Novel creep steel developed through innovative composition and thermal treatment

Lorena M. Callejo; José Ignacio Barbero; Mónica Serna-Ruiz; David Eguizabal; Bernaitz Arregi; Roberto Fernandez Martinez; Pello Jimbert; Beatriz Calleja-Saenz; Alejandra López

doi:10.1080/09603409.2021.1965765

Novel creep steel developed through innovative composition and thermal treatment

Lorena M. Callejo
, José Ignacio Barbero
, Mónica Serna-Ruiz
, David Eguizabal
, Bernaitz Arregi
, Roberto Fernandez Martinez
, Pello Jimbert
, Beatriz Calleja-Saenz
, Alejandra López

Tubacex Innovation

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The present investigation refers to the improvement of tensile properties, hardness, and creep resistance obtained from a high-chromium novel steel grade formulated by the combination of innovative steel composition and heat treatment. The novel steel grade has evolved from the P92 steel grade, and shows a better behaviour than that offered by the P92 steel grade, thus representing a promising metallurgical strategy for increasing the efficiency of power plants, and subsequently reducing the CO2 emissions.

Original language	English
Pages (from-to)	417-425
Number of pages	9
Journal	Materials at High Temperatures
Volume	unknown
Issue number	6
DOIs	https://doi.org/10.1080/09603409.2021.1965765
Publication status	Published - 2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

Martensitic steel
Nanoprecipitates
Thermal treatment design
Creep behaviour

Project and Funding Information

Funding Info
This work was supported by the Basque Government under the ELKARTEK_x000D_programme [KK-2018/00074]._x000D_The authors would like to thank the Institute of Physics of Materials of the_x000D_Academy of Sciences of the Czech Republic of Brno, for performing the creep_x000D_tests, and the University of Vancouver, for the assistance in the microstructural_x000D_study.

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10.1080/09603409.2021.1965765

Cite this

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title = "Novel creep steel developed through innovative composition and thermal treatment",

abstract = "The present investigation refers to the improvement of tensile properties, hardness, and creep resistance obtained from a high-chromium novel steel grade formulated by the combination of innovative steel composition and heat treatment. The novel steel grade has evolved from the P92 steel grade, and shows a better behaviour than that offered by the P92 steel grade, thus representing a promising metallurgical strategy for increasing the efficiency of power plants, and subsequently reducing the CO2 emissions.",

keywords = "Martensitic steel, Nanoprecipitates, Thermal treatment design, Creep behaviour, Martensitic steel, Nanoprecipitates, Thermal treatment design, Creep behaviour",

author = "Callejo, \{Lorena M.\} and Barbero, \{Jos{\'e} Ignacio\} and M{\'o}nica Serna-Ruiz and David Eguizabal and Bernaitz Arregi and \{Fernandez Martinez\}, Roberto and Pello Jimbert and Beatriz Calleja-Saenz and Alejandra L{\'o}pez",

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year = "2021",

doi = "10.1080/09603409.2021.1965765",

language = "English",

volume = "unknown",

pages = "417--425",

journal = "Materials at High Temperatures",

issn = "1878-6413",

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}

TY - JOUR

T1 - Novel creep steel developed through innovative composition and thermal treatment

AU - Callejo, Lorena M.

AU - Barbero, José Ignacio

AU - Serna-Ruiz, Mónica

AU - Eguizabal, David

AU - Arregi, Bernaitz

AU - Fernandez Martinez, Roberto

AU - Jimbert, Pello

AU - Calleja-Saenz, Beatriz

AU - López, Alejandra

PY - 2021

Y1 - 2021

N2 - The present investigation refers to the improvement of tensile properties, hardness, and creep resistance obtained from a high-chromium novel steel grade formulated by the combination of innovative steel composition and heat treatment. The novel steel grade has evolved from the P92 steel grade, and shows a better behaviour than that offered by the P92 steel grade, thus representing a promising metallurgical strategy for increasing the efficiency of power plants, and subsequently reducing the CO2 emissions.

AB - The present investigation refers to the improvement of tensile properties, hardness, and creep resistance obtained from a high-chromium novel steel grade formulated by the combination of innovative steel composition and heat treatment. The novel steel grade has evolved from the P92 steel grade, and shows a better behaviour than that offered by the P92 steel grade, thus representing a promising metallurgical strategy for increasing the efficiency of power plants, and subsequently reducing the CO2 emissions.

KW - Martensitic steel

KW - Nanoprecipitates

KW - Thermal treatment design

KW - Creep behaviour

KW - Martensitic steel

KW - Nanoprecipitates

KW - Thermal treatment design

KW - Creep behaviour

UR - https://www.scopus.com/pages/publications/85113482175

U2 - 10.1080/09603409.2021.1965765

DO - 10.1080/09603409.2021.1965765

M3 - Article

SN - 1878-6413

VL - unknown

SP - 417

EP - 425

JO - Materials at High Temperatures

JF - Materials at High Temperatures

IS - 6

ER -

Novel creep steel developed through innovative composition and thermal treatment

Abstract

UN SDGs

Keywords

Project and Funding Information

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