Fatigue strength assessment of riveted shear splices-Reference-Cited by-同舟云学术

Fatigue strength assessment of riveted shear splices

Published:2023-09 Issue:3-4 Volume:6 Page:2504-2509
ISSN:2509-7075
Container-title:ce/papers
language:en
Short-container-title:ce papers

Author:

Lettieri Annarosa¹,Latour Massimo¹,Rizzano Gianvittorio¹,Milone Aldo²,D'Aniello Mario²,Landolfo Raffaele²

Affiliation:

1. University of Salerno Salerno italy

2. University of Naples “Federico II” Naples Italy

Abstract

AbstractOld‐steel riveted bridges are part of the heritage asset in many countries. Assessing the remaining life and fatigue strength of their structural riveted details is crucial in managing these structures. According to JRC‐ECCS document Assessment of Existing Steel Structures: Recommendations for Estimation of Remaining Fatigue Life, fatigue class 71 is recommended to estimate the fatigue strength of riveted details. However, the predicted fatigue behaviour can lead to excessively conservative estimates. Hence the research community is still focusing on the suitability of current recommendations. This work performs a numerical study to evaluate the fatigue strength of riveted double‐shear splices. Experimental fatigue test results are collected from the literature, and some are used to develop a finite element model in ABAQUS and Fe‐Safe. The adopted modelling fatigue approach is applied to investigate the fatigue behaviour of double‐shear riveted connections with different geometrical properties. The numerical results are compared with all collected data, showing the procedure's effectiveness in predicting the fatigue strength of double‐shear riveted splices. Finally, the numerical and experimental results are compared with the recommended S‐N curves.

Publisher

Wiley

Subject

General Earth and Planetary Sciences,General Environmental Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/cepa.2464

Reference28 articles.

1. YenB.T. HuangT. Lai L‐Y. FisherJ.W.(1990)Manual for inspecting bridges for fatigue damage conditions. January 1990 174p. (Final report) Fritz Laboratory Reports Paper 534.

2. Fatigue-Prone Details in Steel Bridges

3. EN 1998‐1 Eurocode 3: Design of Steel Structures – Part 1‐9: Fatigue.European Committee for Standardization Brussels.

4. AASHTO LRFD(1994)Bridge Design Specifications SI units.1stEdition American Association of State Highway and Transportation Officials Washington D.C.

5. KühnB. LukicM. NussbaumerA. Günther H.-P. HelmerichR. HerionS. KolsteinM.H. WalbridgeS. AndroicB. DijkstraO. BucakO.(2008)Assessment of Existing Steel Structures: Recommendations for Estimation of Remaining Fatigue Life.JRC Scientific and Technical Reports – ECCS European Commission.