On Fatigue Design Rules For Welded Structures

Gurney, T R; Hicks, J. G.

doi:10.4043/1907-ms

Cited by 22 publications

(34 citation statements)

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“…Nonetheless, the reduced level of stress concentration as well as the presence of a low ultimate strength, makes the fatigue strength of riveted connections more favorable and sensitive to material quality [14]. Moreover, the development of an accurate inspection strategy related to fatigue assessment requires adequate considerations of the many factors involved, and also a deep knowledge of material properties [2].…”

Section: Materials Characterization and Full-scale Testsmentioning

confidence: 99%

High-cycle fatigue behavior of riveted connections for railway metal bridges

Pipinato

Pellegrino

Bursi

et al. 2009

Journal of Constructional Steel Research

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Section: Materials Characterization and Full-scale Testsmentioning

confidence: 99%

High-cycle fatigue behavior of riveted connections for railway metal bridges

Pipinato

Pellegrino

Bursi

et al. 2009

Journal of Constructional Steel Research

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“…In recent years, several countries (Canada, the United States, the United Kingdom, Switzerland and Denmark) have adopted a new probabilistic assessment of the bearing capacity of used bridges. It is a method of separated, calibrated safety factors with reduced requirements in relation to newly designed structures -according to the author, the "redundancy" method [11]. Based on the requirements of this method and the Fitness of Purpose method, the article analyzes the fatigue life of the most dangerous fracture of the viaduct.…”

Section: Introductionmentioning

confidence: 99%

Computational fatigue durability of butt welds with cracks in the flanges of the solid-web girder of the railway bridge

Wichtowski

2019

Weld. Tech. Rev.

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In 2018, passed the 40th anniversary of the death of prof. Andrzej Fabiszewski (1924-1978), a forerunner of testing the quality of butt welds in exploited railway bridges. One of the first surveyed facilities was the viaduct on the Poznań-Szczecin line discussed in the article. A very bad state of welds was found and there were 61 internal cracks. In order to estimate the durability of the facility, strength tests of the steel of the structure were carried out and static calculations were made against standard and operational loads. The fatigue life of a crack in a flange joint of one girder was also analyzed. The results of these tests are included in the article.

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“…The last, fatigue failure, is a highly relevant engineering problem. In fact, Gurney estimated that 90% of failures of engineering components could be attributed to fatigue. In the particular case of wind turbines, Sutherland states that these are fatigue critical systems.…”

Section: Introductionmentioning

confidence: 99%

Analysis of long‐term loading characterization for stress‐cycle fatigue design

2019

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The present paper discusses the application of stress‐cycle (SN) fatigue design procedures for offshore wind turbines, applied to the tower and substructure, and emphasizing the long‐term loading characterization. Three main methodologies are compared to assess SN fatigue long‐term design, direct scale‐up of loads and cycles to the design lifetime, probability fit for the loading distribution, and truncation and fit of the tail region. Different characteristic SN slopes are researched. The comprehensive comparison developed shows that limited interest exists in increasing the complexity of the loading assessment for SN fatigue design. In particular, the notion of representative sample has key influence on the fatigue calculations. Probability analysis techniques are not an adequate substitute of a representative sample. If definition of a representative sample for design is unpractical due to its large cost, direct scale‐up of cycles from a time t to a larger time T can be applied with uncertainty assessment. Bootstrapping of load ranges is implemented to tackle the limitations imposed by approaching a design time much larger than the evaluated time. It takes advantage of the fact that SN fatigue design is a statistical problem of mean value. Bootstrapping proved to be an efficient estimator of uncertainty with relatively constant confidence bounds, of particular interest to perform SN fatigue design with small samples. New insights on its application for fatigue design are presented. Due to its simple application and nonparametric character, it can be applied in combination with other techniques, such as extrapolation of loads and cycles.

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On Fatigue Design Rules For Welded Structures

Cited by 22 publications

References 0 publications

High-cycle fatigue behavior of riveted connections for railway metal bridges

High-cycle fatigue behavior of riveted connections for railway metal bridges

Computational fatigue durability of butt welds with cracks in the flanges of the solid-web girder of the railway bridge

Analysis of long‐term loading characterization for stress‐cycle fatigue design

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