80 • A delamination model, which is usually represented by cohesive elements between the plies, was intentionally excluded in order to minimize computational time. • Future work includes detailed modeling of the hybrid bolted joint including a delamination model within the interface, tailored inserts that contain particulates and fibers, and multi-material joints. References 1. Dhôte, J.X., Comer, A.J., Stanley, W.F., Young, T.M.: Investigation into compressive properties of liquid shim for aerospace bolted joints. Compos. Struct. 109, 224–230 (2014) 2. Walker, T.H., Minguet, P.J., Flynn, W.F., Cargery, D.J., Swanson, G.D., Ilcewicz, L.B.: Advanced technology composite fuselage-structural performance. NASA Con-tractor report 4732 (1997) 3. Lu, X., Kim, K.Y., Sachse, W.: In situ determination of elastic stiffness constants of thick composites. Compos. Sci. Technol. 57, 753–762 (1997) 4. Goering, J., Bohlmann, R.E., Wanthal, S., Kautz, E., Neri, L.: Assembly induced de-laminations in composite structures. In: Proceedings of Ninth DoD/NASA/FAA Conference on Fibrous Composites in Structural Design, Lake Tahoe (1991) 5. Hühne, C., Zerbst, A.K., Kuhlmann, G.: Progressive damage analysis of composite bolted joints with liquid shim layers using constant and continuous degradation models. Compos. Struct. 92, 189–200 (2010) 6. Military Handbook - MIL-HDBK-17-1F: Composite Materials Handbook, Volume 1 - Polymer Matrix Composites Guidelines for Characterization of Structural Materials. U.S. Department of Defense, ELECTRONIC ISBN 978-1-59124-509-4, (2002) 7. Liu, L., Zhang, J., Chena, K., Wanga, H., Liub, M.: Experimental and numerical analysis of the mechanical behavior of composite-to-titanium bolted joints with liquid shim. Aerosp. Sci. Technol. 49, 167–172 (2016) 8. Haq, M., Khomenko, A., Cloud, G.: Novel hybrid fastening system with nano-additive reinforced adhesive inserts. In: SEM 2014 Annual Conference & Exposition on Experimental and Applied Mechanics, Greenville, 2–5 June 2014 9. Haq, M., Cloud, G.: Flexible hybrid fastening system. In: SEM 2013 Annual Conference & Exposition on Experimental and Applied Mechanics, Chicago, 3–5 June 2013 10. Cloud, G.: 2012 William M. Murray Lecture: some curious unresolved problems, speculations and advances in mechanical fastening. Exp. Mech. 53(7), 1073–1104 (2013). doi:10.1007/s11340-013-9736-3 11. Cloud, G.L.: Hybrid fastener. Provisional Patent 6550-000226-US-PS1-1 (2012). General patent application filed (2013) 12. Koricho, E.G., Khomenko, A., Haq, M., Cloud, G.L.: Fatigue behavior of novel hybrid fastening system with adhesive inserts. In: Proceeding of SEM 2015 Annual Conference & Exposition on Experimental and Applied Mechanics, Costa Mesa, 7–11 June 2015 13. Belingardi, G., Koricho, G.K., Beyene, A.T.: Characterization and failure modeling of notched cross-ply and angle-ply fabric GFRP composite material. J. Compos. Struct. 112, 237–2049 (2013) 14. Khomenko, A., Koricho, E.G., Haq, M.: Fiber Bragg-grating sensors for SHM and FEM of in service bonded multi-material Pi-joints. In: Proceeding of American Society for Composites 29th Technical Conference, La Jolla, 8–11 Sept 2014 15. Gara, A.C.: Delamination—a damage mode in composite structures. Eng. Fract. Mech. 29, 557–587 (1988) E.G. Koricho et al.
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