2(3)08
Nauka innov. 2006, 2(3):59-68
https://doi.org/10.15407/scin2.03.059
R. P. Didyk, V. YeE. Olishevska, G. S. Olishevsky
National Mining University, Dnipropetrovsk, Ukraine
Plastic Deformation and Growth of Fatigue Cracks in Laminated Metal Compositions Produced by Means of Explosion Welding
Section: Energy-Saving Technologies in Mining and Metallurgy, Fuel and Energy Complex of Ukraine
Language: Russian
Abstract: The experimental study of laminated materials showed that laminated compositions having definite relation of layers' physical and mechanical properties allow to increase the crack resistance under the conditions of multicycle loading.
Key words: laminated composite material, explosion welding, separation border, crack, crack resistance, kinetics of fatigue failure, mechanism of destruction.
References:
1. Ivanova V. S., Terent'ev V. F. Priroda ustalosti metallov. M.: Metallurgija, 1975 [in Russian].
2. Didyk R. P. Issledovanie vozmozhnosti ispol'zovanija vzryva dlja poluchenija bimetallicheskih i bislojnyh trub: Dis. kand. tehn. nauk. Dnepropetrovsk, 1965 [in Russian].
3. Zaharenko I. D. Svarka metallov vzryvom. Minsk: Navuka i tjehnika, 1990 [in Russian].
4. Kovalevskij V. N. Principy sozdanija jerozionnostojkih sloistyh kompozicionnyh materialov metodami impul'snogo nagruzhenija i tehnologija proizvodstva trub dlja izdelij novoj tehniki: Dis. d-ra tehn. nauk. Minsk, 1989 [in Russian].
5. Olishevskaja V. E. Issledovanie vjazkosti razrushenija sloistyh kompozicionnyh materialov. Naukovij visnik NGAU. 2001, 6:54–57 [in Russian].
6. Ivanova V. S. Razrushenie metallov. M.: Metallurgija, 1979 [in Russian].
7. Stat'ja na special'nuju temu. N. G. Minaev, V. N. Kovalevskij, V. D. Haritonov, G. I. Kiseleva. ZhOT. 1983, 9:12–17 [in Russian].
8. Mehanika razrushenija i prochnost' materialov: Sprav. posobie: V 4 t. Pod obshhej red. V. V. Panasjuka. Kyiv: Nauk. dumka, 1988 [in Russian].