Publikationsliste für
Eva Binder
E202 - Institut für Mechanik der Werkstoffe und Strukturen
als Autorin / Autor bzw. wesentlich beteiligte Person
31 Datensätze (2017 - 2021)
Zeitschriftenartikel
M. Ausweger, E. Binder, O. Lahayne, R. Reihsner, G. Maier, M. Peyerl, B. Pichler:
"Early-Age Evolution of Strength, Stiffness, and Non-Aging Creep of Concretes: Experimental Characterization and Correlation Analysis";
Materials,
12
(2019),
2;
17 S.
E. Binder, C. Li, H.A. Mang, Y. Yuan, B. Pichler:
"Earthquake Testing of the 1:60 Scaled Immersed Tunnel of the Hong Kong-Zhuhai-Macao Bridge";
Materials Today: Proceedings,
12
(2019),
S. 346
- 351.
E. Binder, R. Reihsner, Y. Yuan, H.A. Mang, B. Pichler:
"High-Dynamic Compressive and Tensile Strength of Specimens Made of Cementitious Materials";
Cement and Concrete Research,
129
(2020),
105890.
E. Binder, H. Wang, J. Zhang, T. Schlappal, Y. Yuan, H.A. Mang, B. Pichler:
"Application-Oriented Fundamental Research on Concrete and Reinforced Concrete Structures: Selected Findings from an Austro-Chinese Research Project";
Acta Mechanica,
231
(2020),
S. 2231
- 2255.
H. Wang, E. Binder, H.A. Mang, Y. Yuan, B. Pichler:
"Multiscale Structural Analysis Inspired by Exceptional Load Cases Concerning the Immersed Tunnel of the Hong Kong - Zhuhai - Macao Bridge";
Underground Space,
3
(2018),
S. 252
- 267.
Buchbeiträge
E. Binder, H. Wang, T. Schlappal, J. Zhang, Y. Yuan, B. Pichler, H.A. Mang:
"Bridging the Gap Between Concrete Microstructures and Tunnel Linings";
in: "Advances in Computational Plasticity, Computational Methods in Applied Science",
E. Onate (Hrg.);
Springer International Publishing,
2018,
S. 23
- 44.
J. Zhang, E. Binder, X. Liu, Y. Yuan, H.A. Mang, B. Pichler:
"Assessment of the Added Value of Multiscale Modeling of Concrete for Structural Analysis of Segmental Tunnel Rings";
in: "Encyclopedia of Materials: Composites",
3;
Elsevier,
2021,
S. 69
- 78.
Beiträge in Tagungsbänden
E. Binder, C. Li, H.A. Mang, Y. Yuan, B. Pichler:
"1:60 Scaled Earthquake Testing of the Immersed Tunnel of the Hong Kong-Zhuhai-Macao-Bridge";
in: "Proceedings of the 35th Danubia-Adria Symposium on Advances in Experimental Mechanics",
Editura Printech,
2018,
S. 153
- 154.
E. Binder, G. Maier, O. Lahayne, R. Reihsner, M. Ausweger, M. Peyerl, B. Pichler:
"Do Modern Concretes Exhibit Similar Early-Age Stiffness and Strength Developments as their Predecessors?";
in: "Proceedings of the 34th Danubia-Adria Symposium on Advances in Experimental Mechanics",
University of Trieste,
2017,
ISBN: 978-88-8303-863-1,
Paper-Nr. 8049,
2 S.
E. Binder, H.A. Mang, Y. Yuan, B. Pichler:
"A Rate-Independent Linear-Elastic Model for High-Dynamic Compressive and Tensile Strength of Specimens Made of Cement Paste, Mortar, and Concrete";
in: "Proceedings of the ECCOMAS MSF 2019 Thematic Conference",
University of Sarajevo,
2019,
ISBN: 978-9958-638-57-2,
S. 136
- 139.
E. Binder, H.A. Mang, Y. Yuan, B. Pichler:
"High-Dynamic Strengthening of Cementitious Materials Subjected to Uniaxial Compression";
in: "Proceedings of the Conference on Computational Modelling of Concrete Structures (EURO-C 2018)",
G. Meschke, B. Pichler, J. Rots (Hrg.);
Taylor and Francis Group, London,
2018,
ISBN: 978-1-138-74117-1,
S. 1017
- 1022.
E. Binder, H.A. Mang, Y. Yuan, B. Pichler:
"Impact and Blast Loads in Tunneling: Does the Strength of Concrete Indeed Increase with the Loading Rate?";
in: "Proceedings of the IV International Conference on Computational Methods in Tunneling and Subsurface Engineering",
Leopold-Franzens-Universität Innsbruck,
2017,
ISBN: 978-3-903030-35-0,
S. 773
- 780.
E. Binder, R. Reihsner, O. Lahayne, J. Eberhardsteiner, B. Pichler:
"Adaptation of a Cruciform Testing Machine Zwick/Roell Z050 for Biaxial Compression Creep Experiments";
in: "Book of Extended Abstracts of the 36th Danubia Adria Symposium on Advances in Experimental Mechanics",
University of West Bohemia,
2019,
ISBN: 978-80-261-0876-4,
S. 109
- 110.
E. Binder, H. Wang, T. Schlappal, J. Zhang, Y. Yuan, B. Pichler, H.A. Mang:
"Bridging the Gap Between Concrete Microstructures and Tunnel Linings by Means of Multiscale Analysis";
in: "Proceedings of the 15th East Asia-Pacific Conference on Structural Engineering and Construction",
Tongji University & Xi'an University of Architecture and Technology,
2017, (eingeladen),
S. 48
- 49.
E. Binder, Y. Yuan, H.A. Mang, B. Pichler:
"High-Dynamic Strength Gain of Cementitious Materials and Implications for Civil Engineering Design";
in: "Programme & Proceedings of the China-Austria Forum for Postgraduates of Civil Engineering",
J. Zhang, B. Pichler (Hrg.);
Vienna University of Technology,
2019,
S. 72
- 75.
E. Binder, Y. Yuan, H.A. Mang, B. Pichler:
"High-Dynamic Strengthening of Cementitious Materials: Structural Effect and Influence of Concrete Hardening";
in: "Book of Abstracts of the 13th World Congress in Computational Mechanics (WCCM 2018)",
International Association for Computational Mechanics (IACM),
2018.
E. Binder, Y. Yuan, H.A. Mang, B. Pichler:
"Strengthening Effect of Cementitious Materials Subjected to High-Dynamic Loading";
in: "Proceedings of the Engineering Mechanics Institute International Conference 2018",
ASCE,
2018,
S. 36.
B. Pichler, E. Binder, T. Schlappal, H. Wang, J. Zhang, Y. Yuan, H.A. Mang:
"Bridging the Gap - Referring to the Submersed Tunnel Interrupting the Hong Kong - Zuhai - Macao -Bridge";
in: "Proceedings of the IV International Conference on Computational Methods in Tunneling and Subsurface Engineering",
Leopold-Franzens-Universität Innsbruck,
2017,
ISBN: 978-3-903030-35-0,
S. 31
- 38.
B. Pichler, M. Königsberger, M. Irfan-Ul-Hassan, E. Binder, M. Ausweger, Ch. Hellmich:
"Innovative Creep Testing of Hydrating Cementitious Materials at Early Ages: Hourly-Repeated 3-Minute Creep Experiments";
in: "Technical Program and Abstracts of EMI 2021 / PMC 2021",
American Society of Civil Engineers (ASCE),
2021.
J. Zhang, T. Schlappal, H. Wang, E. Binder, B. Pichler, Y. Yuan, H.A. Mang:
"Bridging the Gap - An Ambiguous Term Related to the Hongkong-Zhuhai-Macao Bridge";
in: "Proceedings of the 80th Anniversary Celebration of Qian-tang-jiang Bridge and Forum",
Mao Yi-Sheng Science and Technology Education Foundation,
2017,
S. 57
- 62.
Vorträge und Posterpräsentationen (ohne Tagungsband-Eintrag)
E. Binder:
"1:60 Scaled Earthquake Testing of the Immersed Tunnel of the Hong Kong-Zhuhai-Macao-Bridge";
Vortrag: 35th Danubia-Adria Symposium on Advances in Experimental Mechanics,
Sinaia, Romania;
25.09.2018
- 28.09.2018.
E. Binder:
"Bridging the Gap Between Concrete Microstructures and Tunnel Linings";
Vortrag: 3rd Walter Thirring International School,
Kiev, Ukraine;
17.09.2017
- 23.09.2017.
E. Binder:
"High-Dynamic Strength Gain of Cementitious Materials and Implications for Civil Engineering Design";
Vortrag: China-Austria Forum for Postgraduates of Civil Engineering,
Vienna, Austria;
07.10.2019
- 08.10.2019.
E. Binder:
"High-Dynamic Strengthening of Cementitious Materials Subjected to Uniaxial Compression";
Vortrag: Conference on Computational Modelling of Concrete Structures (EURO-C 2018),
Bad Hofgastein, Austria;
26.02.2018
- 01.03.2018.
E. Binder:
"High-Dynamic Strengthening of Cementitious Materials: Structural Effect and Influence of Concrete Hardening";
Vortrag: 13th World Congress in Computational Mechanics (WCCM 2018),
New York, USA;
22.07.2018
- 27.07.2018.
E. Binder:
"Impact and Blast Loads in Tunneling: Does the Strength of Concrete Indeed Increase with the Loading Rate?";
Vortrag: ECCOMAS Thematic Conference on Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2017),
Innsbruck, Austria;
18.04.2017
- 20.04.2017.
E. Binder:
"Microstructural Analysis of High-Dynamic Strength Tests on Cementitious Materials";
Vortrag: 14th International Conference on Computationaly Plasticity. Fundamentals and Applications (COMPLAS 2017),
Barcelona, Spain;
05.09.2017
- 07.09.2017.
E. Binder:
"Multiscale Modeling of High-Dynamic Strength of Cementitous Materials under Impact and Blast Loads";
Vortrag: 14th International Conference on Fracture (ICF 14),
Rhodes Island, Greece;
18.06.2017
- 23.06.2017.
E. Binder:
"Strengthening Effect of Cementitious Materials Subjected to High-Dynamic Loading";
Vortrag: Engineering Mechanics Institute International Conference 2018,
Shanghai, China;
02.11.2018
- 04.11.2018.
Dissertationen (eigene und begutachtete)
E. Binder:
"Multiscale Analysis of Time-Dependent Behavior of Cementitious Materials: High-Dynamic Strength Gain and Temperature-Activated Creep";
Betreuer/in(nen), Begutachter/in(nen): B. Pichler, H.A. Mang, Y. Yuan, A. Robisson, G. Meschke;
Institut für Mechanik der Werkstoffe und Strukturen,
2019;
Rigorosum: 30.10.2019.
Wissenschaftliche Berichte
B. Pichler, E. Binder, R. Wan-Wendner, L. Czernuschka, M. Peyerl, G. Maier, M. Vill:
"Österreichischer Beton Benchmark zur Steigerung der Vorhersagequalität mechanischer Eigenschaften moderner Betone, Final Report for the Traffic-Infrastructure-Research Project "VIF-ÖBB"";
Bericht für funded by the Austrian Research Promotion Agency, the Austrian Ministry for Traffic, Innovation, and Technology, ÖBB-Infrastruktur AG, and Autobahnen und Schnellstraßen Finanzierungs AG (ASFINAG);
2018;
327 S.