Doris Ostner-Kaineder

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Ergründen Sie die Forschungsthemen, in denen Doris Ostner-Kaineder aktiv ist. Diese Themenbezeichnungen stammen aus den Werken dieser Person. Zusammen bilden sie einen einzigartigen Fingerprint.

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2 Artikel
1 Konferenzbeitrag
1 Poster

Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media
Ostner-Kaineder, D., Burgstaller, C. & Hlawitschka, M. W., 2025, 19. Mini Symposium Verfahrenstechnik & 10. Partikelforum - Book of Abstracts. S. 27-31
Publikation: Beitrag in Buch/Bericht/Tagungsband › Konferenzbeitrag
Process Characterization of Additively Manufactured Stirrer Geometries for bioprocessing of non-Newtonian media
Ostner-Kaineder, D., Strasser, C. & Burgstaller, C., Sep. 2025.
Publikation: Konferenzbeitrag › Poster
The influence of particle size and polyester content on rheological properties and enzymatic hydrolysis of knife-milled polycotton textile waste
Ostner-Kaineder, D., Liedl, B., Hlawitschka, M. W. & Burgstaller, C., Dez. 2025, in: Results in Engineering. 28, 108209.
Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

Open Access
Optimising chemo-enzymatic separation of polyester cellulose blends
Ostner, D. & Burgstaller, C., 1 Jän. 2024, in: Resources, Conservation and Recycling. 202, S. 107369 107369.
Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

Open Access
13 Zitate (Scopus)

Shredding, Condensation and Compacting: Thermomechanical processing of post-consumer textile polyester
Ostner-Kaineder, D. (Redner*in)
1 Okt. 2025
Aktivität: Gespräch oder Vortrag › Vortrag
Online rheometry for monitoring polyester-cotton waste hydrolysis
Ostner-Kaineder, D. (Redner*in) & Burgstaller, C. (Redner*in)
1 Sep. 2025
Aktivität: Gespräch oder Vortrag › Vortrag
Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media
Ostner-Kaineder, D. (Redner*in)
1 Juli 2025
Aktivität: Gespräch oder Vortrag › Vortrag

Doris Ostner-Kaineder

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Kooperationen und Spitzenforschungsbereiche der letzten fünf Jahre

Details ergründen

Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media

Process Characterization of Additively Manufactured Stirrer Geometries for bioprocessing of non-Newtonian media

The influence of particle size and polyester content on rheological properties and enzymatic hydrolysis of knife-milled polycotton textile waste

Optimising chemo-enzymatic separation of polyester cellulose blends

Shredding, Condensation and Compacting: Thermomechanical processing of post-consumer textile polyester

Online rheometry for monitoring polyester-cotton waste hydrolysis

Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media

Doris Ostner-Kaineder

Fingerprint

Kooperationen und Spitzenforschungsbereiche der letzten fünf Jahre

Publikationen

Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media

Process Characterization of Additively Manufactured Stirrer Geometries for bioprocessing of non-Newtonian media

The influence of particle size and polyester content on rheological properties and enzymatic hydrolysis of knife-milled polycotton textile waste

Optimising chemo-enzymatic separation of polyester cellulose blends

Wissenschaftliche Tätigkeiten

Shredding, Condensation and Compacting: Thermomechanical processing of post-consumer textile polyester

Online rheometry for monitoring polyester-cotton waste hydrolysis

Multi-material textile waste as biomass feedstock: using fused filament fabrication to investigate optimal stirrer geometries in non-Newtonian media