Analysis of reliability of the drill pipe in the clamping mechanism
In oilfield equipment, a significant place is occupied by clamping mechanisms used to grip pipes during tripping operations. They are mainly divided into 2 groups. The first includes mechanisms with a forced clamping of the part. The second group includes self-clamping devices with a wedge mechanism...
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Scientific Route OÜ
2021-09-01
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| Series: | EUREKA: Physics and Engineering |
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| Online Access: | http://journal.eu-jr.eu/engineering/article/view/1765 |
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doaj-0be539a7dcc8496e897c1efcc894d5bf2021-09-14T09:40:29ZengScientific Route OÜEUREKA: Physics and Engineering2461-42542461-42622021-09-015808710.21303/2461-4262.2021.0017651765Analysis of reliability of the drill pipe in the clamping mechanismEmin Musa Afandiyev0Mahammadali Nuraddin Nuriyev1Azerbaijan State Economic University (UNEC)Azerbaijan State Economic University (UNEC)In oilfield equipment, a significant place is occupied by clamping mechanisms used to grip pipes during tripping operations. They are mainly divided into 2 groups. The first includes mechanisms with a forced clamping of the part. The second group includes self-clamping devices with a wedge mechanism. Here, the clamping force increases in proportion to the axial shear force. In these clamping devices, clamping jaws serve as a common element. In addition to smooth jaws, there may be jaws with notches on the inner cylindrical surface. Such notches contribute to an increase in the coefficient of adhesion when clamping cylindrical parts, in particular pipes. During the operation of clamping devices with corrugated jaws, the teeth of the notch are introduced into the pipe walls under the action of the clamping force. The shearing force can then displace the pipe relative to the jaws. The adhesion coefficient µ is the ratio of the shear force P to the clamping force Q, i.e. P/Q. Exceeding the shear force P of the limit value causes the pipe to be clamped to move. The correct choice of the place of load application is also of great importance. Optimum clamping performance can be achieved by clamping workpieces without slipping from shear forces. At the same time, it is necessary to ensure reliability, efficiency, productivity. Therefore, all factors that determine the holding capacity of clamping mechanisms should be considered. These factors include the coefficient of adhesion, the design of the working surfaces of the clamping elements, the type of notch of the corrugated jaws and the place of application of the clamping forcehttp://journal.eu-jr.eu/engineering/article/view/1765holding capacitydrill pipeclamping mechanismstring weightclamping area |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Emin Musa Afandiyev Mahammadali Nuraddin Nuriyev |
| spellingShingle |
Emin Musa Afandiyev Mahammadali Nuraddin Nuriyev Analysis of reliability of the drill pipe in the clamping mechanism EUREKA: Physics and Engineering holding capacity drill pipe clamping mechanism string weight clamping area |
| author_facet |
Emin Musa Afandiyev Mahammadali Nuraddin Nuriyev |
| author_sort |
Emin Musa Afandiyev |
| title |
Analysis of reliability of the drill pipe in the clamping mechanism |
| title_short |
Analysis of reliability of the drill pipe in the clamping mechanism |
| title_full |
Analysis of reliability of the drill pipe in the clamping mechanism |
| title_fullStr |
Analysis of reliability of the drill pipe in the clamping mechanism |
| title_full_unstemmed |
Analysis of reliability of the drill pipe in the clamping mechanism |
| title_sort |
analysis of reliability of the drill pipe in the clamping mechanism |
| publisher |
Scientific Route OÜ |
| series |
EUREKA: Physics and Engineering |
| issn |
2461-4254 2461-4262 |
| publishDate |
2021-09-01 |
| description |
In oilfield equipment, a significant place is occupied by clamping mechanisms used to grip pipes during tripping operations. They are mainly divided into 2 groups. The first includes mechanisms with a forced clamping of the part. The second group includes self-clamping devices with a wedge mechanism. Here, the clamping force increases in proportion to the axial shear force. In these clamping devices, clamping jaws serve as a common element. In addition to smooth jaws, there may be jaws with notches on the inner cylindrical surface. Such notches contribute to an increase in the coefficient of adhesion when clamping cylindrical parts, in particular pipes. During the operation of clamping devices with corrugated jaws, the teeth of the notch are introduced into the pipe walls under the action of the clamping force. The shearing force can then displace the pipe relative to the jaws. The adhesion coefficient µ is the ratio of the shear force P to the clamping force Q, i.e. P/Q. Exceeding the shear force P of the limit value causes the pipe to be clamped to move. The correct choice of the place of load application is also of great importance.
Optimum clamping performance can be achieved by clamping workpieces without slipping from shear forces. At the same time, it is necessary to ensure reliability, efficiency, productivity. Therefore, all factors that determine the holding capacity of clamping mechanisms should be considered. These factors include the coefficient of adhesion, the design of the working surfaces of the clamping elements, the type of notch of the corrugated jaws and the place of application of the clamping force |
| topic |
holding capacity drill pipe clamping mechanism string weight clamping area |
| url |
http://journal.eu-jr.eu/engineering/article/view/1765 |
| work_keys_str_mv |
AT eminmusaafandiyev analysisofreliabilityofthedrillpipeintheclampingmechanism AT mahammadalinuraddinnuriyev analysisofreliabilityofthedrillpipeintheclampingmechanism |
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1717379782658752512 |