An Experimental Investigation of Fatigue-Crack Growth in Drillstring Tubulars

Dale, Bruce A.

doi:10.2118/15559-pa

Cited by 22 publications

(8 citation statements)

References 5 publications

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“…13. This type of behaviour was reported by Dale,17 who presented data from rotating bend fatigue tests on medium sized (NC-46) drill collar connections. Measurements taken from beach marks indicated that the aspect ratio remained almost constant throughout the section thickness.…”

Section: Crack Shape Evolutionsupporting

confidence: 72%

Controlled failure design of drillstring threaded connections

Knight

Dover

2003

Fatigue Fract Eng Mat Struct

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The threaded connection of the type used in hydrocarbon exploration is a critical component of the drillstring that is highly susceptible to fatigue damage. Fatigue crack growth can either lead to a catastrophic failure of the connection, known as a twist‐off, or can be a non‐critical failure, known as a wash‐out. The design philosophy of Controlled Failure Design has been used in order to promote a ‘friendly’ non‐critical failure in the connection, by the controlled application of compressive residual stresses. The influence of compressive residual stress and its effect on controlling fatigue crack shape has been experimentally investigated with the development of thread root cold rolling equipment. Through the control of the cold rolling process, it has been demonstrated that fatigue crack growth can be controlled to produce a localized, non‐critical failure in the connection.

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Section: Crack Shape Evolutionsupporting

confidence: 72%

Controlled failure design of drillstring threaded connections

Knight

Dover

2003

Fatigue Fract Eng Mat Struct

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“…According to Baryshnikov et al [9], Wilson et al [10] and Wang [11], most of the drill failures are caused by fatigue, and the reverse movement of the drill string is the direct cause of the alternating stress. The bending stress of the drill string comes from the reverse movement of the drill string, and the other parts come from the forced vibration of the drill string under self-excited transverse vibration.…”

Section: Bending Calculationmentioning

confidence: 99%

Drill pipe joints fatigue analysis and optimization under special working conditions

Li,

Nie,

et al. 2024

J. Phys.: Conf. Ser.

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Recently, the number of ultra-deep and extended reach wells has continuously increased. The failure of the drill pipe is prominent when drilling. The thickened area of the drill pipe body and the position of the drill pipe joint often appear fatigued, especially the internal thickening zone for the nonlinear structure of the cast component. Fatigue failure occurred at the drill pipe joint due to non-linear contact between the male and female snaps. The fatigue life S-N curves show that the overall life of drilling with high-resistance torsion drill pipe is increased by 136% compared with API drill pipe, though the maximum stress value was reduced by 8.4%. The high-bend drill pipe has an overall life improvement of 174% over the API drill pipe. High flexural drill pipe reduces stress by 10% compared to the maximum value. At the same time, the drill pipe’s fatigue period and safety factor can be improved by adjusting the drilling speed and annulus pressure properly.

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“…Most of its failures are in the form of fatigue damage [3,4]. Investigation shows that 14% of oil and gas wells experienced underground fracture accidents of drillstrings to different degrees [5], and the average costs of a drilling accident caused by drillstring fracture is as high as $250 million [6,7]. Therefore, monitoring stress concentration or microcracks at the early stage during drilling and promptly taking precautions before crack propagation is of great significance to prevent fatigue failure of drillstrings.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of Metal Magnetic Memory Testing of 35CrMo Steel during Fatigue Loading

Fan

Dai

et al. 2018

Metals

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Abstract:The fatigue fracture of a drillstring could cause drilling disturbances and some negative impacts (e.g., economic loss) will be brought when restoring the drillstring to functionality. In order to evaluate the effects of the fatigue damage of the drillstring during drilling, a new apparatus, which could monitor the load level in real-time, was built to perform the four-point bending fatigue test on 35CrMo steel, a typical material of drillstrings. Such an apparatus is based on metal magnetic memory (MMM) technology and can acquire the tangential and normal components of MMM signals. Based on the analysis of the change of surface morphology and MMM signals, it was concluded that the variation of MMM signals could be divided into four stages, which are used to accurately describe the fatigue damage process of the drillstring. Additionally, the MMM signal characteristics are introduced to especially evaluate the fatigue damage of the drillstring, including crack initiation. Furthermore, the scanning electron microscopy (SEM) results demonstrated that morphologies of fatigue fracture were related to the variation of MMM signals. Linear fitting results indicated that fatigue crack length had a good linear relationship with the characteristics, so it is feasible to monitor fatigue damage and predict the residual life of a drillstring by using MMM technology.

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An Experimental Investigation of Fatigue-Crack Growth in Drillstring Tubulars

Cited by 22 publications

References 5 publications

Controlled failure design of drillstring threaded connections

Controlled failure design of drillstring threaded connections

Drill pipe joints fatigue analysis and optimization under special working conditions

Characteristics of Metal Magnetic Memory Testing of 35CrMo Steel during Fatigue Loading

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