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References
Hemsworth W, Boniszewski T, Eaton NF (1969) Classification and definition of high temperature welding cracks in alloys. Metal Construction and British Welding Journal 1, N25:5–16
Ramires AI, Lippold JC (2004) High temperature behavior of Ni-base weld metal, part II – Insight into the mechanism for ductility dip cracking: Materials Science and Engineering, A380, pp 245–258
Matsuda F, Nakagawa H, Ogata S, Katayama S (1978) Fractographic Investigation on Solidification Crack in the Varestraint Test of Fully Austenitic Stainless Steel: Studies on Fractography of Welded Zone (III), Transactions of JWRT 7, W1, pp 59–70
Yushchenko KA, Savchenko VS, Starushchenko TM (2004) The Role of Segregation of Oxygen in Welding Alloys of the INVAR Type. Hot Cracking Phenomena in Welds, Berlin, pp 59–70
Rogberg B (1983) An Investigation on the Hot Ductility of Steels by Performing Tensile Test on “in Situ Solidified” Samples. Scandinavian Journal of Metallurgy 12:51–66
Radhakrishnan B, Thompson RG (1993) Kinetics of Grain Growth in the Weld Heat - Affectd Zone of Alloy 718: Metallurgical Trans A 24A, pp 2773–2785
Slyško P (1988) Decrease of plasticity in the range of critical recrystallization temperature of fcc metals (in Czech). 2:129–146
Horikava K, Kuramoto S, Kauno M (2000) Sources at a trade amount at sodium, and its effect on hot ductility an Al-5 mass%Mg alloy: Light Metals Review, vol 7, pp 18–23
Riecke E (1978) Wasserstoff in Eisen und Staul. Archiv für das Eiseuhüttenwesen 11:509–520
Ekobori I (1971) Physics and mechanics of fracture and strength of solid bodies (in Russian). J Metallurgiya 1071:264
Okrainets PH, Pishchak VK (1978) Stress dependence of creep rate for metals with fcc lattice (in Russian). J Fizika Metallov I Metallovedeniye 46, Issue 3:597–602
Sklenièka V, Saxl I, Ğadek I (1983) The role of grain boundaries in deformation and fracture at high temperatures (in Czech). Kovove materaly 4, vol 21, pp 364–382
Yushchenko KA, Makhnenko VI, Savchenko VS, Velikoivanenko EA, Chervyakov NO (2006) Investigation Of Thermal-Deformation State Of Welded Joints In Stable-AusteniticSteels And Nickel Alloys. IIW Doc.IX-2224-06
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Yushchenko, K., Savchenko, V. (2008). Classification and Mechanisms of Cracking in Welding High-Alloy Steels and Nickel Alloys in Brittle Temperature Ranges. In: Böllinghaus, T., Herold, H., Cross, C.E., Lippold, J.C. (eds) Hot Cracking Phenomena in Welds II. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-78628-3_6
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DOI: https://doi.org/10.1007/978-3-540-78628-3_6
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