Published in North America by CRC Press LLC, 6000 Broken Sound
Parkway, NW, Suite 300, Boca Raton, FL 33487, USA
First published 2008, Woodhead Publishing Limited and CRC Press LLC
678 pages
Woodhead Publishing ISBN 978-1-84569-178-3 (book)
Woodhead Publishing ISBN 978-1-84569-401-2 (e-book)
CRC Press ISBN 978-1-4200-7088-0
CRC Press order number: WP7088
General
Introduction
The development of creep-resistant steels
Specifications for creep-resistant steels: Europe
Specifications for creep-resistant steels: Japan
Production of creep-resistant steels for turbines
Behaviour of creep-resistant steels
Physical and elastic behaviour of creep-resistant steels
Diffusion behaviour of creep-resistant steels
Fundamental aspects of creep deformation and deformation mechanism map
Strengthening mechanisms in steel for creep and creep rupture
Precipitation during heat treatment and service: characterization, simulation and strength contribution
Grain boundaries in creep-resistant steels
Fracture mechanism map and fundamental aspects of creep fracture
Mechanisms of creep deformation in steel
Constitutive equations for creep curves and predicting service life
Creep strain analysis for steel
Creep fatigue behaviour and crack growth of steels
Creep strength of welded joints of ferritic steels
Fracture mechanics: understanding in microdimensions
Mechanisms of oxidation and the influence of steam oxidation on service life of steam power plant components
Applications
Alloy design philosophy of creep-resistant steels
Using creep-resistant steels in turbines
Using creep-resistant steels in nuclear reactors
Creep damage – industry needs and future research and development
Index
First published 2008, Woodhead Publishing Limited and CRC Press LLC
678 pages
Woodhead Publishing ISBN 978-1-84569-178-3 (book)
Woodhead Publishing ISBN 978-1-84569-401-2 (e-book)
CRC Press ISBN 978-1-4200-7088-0
CRC Press order number: WP7088
General
Introduction
The development of creep-resistant steels
Specifications for creep-resistant steels: Europe
Specifications for creep-resistant steels: Japan
Production of creep-resistant steels for turbines
Behaviour of creep-resistant steels
Physical and elastic behaviour of creep-resistant steels
Diffusion behaviour of creep-resistant steels
Fundamental aspects of creep deformation and deformation mechanism map
Strengthening mechanisms in steel for creep and creep rupture
Precipitation during heat treatment and service: characterization, simulation and strength contribution
Grain boundaries in creep-resistant steels
Fracture mechanism map and fundamental aspects of creep fracture
Mechanisms of creep deformation in steel
Constitutive equations for creep curves and predicting service life
Creep strain analysis for steel
Creep fatigue behaviour and crack growth of steels
Creep strength of welded joints of ferritic steels
Fracture mechanics: understanding in microdimensions
Mechanisms of oxidation and the influence of steam oxidation on service life of steam power plant components
Applications
Alloy design philosophy of creep-resistant steels
Using creep-resistant steels in turbines
Using creep-resistant steels in nuclear reactors
Creep damage – industry needs and future research and development
Index