of Transition Metal Carbide Superlattices via Compound Target Magnetron SputteringPresentation Vortrag31-May-2022
6Schmid, Barbara ; Koutna, Nikola ; Halwax, Erich ; Hahn, Rainer ; Mayrhofer, Paul Heinz Influence of deposition parameters on chemistry, structure and mechanical properties of Vanadium carbide thin filmsPresentation Vortrag26-May-2022
7Schmid, Barbara ; Koutna, Nikola ; Buchinger, Julian ; Hahn, Rainer ; Kolozsvári, Szilárd ; Mayrhofer, Paul Heinz Development of VC-based Early Transition Metal Carbide Superlattices via Compound Target Magnetron SputteringPresentation Vortrag26-May-2022
8Schmid Barbara - 2020 - Synthesis surface chemistry modifications and...pdf.jpgSchmid, Barbara Synthesis, surface chemistry modifications and characterisation of hybrid nanostructuresThesis Hochschulschrift 2020