@book{JRC92107,
	editor = {},
	address = {},
	year = {2014},
	author = {Auerkari P and Nevasmaa P and Salonen J and Holmstrom B},
	isbn = {978-88-7484-380-0},
	abstract = {Increasing thermal loads, temperatures and pressures can be attractive to improve the efficiency
		and operational economy of power and process plants. With increasingly variable supply from
		renewable sources, however, thick-wall components and their materials like steels that may
		perform well under steady loads at high temperatures and pressures can be significantly
		challenged by the new regime of service. In addition, in high temperature plant the issue can
		arise also in the creep dominated base load case, when higher strength structural material is
		selected to limit section size, but other material and weldment properties intervene with
		complications from reduced creep ductility, unfavourable weld behaviour or less than optimal
		thermal properties. In this paper, we compare conventional and newer low and high alloy creep
		resistant steels in terms of expected and observed material properties and suitability for the
		changing modes of operation. Examples include the experience and suggested limitations in
		power plant application with e.g. welded T/P23 and T/P24 in comparison with conventional
		low alloy steels, and with newer and conventional austenitic steels
		},
	title = {CREEP PERFORMANCE OF STEELS FOR CHALLENGING APPLICATIONS},
	url = {http://eccc.c-s-m.it/},
	volume = {},
	number = {},
	journal = {},
	pages = {},
	issn = {},
	publisher = {CSM, Italy},
	doi = {}
}