Dynamic characterization of an all-FRP pultruded construction

S. Castellaro; S. Russo

doi:10.1016/j.compstruct.2019.03.032

journal article Jun 01, 2019

Dynamic characterization of an all-FRP pultruded construction

S. Castellaro S. Russo

Composite Structures Vol. 218 pp. 1-14 · Elsevier BV

View at Publisher Save 10.1016/j.compstruct.2019.03.032

Topics

No keywords indexed for this article. Browse by subject →

References

32

[1]

Tasligedik A.S., Pampanin S., Palermo A. (2011). Damage Mitigation Strategies of 'Non-Structural' Infill Walls: Concept and Numerical-Experimental Validation Program. Paper presented at the New Zealand Society for Earthquake Engineering Inc., 9th Pacific Conference on Earthquake Engineering, Building an Earthquake Resilient Society, Auckland, New Zealand.

[2]

New Zealand Society for Earthquake Engineering Inc. (NZSEE) (March 2016). Bulletin of the New Zealand Society for Earthquake Engineering, 49(1), Special Issue on Seismic Performance of Non-structural Elements (SPONSE).

[3]

Platform. Platform Architecture and Design (2018). 19, First Work, pp. 34–37.

[4]

Russo "Experimental and finite element analysis of a very large pultruded FRP structure subjected to free vibration" Compos Struct (2012) 10.1016/j.compstruct.2011.10.003

[5]

CNR-DT 205 (2007). Italian Guideline instruction for Structural design with fiber reinforced polimer pultruded elements.

[6]

CUR 96, Fibre Reinforced Polymers in Civil Load Bearing Structures 2003 (Dutch Recommendation).

[7]

DIN 13121, Structural Polymer Components for Building and Construction 2010 (Germany, August).

[8]

Prospect for New Guidance in the Design of FRP (2016). European Commission, JRC Science for Policy Report, Report EUR 27666 EN, Support to the implementation, harmonization and further development of the Eurocodes.

[9]

Noh "Assessment of FRP pultruded elements under static and dynamic loads" Compos Struct (2017)

[10]

Russo "Buckling interactions in columns made by built-up thin, open, pultruded FRP shapes" J Reinf Plast Compos (2015) 10.1177/0731684415584953

[11]

Feroldi "Mechanical performance of pultruded FRP plates in beam-to-beam connections" J Compos Constr (2017) 10.1061/(asce)cc.1943-5614.0000779

[12]

Russo "First investigation on mixed cracks and failure modes in multi-bolted FRP plates" Compos Struct (2016) 10.1016/j.compstruct.2016.07.016

[13]

MIDAS GEN (2017). vs.1.1 distribuito da CSPFEA Engineering Solutions Via Zuccherificio, 5/D, 35042 Este (PD) Italy.

[14]

NTC (2018)

[15]

Yuen "Bayesian spectral density approach for modal updating using ambient data" Earthq Eng Struct Dyn (2001) 10.1002/eqe.53

[16]

Yuen "Bayesian Fast Fourier Transform approach for modal updating using ambient data" Adv Struct Eng (2003) 10.1260/136943303769013183

[17]

Snieder "Extracting the building response using seismic interferometry: theory and application to the millikan library in pasadena, California" Bull Seismol Soc Am (2006) 10.1785/0120050109

[18]

Au "Bayesian operational modal analysis: theory, computation, practice" Comput Struct (2013) 10.1016/j.compstruc.2012.12.015

[19]

Castellaro "Dynamic characterization of the Eiffel tower" Eng Struct (2016) 10.1016/j.engstruct.2016.08.023

[20]

Castellaro "Soil and structure damping from single station measurements" Soil Dyn Earthq Eng (2016) 10.1016/j.soildyn.2016.08.005

[21]

Hua "Modeling of temperature-frequency correlation using combined principal component analysis and support vector regression technique" J Comput Civ Eng (2007) 10.1061/(asce)0887-3801(2007)21:2(122)

[22]

Deraemaker "Vibration-based structural health monitoring using output-only measurements under changing environment" Mech Syst Signal Process (2008) 10.1016/j.ymssp.2007.07.004

[23]

Nayeri "A novel approach for the structural identification and monitoring of a full-scale 17- story building based on ambient vibration measurements" Smart Mater Struct (2008) 10.1088/0964-1726/17/2/025006

[24]

Mikael "The analysis of long-term frequency and damping wandering in buildings using the random decrement technique" Bull Seism Soc Am (2014) 10.1785/0120120048

[25]

Clinton "The observed wander of the natural frequencies in a structure" Bull Seism Soc Am (2016) 10.1785/0120050052

[26]

Fäh "A theoretical investigation of average H/V ratios" Geophys J Int (2001) 10.1046/j.0956-540x.2001.01406.x

[27]

SESAME Project, 2004. Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations: Measurements, processing and interpretation, SESAME European Research Project WP12, deliverable no. D23.12, http://sesame-fp5.obs.ujf-grenoble.fr/Papers/HV_User_Guidelines.pdf (last accessed 11 Aug 2018).

[28]

Tuan "On the relationship of peaks and troughs of the ellipticity (H/V) of Rayleigh waves and the transmission response of single layer over half-space models" Geophys J Int (2010)

[29]

Castellaro "H/V and dispersion curves" Geophysics (2016) 10.1190/geo2015-0399.1

[30]

Guidoboni "The oscillatory seismic motion and the daily motion of the Earth in Francesco Tavagini’s Phyisica Disquisitio (1669)" Earth Sci History (2018) 10.17704/1944-6178-37.1.165

[31]

Migliacci (1996)

[32]

Russo S, Boscato G, Free vibrations of pultruded FRP elements: mechanical Characterization, Analysis and Application, Journal of Composite for Construction, ASCE, November-December 2009, 2009, 565–574. 10.1061/(asce)1090-0268(2009)13:6(565)

Metrics

18

Citations

32

References

Details

Published: Jun 01, 2019
Vol/Issue: 218
Pages: 1-14
License: View

Authors

Cite This Article

S. Castellaro, S. Russo (2019). Dynamic characterization of an all-FRP pultruded construction. Composite Structures, 218, 1-14. https://doi.org/10.1016/j.compstruct.2019.03.032

Dynamic characterization of an all-FRP pultruded construction

You May Also Like