Publications
Journal Publications
2025
[13] Derveni F., Patil V.P., Dunkel J., Reis P.M. (2025). "Intrinsic curvature controls the self-knotting probability of tumbled soft fibers." Proceedings of the National Academy of Sciences (PNAS). (In Preparation)
Curated Datasets
[1] Singh A., Hutchinson T., Wang X., Zhang Z., Schafer B., Derveni F., Castaneda H., Peterman K. (2021), Wall Line Tests: Phase 1 – Shake Table Tests, in CFS-NHERI: Seismic Resiliency of Repetitively Framed Mid-Rise Cold-Formed Steel Buildings. DesignSafe-CI. (DOI)
Theses and Dissertations
[3] Derveni F. (2021), Harnessing the mechanics of thin-walled metallic structures: from plate-lattice materials to cold-formed steel shear walls, University of Massachusetts Amherst, Amherst, MA, USA. (html)
2025
[13] Derveni F., Patil V.P., Dunkel J., Reis P.M. (2025). "Intrinsic curvature controls the self-knotting probability of tumbled soft fibers." Proceedings of the National Academy of Sciences (PNAS). (In Preparation)
[12] Bourgeat S.S., Derveni F., Gamblin V., Bilgi E.N., Aztekin C., Zenk F., Reis P.M., Jakšić A.M. (2025). "TopoTome: Global brain microstructure reveals multiscale architecture of complex behaviour." Nature. (In Preparation)
2024
Conference Publications
[7] Derveni F., Gross A., Peterman K.D., Gerasimidis S. (2021). "Imperfection sensitivity of metallic plate-lattice materials." Annual Stability Conference, Structural Stability Research Council (SSRC), Virtual Conference.
[11] Derveni F., Choquart F., Abbasi A., Yan D., Reis P.M. (2024). "The most severe imperfection governs buckling in multi-defect hemispherical shells." Mechanics of Materials, Elsevier. (DOI)
2023
[10] Derveni F., Abbasi A., Reis P.M. (2023). "Defect-defect interactions in the buckling of imperfect spherical shells." Journal of Applied Mechanics, ASME, 1-10, 92(4): 041003. (DOI)
[9] Abbasi A., Derveni F., Reis P.M. (2023). "Comparing the buckling strength of spherical shells with dimpled versus bumpy defects." Journal of Applied Mechanics, ASME, 1-9. (DOI)
2022
[8] Derveni F., Gueissaz W., Yang D., Reis P.M. (2022). "Probabilistic buckling of imperfect hemispherical shells containing a distribution of defects." Philosophical Transactions of the Royal Society A, 381, 20220298. (DOI)
[7] Singh A., Wang X., Zhang Z., Derveni F., Castaneda H., Peterman K.D., Schafer B.W. (2022). "Steel sheet sheathed cold-formed steel framed in-line wall systems. II: Impact of nonstructural detailing." Journal of Structural Engineering, ASCE, 148(12), 04022194. (DOI)
[6] Singh A., Wang X., Zhang Z., Derveni F., Castaneda H., Peterman K.D., Schafer B.W. (2022). "Steel sheet sheathed cold-formed steel framed in-line wall systems. I: Impact of structural detailing." Journal of Structural Engineering, ASCE, 148(12), 04022193. (DOI)
2021
[5] Derveni F., Gross A., Peterman K.D., Gerasimidis S. (2021). "Postbuckling behavior and imperfection sensitivity of elastic-plastic periodic plate-lattice materials." Extreme Mechanics Letters, Elsevier, 50, 101510. (DOI)
[4] Zhang Z., Singh A., Derveni F., Torabian S., Peterman K.D., Hutchinson T.C., Schafer B.W. (2021). "Cyclic experiments on steel sheet connections for CFS framed steel sheet sheathed shear walls with new configurations." Engineering Structures, Elsevier, 148(2), 04021261. (DOI)
[3] Zhang Z., Singh A., Derveni F., Torabian S., Peterman K.D., Hutchinson T.C., Schafer B.W. (2021). "Cyclic experiments on steel sheet connections for standard CFS framed steel sheet sheathed shear walls." Journal of Structural Engineering, ASCE, 148(2), 04021261. (DOI)
2020
[2] Derveni F., Gerasimidis S., Peterman K.D. (2020). "Behavior of cold-formed steel shear walls sheathed with high-capacity sheathing." Engineering Structures, 225, 111280. (DOI)
[1] Derveni F., Gerasimidis S., Schafer B.W., Peterman K.D. (2019). "High-fidelity finite element modeling of wood-sheathed cold-formed steel shear walls." Journal of Structural Engineering, 147(2), 04020316. (DOI)
Conference Publications
[7] Derveni F., Gross A., Peterman K.D., Gerasimidis S. (2021). "Imperfection sensitivity of metallic plate-lattice materials." Annual Stability Conference, Structural Stability Research Council (SSRC), Virtual Conference.
[6] Derveni F., Gerasimidis S., Peterman K.D. (2020). "Impact of fastener spacing on the behavior of cold-formed steel shear walls sheathed with fiber cement board." Cold-Formed Steel Research Consortium Colloquium (CFSRC), Virtual Conference.
[5] Zhang Z., Singh A., Derveni F., Torabian S., Peterman K.D., Hutchinson T.C., Schafer B.W. (2020). "Cyclic performance of steel sheet connections for CFS steel sheet shear walls." Cold-Formed Steel Research Consortium Colloquium (CFSRC), Virtual Conference.
[4] Singh A., Wang X., Zhang Z., Derveni F., Castaneda H., Peterman K.D., Schafer B.W., Hutchinson T.C. (2020). "Lateral response of cold-formed steel framed steel sheathed in-line wall systems detailed for mid-rise buildings." Cold-Formed Steel Research Consortium Colloquium (CFSRC), Virtual Conference.
[3] Derveni F., Gerasimidis S., Peterman K.D. (2020). "Nonlinear fastener-based modeling of cold-formed steel shear walls." Structures Congress Conference, St. Louis, Missouri, USA.
[2] Derveni F., Gerasimidis S., Peterman K.D. (2019). "Capturing cold-formed steel shear wall behavior through nonlinear fastener-based modeling." Annual Stability Conference, Structural Stability Research Council (SSRC), St. Louis, Missouri, USA.
[1] Derveni F., Pantidis P., Gerasimidis S., Peterman K.D. (2018). "A partial-distributed damage method for progressive collapse of 3D steel composite buildings." Annual Stability Conference, Structural Stability Research Council (SSRC), Baltimore, MD, USA.
Curated Datasets
[1] Singh A., Hutchinson T., Wang X., Zhang Z., Schafer B., Derveni F., Castaneda H., Peterman K. (2021), Wall Line Tests: Phase 1 – Shake Table Tests, in CFS-NHERI: Seismic Resiliency of Repetitively Framed Mid-Rise Cold-Formed Steel Buildings. DesignSafe-CI. (DOI)
Theses and Dissertations
[3] Derveni F. (2021), Harnessing the mechanics of thin-walled metallic structures: from plate-lattice materials to cold-formed steel shear walls, University of Massachusetts Amherst, Amherst, MA, USA. (html)
[2] Derveni F. (2019), Nonlinear fastener-based modeling of cold-formed steel shear walls under lateral loads, MS Project, University of Massachusetts Amherst, Amherst, MA, USA. (html)
[1] Derveni F. (2017), Verification Report of the full pre/post processing graphical interface GiD of the finite element software OpenSees, Diploma Thesis, Aristotle University of Thessaloniki, Thessaloniki, Greece. (html)