References
- 1 Brozda J: ‘Weldability and properties of joints welded in the new-generation, creep-resistant steels. Part 1. Reasons for the use of new-generation creep-resistant steels, their characteristics and ensuing benefits’. Biuletyn Instytutu Spawalnictwa 2004 ( 1 ).
- 2 Brozda J: ‘Assessment report on the realisation of a research project entitled ‘Discussion on the weldability, and a guide to the technology of welding new-generation creep-resistant steels’ part of a ‘Project PBZ-KBN 12/T08/T10/99’ Material and technological aspects of conventional power generation’. Publ Instytut Spawalnictwa, Gliwice, 2002.
- 3 Gabriel J et al : ‘Workability and development of T/P23 (2.25%Cr–1.6W–Nb–V steel) for fossil boiler and combined cycle applications. Materials for Advanced Power Engineering 2002’. Proc 7 th Liege European Commission Conference Universite de Liege, 21, Part III, 1343–1350.
- 4 Heuser H and Jochum C: ‘Welding of modern heat resistant Cr–Mo alloy steels intended for conventional power plant’. Commercial literature of Thyssen Welding Co.
- 5 Heuser H and Jochum C: ‘Characteristics of matching filler metals for new ferritic–ferritic steels of T/P23 and T/P24 grade steels’. Ibid (3), 1671–1679.
- 6 Hahn B et al : ‘New materials for fossil boiler power plants’. Bohler Thyssen Schweisstechnik Co. seminar at RAFAKO Boiler Making Co., 2003.
- 7 ‘Fabrication of steels for advanced power plants’. http://www.dti.gov.uk/energ/coal/cftt/cct/pub/ps 243.pdf.
- 8 Pecha J and Bosansky J: ‘Welding of new generation steels for components of boiler systems in power plants’. http:/modrykrokodil.sk/Slovgas/Casopis/03 01 04.htm.
- 9 Pecha J et al : ‘The first supercritical power unit in Poland: Weldability evaluation of new martensitic chromium steels with tungsten additions and properties of welded joints’. Ibid (3), 1711–1720.