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BS PD ISO/TR 10400 : 2007

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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PETROLEUM AND NATURAL GAS INDUSTRIES - EQUATIONS AND CALCULATIONS FOR THE PROPERTIES OF CASING, TUBING, DRILL PIPE AND LINE PIPE USED AS CASING OR TUBING

Available format(s)

Hardcopy , PDF

Superseded date

30-06-2011

Superseded by

PD CEN ISO/TR 10400:2011

Language(s)

English

Published date

01-01-2007

€451.08
Excluding VAT

Foreword
Introduction
1 Scope
2 Conformance
   2.1 Normative references
   2.2 Units of measurement
3 Normative references
4 Terms and definitions
5 Symbols
6 Triaxial yield of pipe body
   6.1 General
   6.2 Assumptions and limitations
   6.3 Data requirements
   6.4 Design equation for triaxial yield of pipe body
   6.5 Application of design equation for triaxial yield
         of pipe body to line pipe
   6.6 Example calculations
7 Ductile rupture of the pipe body
   7.1 General
   7.2 Assumptions and limitations
   7.3 Data requirements
   7.4 Design equation for capped-end ductile rupture
   7.5 Adjustment for the effect of axial tension and external
         pressure
   7.6 Example calculations
8 External pressure resistance
   8.1 General
   8.2 Assumptions and limitations
   8.3 Data requirements
   8.4 Design equation for collapse of pipe body
   8.5 Equations for empirical constants
   8.6 Application of collapse pressure equations to line pipe
   8.7 Example calculations
9 Joint strength
   9.1 General
   9.2 API casing connection tensile joint strength
   9.3 API tubing connection tensile joint strength
   9.4 Line pipe connection joint strength
10 Pressure performance for couplings
   10.1 General
   10.2 Internal yield pressure of round thread and buttress
         couplings
   10.3 Internal pressure leak resistance of round thread or
         buttress couplings
11 Calculated masses
   11.1 General
   11.2 Nominal masses
   11.3 Calculated plain-end mass
   11.4 Calculated finished-end mass
   11.5 Calculated threaded and coupled mass
   11.6 Calculated upset and threaded mass for integral joint
         tubing and extreme-line casing
   11.7 Calculated upset mass
   11.8 Calculated coupling mass
   11.9 Calculated mass removed during threading
   11.10 Calculated mass of upsets
12 Elongation
13 Flattening tests
   13.1 Flattening tests for casing and tubing
   13.2 Flattening tests for line pipe
14 Hydrostatic test pressures
   14.1 Hydrostatic test pressures for plain-end pipe, extreme-line
         casing and integral joint tubing
   14.2 Hydrostatic test pressure for threaded and coupled pipe
15 Make-up torque for round thread casing and tubing
16 Guided bend tests for submerged arc-welded line pipe
   16.1 General
   16.2 Background
17 Determination of minimum impact specimen size for API
   couplings and pipe
   17.1 Critical thickness
   17.2 Calculated coupling blank thickness
   17.3 Calculated wall thickness for transverse specimens
   17.4 Calculated wall thickness for longitudinal specimens
   17.5 Minimum specimen size for API couplings
   17.6 Impact specimen size for pipe
   17.7 Larger size specimens
   17.8 Reference information
Annex A (informative) Discussion of equations for
        triaxial yield of pipe body
Annex B (informative) Discussion of equations for
        ductile rupture
Annex C (informative) Rupture test procedure
Annex D (informative) Discussion of equations for fracture
Annex E (informative) Discussion of historical API collapse
        equations
Annex F (informative) Development of probabilistic collapse
        performance properties
Annex G (informative) Calculation of design collapse strength
        from collapse test data
Annex H (informative) Calculation of design collapse strengths
        from production quality data
Annex I (informative) Collapse test procedure
Annex J (informative) Discussion of equations for
        joint strength
Annex K (informative) Tables of calculated performance
        properties in SI units
Annex L (informative) Tables of calculated performance
         properties in USC units
Bibliography

Specifies the equations and templates necessary to calculate the various pipe properties given in International Standards, including pipe performance properties, such as axial strength, internal pressure resistance and collapse resistance, minimum physical properties, product assembly force (torque), product test pressures, critical product dimensions related to testing criteria, critical dimensions of testing equipment, and critical dimensions of test samples.

Committee
PSE/17/-/5
DevelopmentNote
Supersedes 04/19991491 DC. (02/2008) Renumbered and superseded by BS PD CEN ISO/TR 10400. (06/2011)
DocumentType
Standard
Pages
238
PublisherName
British Standards Institution
Status
Superseded
SupersededBy
Supersedes

Standards Relationship
ISO/TR 10400:2007 Identical

ISO 10405:2000 Petroleum and natural gas industries — Care and use of casing and tubing
API 5CT : 2012 CASING AND TUBING
ISO 13679:2002 Petroleum and natural gas industries Procedures for testing casing and tubing connections
API 5D : 2001 SPECIFICATION FOR DRILL PIPE
NACE TM 01 77 : 2016 LABORATORY TESTING OF METALS FOR RESISTANCE TO SULFIDE STRESS CRACKING AND STRESS CORROSION CRACKING IN H[2]S ENVIRONMENTS
ISO 3183:2012 Petroleum and natural gas industries Steel pipe for pipeline transportation systems
API 5L : 2012 LINE PIPE
ASTM E 1928 : 2013 : REDLINE Standard Practice for Estimating the Approximate Residual Circumferential Stress in Straight Thin-walled Tubing
API 5C3 : 1994 BULLETIN ON FORMULAS AND CALCULATIONS FOR CASING, TUBING, DRILL PIPE AND LINE PIPE PROPERTIES
API 579-1 : 2016 FITNESS-FOR-SERVICE
API 5C5 : 2017 PROCEDURES FOR TESTING CASING AND TUBING CONNECTIONS
ISO 11960:2014 Petroleum and natural gas industries Steel pipes for use as casing or tubing for wells

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