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Mechanics of Composite Materials

Erschienen in:

01.07.2015

Finite-Element Modeling of a Damaged Pipeline Repaired Using the Wrap of a Composite Material

verfasst von: A. A. Lyapin, M. I. Chebakov, A. Dumitrescu, G. Zecheru

Erschienen in: Mechanics of Composite Materials | Ausgabe 3/2015

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Abstract

The nonlinear static problem of FEM modeling of a damaged pipeline repaired by a composite material and subjected to internal pressure is considered. The calculation is carried out using plasticity theory for the pipeline material and considering the polymeric filler and the composite wrap. The level of stresses in various zones of the structure is analyzed. The most widespread alloy used for oil pipelines is selected as pipe material. The contribution of each component of the pipeline-filler-wrap system to the level of stresses is investigated. The effect of the number of composite wrap layers is estimated. The results obtained allow one to decrease the costs needed for producing test specimens.

Vorheriger Artikel Stresses Arising During Cure of the Composite Wound on the Cylindrical Surface of an Element of Exhaust System

Nächster Artikel Physicomechanical Characteristics of an Elastomeric Composite Containing Silicon Oxide Nanoparticles with Account of Interface Layer

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J. Lukács, G. Nagy, I. Török, J. Égert, and B. Pere, “Experimental and numerical investigations of external reinforced damaged pipelines,” Proc. Eng., 2, 1191-1200 (2010).CrossRef

A. Parashar and P. Mertiny, “Failure mechanism in adhesively bonded FRP pipe sections with different fibre architecture,” Composites, 47, 102-106 (2013).CrossRef

Z. Chuan-xiang and L. Shao-hui, “Research on bursting pressure formula of mild steel pressure vessel,” J. Zhejiang Univ. SCIENCE A, 7, 277-281 (2006).CrossRef

M. Sinha and D. S. N. Pandit, “Design and burst pressures analysis of CFRP composite pressure vessel for various fiber orientations angles,” Int. J. Adv. Eng. Sci. Technol., 1, No. 1, 35-40 (2012).

M. F. Köpple, S. Lauterbach, and W. Wagner, “Composite repair of through-wall defects in pipework — Analytical and numerical models with respect to ISO/TS 24817,” Compos. Struct., 95, 173-178 (2013).CrossRef

T. Rehberg, M. Schad, and M. Green, “Non-metallic composite repair systems for pipes and pipelines,” Pipeline Technol., 3R, 42-46 (2010) (Special Ed.).

C. Alexander, “Design of an optimized composite repair system for offshore risers using integrated analysis and testing techniques,” Offshore Technol. Conf., 1-13 (2012).

M. A. Abanilla, Y. Li, and V. M. Karbhari, “Durability characterization of wet layup graphite/epoxy composites used in external strengthening,” Composites, 37, 200-212 (2006).CrossRef

S. B. Brahim and R. B. Cheikh, “Influence of fibre orientation and volume fraction on the tensile properties of unidirectional Alfa-polyester composite,” Compos. Sci. Technol., 67, 140-147 (2007).CrossRef

10.

J. M. Duell, J. M. Wilson, and M. R. Kessler, “Analysis of a carbon composite overwrap pipeline repair system,” Int. J. Press. Vess. Piping., 85, 782-788 (2008).CrossRef

11.

H. Ghiasi, D. Pasini, and L. Lessard, “Optimum stacking sequence design of composite materials Part I: Constant stiffness design,” Compos. Struct., 90, 1-11 (2009).CrossRef

12.

P. J. Herrera-Franco and A. Valadez-Gonzalez, “A study of the mechanical properties of short natural-fiber reinforced composites,” Composites, 36, 597-608 (2005).CrossRef

13.

M. Kawano, K. Mitsuishi, and K. Ogahara, “Tensile properties of tetra-axial woven fabrics,” J. Textile Machin. Soc. Jap., 47, No. 4, 96-102 (1994).CrossRef

14.

G. Odegard and M. Kumosa, “Determination of shear strength of unidirectional composite materials with the Iosipescu and 10o off-axis shear tests,” Compos. Sci. Technol., 60, 2917-2943 (2000).CrossRef

15.

M. S. S. Prasad, C. S. Venkatesha, and T. Jayaraju, “Experimental methods of determining fracture toughness of fiber reinforced polymer composites under various loading conditions,” J. Miner. Mater. Characteriz. Eng., 10, No. 13, 1263-1275 (2011).

16.

L. Charles, Iii Tucker, and E. Liang, “Stiffness predictions for unidirectional short-fiber composites: review and evaluation,” Compos. Sci. Technol., 59, 655-671 (1999).

17.

M. Staat, “Plastic collapse analysis of longitudinally flawed pipes and vessels,” Nucl. Eng. Design, 234, 25-43 (2004).CrossRef

18.

M. Z. Kabir, “Finite element analysis of composite pressure vessels with a load sharing metallic liner,” Compos. Struct., 49, 247-255 (2000).CrossRef

19.

S. A. Hussain, B. S. Reddy, and V. N. Reddy, “Prediction of elastic properties of frp composite lamina for longitudinal loading,” ARPN J. Eng. Appl. Sci., 3, No. 6 (2008).

20.

M. A. Islam and K. Begum, “Prediction models for the elastic modulus of fiber-reinforced polymer composites: An analysis,” J. Sci. Research, 3, No. 2, 225-238 (2011).

21.

C. Alexander, “Developing stress intensification factors for composite repair systems used to repair damaged pipe,” ASME, 6, 1-10 (2010).

22.

S. A. Hussain, B. S. Reddy, and V. N. Reddy, “Prediction of elastic properties of frp composite lamina for longitudinal loading,” ARPN J. Eng. Appl. Sci., 6, No. 6, 70-75 (2008).

23.

C. R. Alexander, “Development of standards for composite repair systems,” Pipeline Gas Technol. Mag., October Ed., 1-4 (2009).

24.

A. A. Lyapin and M. I. Chebakov, “Finite element modeling of pipeline with volume defect,” Izv. Vuzov Sev.-Kavk. Reg. Estestv. Nauki, No. 2, 24-27 (2014).

Titel: Finite-Element Modeling of a Damaged Pipeline Repaired Using the Wrap of a Composite Material
verfasst von: A. A. Lyapin
M. I. Chebakov
A. Dumitrescu
G. Zecheru
Publikationsdatum: 01.07.2015
Verlag: Springer US
Erschienen in: Mechanics of Composite Materials / Ausgabe 3/2015
Print ISSN: 0191-5665
Elektronische ISSN: 1573-8922
DOI: https://doi.org/10.1007/s11029-015-9504-9

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