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Weldability of micro-alloyed high-strength pipeline steels using a new friction welding variant

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Abstract
An innovative welding method for fully automatic joining of pipelines has been developed. The proposed welding procedure is a variant of the conventional friction welding process. A rotating intermediate ring is used to generate heat necessary to realise the weld. The working principles of the welding process are described. The weldability of the micro-alloyed high-strength pipeline steel API-5L X65 is experimentally investigated. It was found that the new welding process is suitable for joining this material. When welding with a sufficiently low heat input, a high weld quality is obtained. Under these circumstances the weld strength, ductility and impact toughness are high and fulfil the requirements of the commonly used standard EN 12732 for joining pipes.
Keywords
friction welding, pipelines, micro-alloyed high-strength pipeline steels

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MLA
Faes, Koen, Patrick De Baets, Alfred Dhooge, et al. “Weldability of Micro-alloyed High-strength Pipeline Steels Using a New Friction Welding Variant.” Sustainable Construction and Design. Ed. Jeroen Van Wittenberghe. Vol. 1. Ghent, Belgium: Ghent University. Laboratory Soete, 2010. 94–101. Print.
APA
Faes, Koen, De Baets, P., Dhooge, A., De Waele, W., Denys, R., Van Der Donckt, E., & Delbaere, D. (2010). Weldability of micro-alloyed high-strength pipeline steels using a new friction welding variant. In J. Van Wittenberghe (Ed.), SUSTAINABLE CONSTRUCTION AND DESIGN (Vol. 1, pp. 94–101). Presented at the Day of Research 2010, Ghent, Belgium: Ghent University. Laboratory Soete.
Chicago author-date
Faes, Koen, Patrick De Baets, Alfred Dhooge, Wim De Waele, Rudi Denys, E Van Der Donckt, and D Delbaere. 2010. “Weldability of Micro-alloyed High-strength Pipeline Steels Using a New Friction Welding Variant.” In Sustainable Construction and Design, ed. Jeroen Van Wittenberghe, 1:94–101. Ghent, Belgium: Ghent University. Laboratory Soete.
Chicago author-date (all authors)
Faes, Koen, Patrick De Baets, Alfred Dhooge, Wim De Waele, Rudi Denys, E Van Der Donckt, and D Delbaere. 2010. “Weldability of Micro-alloyed High-strength Pipeline Steels Using a New Friction Welding Variant.” In Sustainable Construction and Design, ed. Jeroen Van Wittenberghe, 1:94–101. Ghent, Belgium: Ghent University. Laboratory Soete.
Vancouver
1.
Faes K, De Baets P, Dhooge A, De Waele W, Denys R, Van Der Donckt E, et al. Weldability of micro-alloyed high-strength pipeline steels using a new friction welding variant. In: Van Wittenberghe J, editor. SUSTAINABLE CONSTRUCTION AND DESIGN. Ghent, Belgium: Ghent University. Laboratory Soete; 2010. p. 94–101.
IEEE
[1]
K. Faes et al., “Weldability of micro-alloyed high-strength pipeline steels using a new friction welding variant,” in SUSTAINABLE CONSTRUCTION AND DESIGN, Ghent, Belgium, 2010, vol. 1, pp. 94–101.
@inproceedings{877214,
  abstract     = {An innovative welding method for fully automatic joining of pipelines has been developed. The proposed welding procedure is a variant of the conventional friction welding process. A rotating intermediate ring is used to generate heat necessary to realise the weld. The working principles of the welding process are described. The weldability of the micro-alloyed high-strength pipeline steel API-5L X65 is experimentally investigated. It was found that the new welding process is suitable for joining this material. When welding with a sufficiently low heat input, a high weld quality is obtained. Under these circumstances the weld strength, ductility and impact toughness are high and fulfil the requirements of the commonly used standard EN 12732 for joining pipes.},
  author       = {Faes, Koen and De Baets, Patrick and Dhooge, Alfred and De Waele, Wim and Denys, Rudi and Van Der Donckt, E and Delbaere, D},
  booktitle    = {SUSTAINABLE CONSTRUCTION AND DESIGN},
  editor       = {Van Wittenberghe, Jeroen},
  isbn         = {9789490726003},
  issn         = {2032-7471},
  keywords     = {friction welding,pipelines,micro-alloyed high-strength pipeline steels},
  language     = {eng},
  location     = {Ghent, Belgium},
  pages        = {94--101},
  publisher    = {Ghent University. Laboratory Soete},
  title        = {Weldability of micro-alloyed high-strength pipeline steels using a new friction welding variant},
  volume       = {1},
  year         = {2010},
}