P.J. Haagensen scite author profile

This paper reviews important parameters and conditions that determine the life of welded joints, and summarizes recent research developments in the fatigue design of welded structures, with an emphasis on offshore tubular structures. Two of the factors that strongly affect fatigue life, the environment and plate thickness, have been the subject of several large research programs in recent years. With the increasing use of higher strength steels much interest has also been taken in various methods for improving the fatigue life of welded joints. Developments in these areas of research are reviewed. Examples of approaches to fatigue life prediction in design codes are given. Recent changes to design codes are evaluated, and examples of significant changes in design codes are given. Progress in the implementation of techniques for fatigue life improvement and life extension of fatigue‐damaged structures are discussed.

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Fatigue Assessment of Drill Pipes

Haagensen

Grøttum

2017

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Fatigue failures during offshore drilling operations is still a very costly problem. The fatigue behavior of drill pipes is reviewed, and typical failure modes are identified. The effects of drill string curvature during directional drilling on pipe body stress and on the fatigue life is examined. Effects on applied mean stress from drill string weight are discussed. Interaction effects of degradation mechanisms such as fatigue, wear and corrosion are evaluated. Experimental background data and statistical evaluation that form the basis for the current design practice issued by American Petroleum Institute (API) and other guidance in codes and standards is reviewed. Results from several recent testing programs performed under rotating bending of pipes with threaded connections, and tests involving the pipe body under resonance conditions are presented. The tests were made with pipe sizes from 2 7/8 in. to 5 7/8 in. in Grade S-135 pipes. The results are compared with published test data and design guidance such as API Recommended Practice G7 [1]. Recommendations are given for research and testing to improve reliability and the safe operation of drill strings.

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Assessment of Bending Fatigue Limits for Carburized Steel

Cohen¹,

Haagensen²,

Matlock

et al. 1991

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P.J. Haagensen

IIW recommendations on methods for improving the fatigue strength of welded joints

Fatigue design of welded aluminum rectangular hollow section joints

Fatigue of tubular joints and fatigue improvement methods

Fatigue Assessment of Drill Pipes

Assessment of Bending Fatigue Limits for Carburized Steel

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