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Read on this site (8)
H. Mehrabi & B. Mintz. (1997) Influence of tempering on impact behaviour of quenched and tempered steels with low hardenability. Materials Science and Technology 13:12, pages 997-1006.
Read now
Read now
B. Mintz, A. Nassar & K. Adejolu. (1997) Influence of grain boundary films of martensite on strength and impact behaviour of ferrite. Materials Science and Technology 13:4, pages 313-318.
Read now
Read now
H. Xue & T. N. Baker. (1995) Mechanical properties of low carbon-vanadium microalloyed quenched and tempered steels vvith aluminium additions. Materials Science and Technology 11:9, pages 883-892.
Read now
Read now
N. Ridley, S. Maropoulos & J. D. H. Paul. (1994) Effects of heat treatment on microstructure and mechanical properties of Cr–Mo–3·5Ni–V steel. Materials Science and Technology 10:3, pages 239-249.
Read now
Read now
R. D. Knutsen. (1992) Influence of compositional banding on grain anisotropy in 3CR12 steel. Materials Science and Technology 8:7, pages 621-627.
Read now
Read now
Max Chazalon, Jean-Louis Boutard, Michael Ian Budd, Antonino Cardella, Wolfgang Dänner, Paul Dinner, Dain Evans, Markus Iseli, Bernard Libin, Frans Moons, Jos Nihoul, Marc A. Vassiliadis, Gottfried Vieider, Chung Hsiung Wu & Ezio Zolti. (1988) Next European Torus In-Vessel Components. Fusion Technology 14:1, pages 82-144.
Read now
Read now
D.R. Harries. (1987) The materials requirements for net. Radiation Effects 101:1-4, pages 3-19.
Read now
Read now
W. M. Garrison & J. M. Hyzak. (1986) Influence of swaging on hydrogen charged tensile fracture of a 12 wt-%Cr steel. Materials Science and Technology 2:8, pages 829-835.
Read now
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Articles from other publishers (43)
Wengang Zhai, Naien Wu & Wei Zhou. (2023) Laser metal deposition of low carbon 410L stainless steel and heat treatment. Materials Science and Engineering: A 872, pages 144987.
Crossref
Crossref
B. Deng, Z. Y. Hou, G. D. Wang & H. L. Yi. (2021) Toughness Improvement in a Novel Martensitic Stainless Steel Achieved by Quenching–Tempering and Partitioning. Metallurgical and Materials Transactions A 52:11, pages 4852-4864.
Crossref
Crossref
Erfan Abbasi, Quanshun Luo & Dave Owens. (2018) A comparison of microstructure and mechanical properties of low-alloy-medium-carbon steels after quench-hardening. Materials Science and Engineering: A 725, pages 65-75.
Crossref
Crossref
P. Fernández, J. Hoffmann, M. Rieth, M. Roldán & A. Gómez-Herrero. (2018) TEM characterization on new 9% Cr advanced steels thermomechanical treated after tempering. Journal of Nuclear Materials 500, pages 1-10.
Crossref
Crossref
Xingang Tao, Chuanwei Li, Lizhan Han & Jianfeng Gu. (2016) Microstructure evolution and mechanical properties of X12CrMoWVNbN10-1-1 steel during quenching and tempering process. Journal of Materials Research and Technology 5:1, pages 45-57.
Crossref
Crossref
I. Calliari, M. Zanesco, M. Dabalà, K. Brunelli & E. Ramous. (2008) Investigation of microstructure and properties of a Ni–Mo martensitic stainless steel. Materials & Design 29:1, pages 246-250.
Crossref
Crossref
F. Brain Pickering. 2006. Materials Science and Technology. Materials Science and Technology.
S Maropoulos, N Ridley & S Karagiannis. (2004) Structural variations in heat treated low alloy steel forgings. Materials Science and Engineering: A 380:1-2, pages 79-92.
Crossref
Crossref
N. H. Pryds & X. Huang. (2000) The effect of cooling rate on the microstructures formed during solidification of ferritic steel. Metallurgical and Materials Transactions A 31:12, pages 3155-3166.
Crossref
Crossref
R.L Klueh & D.J Alexander. (1998) Heat treatment effects on impact toughness of 9Cr–1MoVNb and 12Cr–1MoVW steels irradiated to 100 dpa. Journal of Nuclear Materials 258-263, pages 1269-1274.
Crossref
Crossref
A Alamo, J.C Brachet, A Castaing, C Lepoittevin & F Barcelo. (1998) Physical metallurgy and mechanical behaviour of FeCrWTaV low activation martensitic steels: Effects of chemical composition. Journal of Nuclear Materials 258-263, pages 1228-1235.
Crossref
Crossref
N. H. Pryds, S. Linderoth, A. S. Pedersen & E. Johnson. (1998) Microstructural investigation of a rapidly solidified 12Cr-Mo-V steel. Metallurgical and Materials Transactions A 29:1, pages 367-376.
Crossref
Crossref
B. Mintz. (1997) The influence of martensite on the strength and impact behavior of steel. Metallurgical and Materials Transactions A 28:10, pages 2073-2084.
Crossref
Crossref
N.H. Pryds & X. Huang. (1997) Planar colony of needle precipitates formed during solidification of a ferritic stainless steel. Scripta Materialia 36:11, pages 1219-1226.
Crossref
Crossref
R. Coppola, F. Fiori, E.A. Little & M. Magnani. (1997) A microstructural comparison of two nuclear-grade martensitic steels using small-angle neutron scattering. Journal of Nuclear Materials 245:2-3, pages 131-137.
Crossref
Crossref
Jae-Kyung Yi, Byong-Whi Lee & H.C. Kim. (1994) Micromagnetic nondestructive evaluation of isochronally tempered 12% CrMoV steel. Scripta Metallurgica et Materialia 30:3, pages 313-318.
Crossref
Crossref
R.G. Faulkner, E.A. Little & T.S. Morgan. (1992) Irradiation-induced grain and lath boundary segregation in ferritic-martensitic steels. Journal of Nuclear Materials 191-194, pages 858-861.
Crossref
Crossref
E.A. Little, D.J. Mazey & W. Hanks. (1991) Effects of ion irradiation on the microstructure of an oxide-dispersion-strengthened ferritic steel. Scripta Metallurgica et Materialia 25:5, pages 1115-1118.
Crossref
Crossref
R. D. Griffin, R. A. Dodd, G. L. Kulcinski & D. S. Gelles. (1990) The effect of tempering and aging on a low activation martensitic steel. Metallurgical Transactions A 21:7, pages 1853-1861.
Crossref
Crossref
Manfred Schirra & Kurt Anderko. (1990) Anomalies in creep-curves of martensitic 9-14% chromium steels under long-term loading. Steel Research 61:6, pages 242-250.
Crossref
Crossref
P.E. Grobler & R.J. Mostert. (1990) Experience in the laboratory and commercial development of abrasion-corrosion resistant steels for the mining industry. Wear 135:2, pages 339-354.
Crossref
Crossref
Y. Tsuchida, R. Yamaba, T. Chiba, K. Okamoto, K. Hashimoto, T. Ogawa & T. Takeda. 1989. Design & Analysis. Design & Analysis
1059
1066
.
G. Eggeler, J.C. Earthman, N. Nilsvang & B. Ilschner. (1989) Microstructural study of creep rupture in a 12% chromium ferritic steel. Acta Metallurgica 37:1, pages 49-60.
Crossref
Crossref
R.G. Faulkner, L. Schäfer, G.J. Adetunji & E.A. Little. (1988) Embrittlement processes in 1.4914 ferritic-martensitic steel. Journal of Nuclear Materials 155-157, pages 612-615.
Crossref
Crossref
Gunther Eggeler, Nicolas Nilsvang & Bernhard Ilschner. (1987) Microstructural changes in a 12% chromium steel during creep. Steel Research 58:2, pages 97-103.
Crossref
Crossref
C.K. Elliott, G.E. Lucas, R. Maiti & G.R. Odette. (1986) Microstructures of HT-9 as a function of heat treatment. Journal of Nuclear Materials 141-143, pages 439-443.
Crossref
Crossref
D.R. Harries & E. Zolti. (1986) Structural mechanics and material aspects of the Next European Torus. Nuclear Engineering and Design. Fusion 3:4, pages 331-344.
Crossref
Crossref
F.H. Huang. (1985) Fracture toughness of irradiated HT-9 for structural applications. Nuclear Engineering and Design 90:1, pages 13-23.
Crossref
Crossref
D.R. Harries, J.-M. Dupouy & C.H. Wu. (1985) Materials research and development for NET. Journal of Nuclear Materials 133-134, pages 25-31.
Crossref
Crossref
E. A. Little. (1985) Void swelling of ferritic steel during 1 MeV electron irradiation. physica status solidi (a) 87:2, pages 441-449.
Crossref
Crossref
Roy C. Wilcox & Bryan A. Chin. (1984) Austenitizing and microstructure of a HT-9 steel. Metallography 17:3, pages 285-298.
Crossref
Crossref
T.A. Lechtenberg & J.R. Foulds. (1984) The effect of preheat on the microstructure, hardness and toughness of HT-9 weldments. Journal of Nuclear Materials 122:1-3, pages 134-139.
Crossref
Crossref
P. Doig, D. J. Chastell & P. E. J. Flewitt. (1982) The stress corrosion susceptibility of a quenched and tempered 12 pct crmov martensitic stainless steel. Metallurgical Transactions A 13:5, pages 913-921.
Crossref
Crossref
Thomas Lechtenberg. (1981) The effect of microstructure on the mechanical properties of a commercial 12Cr-1Mo steel (HT-9). Journal of Nuclear Materials 104, pages 1133-1137.
Crossref
Crossref
John C. Lippold. (1981) Transformation and tempering behavior of 12Cr-1Mo-0.3V martensitic stainless steel weldments. Journal of Nuclear Materials 104, pages 1127-1131.
Crossref
Crossref
K. Anderko. (1980) Zur eignung warmfester vergütungsstähle mit 9 bis 12% chrom für komponenten im kern schneller reaktoren — ein überblick. Journal of Nuclear Materials 95:1-2, pages 31-43.
Crossref
Crossref
. (1997) On the swelling resistance of ferritic steel. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences 372:1751, pages 565-579.
Crossref
Crossref
Bruno Walser & Bruno Sonderegger. (1980) Die Optimierung der mechanischen Eigenschaften des Stahls X20Cr13 durch simulierende Wärmebehandlung. Archiv für das Eisenhüttenwesen 51:7, pages 313-316.
Crossref
Crossref
Ik-min PARK, Kentaro ASAKURA, Toshio FUJITA & Juro WATANABE. (1980) Creep Rupture Strength and Microstructure of Low Si-12Cr Heat Resisting Steel. Tetsu-to-Hagane 66:1, pages 82-91.
Crossref
Crossref
E.A. Little & D.A. Stow. (1979) Void-swelling in irons and ferritic steels. Journal of Nuclear Materials 87:1, pages 25-39.
Crossref
Crossref
E.A. Little. (1979) Void-swelling in irons and ferritic steels. Journal of Nuclear Materials 87:1, pages 11-24.
Crossref
Crossref
B. C. Edwards & E. A. Little. 1978. Ferritic steels for fast reactor steam generators. Ferritic steels for fast reactor steam generators
1: 145
150
.
E A *Little, D R *Harries & F B Pickering†. 1978. Ferritic steels for fast reactor steam generators. Ferritic steels for fast reactor steam generators
1: 136
144
.