API CEAC-TR-96-0102 LEAKAGE FAILURE OF THREADED FIBER-COMPOSITE JOINTS UNDER COMBINED INTERNAL PRESSURE, AXIAL AND MAKEUP LOADING: EXPERIMENTS AND ANALYSES
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- 13
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- 13.300
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- 45
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- CEN EN 12561-2 Railway applications - Tank wagons - Part 2: Bottom emptying devices for liquid products including vapour return
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- ISO 3419 Non-Alloy and Alloy Steel Butt-Welding Fittings Second Edition; (Erratum-1982)
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- BSI BS EN 12561-2 Railway applications - Tank wagons Part 2: Bottom emptying devices for liquid products including vapour return - CORR: August 31, 2011
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- CEN EN ISO 228-1 Pipe threads where pressure-tight joints are not made on the threads - Part 1: Dimensions, tolerances and designation
- BSI BS EN ISO 10806 Pipework - Fittings for corrugated metal hoses - CORR 14987: January 30, 2004
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- ISO 6761 Steel Tubes - Preparation of Ends of Tubes and Fittings for Welding First Edition
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- DIN EN ISO 3183 Petroleum and natural gas industries - Steel pipe for pipeline transportation systems (ISO 3183:2012)
- API SPEC Q1 Specification for Quality Management System Requirements for Manufacturing Organizations for the Petroleum and Natural Gas Industry - NINTH EDITION; Errata: FEBRUARY 2014; Errata 2: MARCH 2014; EFFECTIVE DATE: JUNE 1, 2014
- API RP 5A5 Field Inspection of New Casing, Tubing, and Plain-end Drill Pipe - SEVENTH EDITION; ERTA: December 2009
- API RP 5B1 ADD 1 Gauging and Inspection of Casing, Tubing, and Line Pipe Threads - Fifth Edition
- SNV SN EN 12561-4 Railway applications - Tank wagons - Part 4: Devices for top filling and emptying of liquid products
- Картотека зарубежных и международных стандартов
American Petroleum Institute
LEAKAGE FAILURE OF THREADED FIBER-COMPOSITE JOINTS UNDER COMBINED INTERNAL PRESSURE, AXIAL AND MAKEUP LOADING: EXPERIMENTS AND ANALYSES
N CEAC-TR-96-0102
Annotation
INTRODUCTION
The demand of alternative and/or better materials to meet stringent performance and cost-effectiveness requirements in petroleum exploration and production operations has led to consideration of light-weight, fiber composites for a variety of aggressive, load-bearing applications. Joining of composite tubing, especially the threaded composite joints, has been a major concern because of the complexities involved. It is recognized that design and analysis methodologies for monolithic metallic joints have been practiced for a long time and well established. However, the mechanics and failure behavior of threaded composite tubular joints for load-bearing applications has not been well understood. Rigorous analytical and experimental methods to study the mechanical response of a threaded composite joint simply do not exist, mainly because the following difficulties and complexities:
1) Complexities in fiber composite joint materials. Composite materials have inherently inhomogeneous microstructures and anisotropic properties. An accurate leakage failure study of composite joints requires knowledge of nonlinear anisotropic material properties, complicated failure criteria, and nonlinear thread contact mechanics.
2) Lack of understanding of threaded joint contact mechanics; Complexities of the local joint geometry and lack understanding of the thread contact pose a fundamental problem for evaluation and prediction of joint failure. The connection threads are recognized to be the weakest link in a composite joint system. A detailed study of a threaded composite joint made of different kinds of composite materials is generally tedious, difficult and very complex.
3) Complexities in leakage failure modes: The three-dimensional states of stress and deformation in a threaded region of a fiber composite joint are known to be very complex. Various leakage failure modes may be developed under a combined internal pressure, axial loading and make-up interference. Very little is understood about the failure modes and the effect of the combined loading modes on the joint failure.
