Brittle fracture of high-strength steels in a calcium hydroxide solution
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Keywords
Calcium Hydroxide Brittle Brittle Fracture Hydroxide Solution
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Literature cited
- 1.S. I. Mikitishin, R. I. Petrivskii, G. M. Krasovskaya, et al., “Device for inducing and controlling an axisymmetric crack in cylindrical specimens,” Zavod. Lab., No. 12, 1521–1522 (1977).Google Scholar
- 2.R. I. Petrivskii, G. M. Krasovskaya, S. N. Alekseev, et al., “Effect of heat treatment and working media on the cracking of quenched-and-tempered steel 20GS2,” Fiz.-Khim. Mekh. Mater., No. 4, 45–48 (1975).Google Scholar
- 3.E. A. Budnitskaya and D. I. Leikis, “AC bridge for electrochemical studies,” Elektrokhimiya, No. 4, 501–503 (1966).Google Scholar
- 4.S. A. Golovanenko and V. N. Zikeev, “Effect of alloying elements and structures on the resistance of structural steels to hydrogen embrittlement,” Metalloved. Term. Obrab. Met., No. 1, 2–14 (1978).Google Scholar
- 5.P. Delahay, Double Layer and Electrode Kinetics, Wiley (1965).Google Scholar
- 6.P. A. Rebinder and E. K. Venstrem, “Electrocapillary effect in reducing the hardness of metals,” Zh. Fiz. Khim., No. 1, 1–4 (1945).Google Scholar
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© Plenum Publishing Corporation 1979