Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Torque makeup

Use thread compound on pin and box, and apply proper makeup torque In accordance with API RP-7G recommendations. [Pg.552]

The above statements are valid if the connection is made up with the recommended makeup torque. For practical purposes, a set of charts is available from DRILCO, Division of Smith International, Inc. Some of these charts are presented in Figures 4-128 to 4-132. The method to use the connection selection charts is as follows [38] ... [Pg.722]

The recommended makeup torque for drill collars is given in Tables 4-75 and 4-76. [Pg.731]

The calculations lor recommended makeup torque assume the use ol a thread compound containing 40% to 60% by weight of linety powdered metallic zinc, or 60% by weight of finely powdered metallic lead, applied thoroughly to all threads and shoulders the use of the modified jackscrew formula as shown in the lAOC Drilling Manual and the API Spec RP 7G (latest addition) and a unit stress of 62,500 psi in the box or whichever is weaker. [Pg.732]

The H 90 connection makeup torque is based on 56,250 psi stress and other factors as stated m note i. [Pg.733]

Caution No safety factor is included in this example calculation. Additional checkup must be done if the obtained value of the torque is not greater than the recommended makeup torque for tool joints. [Pg.745]

The tool Joint holds drill pipe together, and the shoulders (similar to drill collars) form a metal-to-metal seal to avoid leakage. The tool Joint threads are designed to be made up with drilling fluid containing solids. Clearance must be provided at the crest and root of threads in order to accommodate these solids. Therefore, the shoulder is the only seal. To keep the shoulders together, proper makeup torque is required. [Pg.748]

However, makeup torque applied to the tool Joint produces as axial preloading in the pin and the box as well as a torsional stress. [Pg.748]

In particular, makeup torque induces a tensile state of stress within the pin and compression stress in the box. Thus, when the tool Joint is exposed to the additional axial load due to the weight of the drill string suspended below the Joint, the load capacity of the tool Joint is determined by the tensile strength of the pin. [Pg.748]

The magnitude of the makeup torque corresponding to the maximum load capacity of the tool Joint is called the recommended makeup torque. [Pg.748]

The API recommended makeup torque for different types of tool Joints and classes of drill pipe is given in Table 4-89. [Pg.748]

Normally, not more than two sections are designed but, if absolutely necessary, even three sections can be used. To calculate the tensile load capacity of drill pipe, it is suggested to apply Equation 4-58 and use the recommended makeup torque of the weakest tool joint for the rotary torque. [Pg.767]

Reduce the stress levels in the pin by utilizing makeup torque on tool joints at the low end of the recommended torque range. [Pg.1340]

See other pages where Torque makeup is mentioned: [Pg.731]    [Pg.731]    [Pg.732]    [Pg.732]    [Pg.733]    [Pg.733]    [Pg.748]    [Pg.757]    [Pg.768]    [Pg.1167]    [Pg.1174]    [Pg.1174]    [Pg.1174]    [Pg.1174]    [Pg.1174]    [Pg.1247]    [Pg.1248]    [Pg.123]   


SEARCH



Makeup

Tool joints makeup torque

Torquing

© 2024 chempedia.info