Publikationen

Journals
  • Hosseini, E., E. Ghafoori, C. Leinenbach, M. Motavalli, S.R. Holdsworth, Stress recovery and cyclic behaviour of an Fe-Mn-Si shape memory alloy after multiple thermal activations. Smart Materials and Structures, 2018. 27(2)
  • Ghafoori E., E. Hosseini, C. Leinenbach, J. Michels, M. Motavalli, Fatigue Behavior of a Fe-Mn-Si Shape Memory Alloy used for Prestressed Strengthening. Materials and Design, 2017. 133: p. 349-362
  • Michels, J., M. Shahverdi, C. Czaderski, Flexural strengthening of structural concrete with iron-based shape memory alloy strips. Structural Concrete, 2017: p. 1-16.
  • Shahverdi, M., C. Czaderski, P. Annen and M. Motavalli, Strengthening of RC beams by iron-based shape memory alloy bars embedded in a shotcrete layer. Engineering Structures, 2016. 117: p. 263-273.
  • Shahverdi, M., C. Czaderski, and M. Motavalli, Iron-based shape memory alloys for prestressed near-surface mounted strengthening of reinforced concrete beams. Construction and Building Materials, 2016. 112: p. 28-38.
  • Leinenbach, C., C. Czaderski, J. Michels, M. Graf, and R. Kawalla, Development of rolling technology for an iron-based shape-memory-alloy, in Materials Science Forum. 2016. p. 79-86.
  • Koster, M., W.J. Lee, M. Schwarzenberger, and C. Leinenbach, Cyclic deformation and structural fatigue behavior of an FE-Mn-Si shape memory alloy. Materials Science and Engineering A, 2015. 637: p. 29-39.
  •  Lee, W.J., B. Weber, and C. Leinenbach, Recovery stress formation in a restrained Fe-Mn-Si-based shape memory alloy used for prestressing or mechanical joining. Construction and Building Materials, 2015. 95: p. 600-610.
  • Cladera, A., B. Weber, C. Leinenbach, C. Czaderski, M. Shahverdi, and M. Motavalli, Iron-based shape memory alloys for civil engineering structures: An overview. Construction and Building Materials, 2014. 63: p. 281-293.
  • Czaderski, C., M. Shahverdi, R. Brönnimann, C. Leinenbach, and M. Motavalli, Feasibility of iron-based shape memory alloy strips for prestressed strengthening of concrete structures. Construction and Building Materials, 2014. 56(0): p. 94-105.
  • Czaderski, C. and C. Leinenbach, Neue Vorspannmaterialien fürs Bauwesen: Eisenlegierungen mit Gedächtnis, in Empa Jahresbericht. 2013. p. 47-49.
  • Lee, W.J., B. Weber, G. Feltrin, C. Czaderski, M. Motavalli, and C. Leinenbach, Stress recovery behaviour of an Fe–Mn–Si–Cr–Ni–VC shape memory alloy used for prestressing. Smart Materials and Structures, 2013. 22(12): p. 9.
  • Lee, W.J., B. Weber, G. Feltrin, M. Motavalli, and C. Leinenbach, Thermomechanical characterization of an Fe-Mn-Si-Cr-Ni-VC shape memory alloy for application in prestressed concrete structures, in Advances in Structural Engineering and Mechanics (ASEM13). 2013: Jeju, Korea, September 8-12, 2013. p. 544-552.
  • Lee, W.J., B. Weber, G. Feltrin, C. Czaderski, M. Motavalli, and C. Leinenbach, Phase transformation behavior under uniaxial deformation of an Fe–Mn–Si–Cr–Ni–VC shape memory alloy. Materials Science and Engineering: A, 2013. 581(0): p. 1-7.
  • Leinenbach, C., H. Kramer, C. Bernhard, and D. Eifler, Thermo-mechanical properties of an Fe-Mn-Si-Cr-Ni-VC shape memory alloy with low transformation temperature. Advanced Engineering Materials, 2012. 14(1-2): p. 62-67.
  • Dong, Z., U.E. Klotz, C. Leinenbach, A. Bergamini, C. Czaderski, and M. Motavalli, A Novel Fe-Mn-Si Shape Memory Alloy With Improved Shape Recovery Properties by VC Precipitation. Advanced Engineering Materials, 2009. 11(1-2): p. 40-44.
  • Motavalli, M., C. Czaderski, A. Bergamini, and L. Janke., Shape memory alloys for civil engineering structures – on the way from vision to reality, ACEE Journal, Architecture Civil Engineering Environment, The Silesian University of Technology, Poland, 2009. 2(4): p. 81-94.
  •  Czaderski, C., B. Hahnebach, and M. Motavalli, RC beam with variable stiffness and strength. Construction and Building Materials, 2006. 20(9): p. 824-833.
  • Moser, K., A. Bergamini, R. Christen, and C. Czaderski, Feasibility of concrete prestressed by shape memory alloy short fibers. Materials and Structures, 2005. 38(279): p. 593-600.
  • Janke, L., C. Czaderski, M. Motavalli, and J. Ruth, Applications of shape memory alloys in civil engineering structures – Overview, limits and new ideas. Materials and Structures, 2005. 38(279): p. 578-592.
Konferenzen und Anderes
Patente
  • re-fer, Internationale Patentanmeldung PCT/CH2014/000030 „re-bar: Verfahren zum Vorspannen von Bauwerken mittels SMA-Profilen, sowie dadurch erstelltes Bauwerk“ (International patent application PCT/CH2014/000030). 2013.
  • re-fer, Internationale Patentanmeldung PCT/EP2015/079607 „re-plate: Verfahren zum Vorspannen von Bauwerken mittels SMA-Profilen, sowie dadurch erstelltes Bauwerk“ (International patent application PCT/EP2015/079607). 2013.
  • Empa, Europäische Patentanmeldung EP 2 141 251 B1, “Auf Eisen, Mangan und Silizium basierende Formgedächtnislegierungen” (European patent application EP 2 141 251 B1). 2009.

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