Анализ параметров вибрационного поля города корреляционно-регрессионным методом
Аннотация
Ключевые слова
Полный текст:
PDFЛитература
Alimov S.G. 2006. Otsenka vliyaniya transportnoy vibratsii na konstruktsii zdaniy pamyatnikov arkhitektury. Na primere g. Vladivostoka
[Assessment of the impact of traffic vibration on building structures of heritage architecture. Example of Vladivostok]. Diss. kand. tekh. nauk. Vladivostok. (in Russian)
Borisov Ye.K., Alimov S.G., Usov A.G. 2007. Eksperimentalnaya dinamika sooruzheniy. Monitoring transportnoy vibratsii [Experimental dynamics of
structures. Monitoring of traffic vibration]. Petropavlovsk-Kamchatskiy, p. 128. (in Russian)
Vikhot A.N., Lyutoyev V.A. 2015. Ispolzovaniye geofizicheskikh metodov dlya obnaruzheniya oslablennykh zon Syktyvkara [Usage of geophysical
methods for revealing the hazardous sites of city of Syktyvkar]. Vest. Instituta geologii. 4:14–18. (in Russian)
GOST R ISO 14837-1-2007. Vibratsiya. Shum i vibratsiya, sozdavayemye dvizheniem relsovogo transporta. Chast 1. Obshcheye rukovodstvo [Vibration. Noise and vibration caused by railway transport. Part 1. General handbook]. Standartinform, Moskva, p. 35. (in Russian)
GOST R ISO 52892-2007. Vibratsiya i udar. Vibratsiya zdaniy. Izmereniye vibratsii i otsenka yeyo vozdeystviya na konstruktsiyu [Vibration and impact. Building vibration. Engineering vibration and estimation of its impact on the structures]. Izd. standartov. Moskva, p. 16. (in Russian)
Zhigalin A.D., Lokshin G.P. 1987. Formirovaniye vibratsionnogo polya v geologicheskoy srede [Vibration field formation in the geological environment]. Inzhenernaya geologiya. 3:86–92. (in Russian)
Kostarev S.A. 2004. Analiz vibratsiy, generiruyemykh liniyami metropolitena, i razrabotka kompleksa meropriyatiy po ikh snizheniyu [Analysis of vibrations generated by the subway lines and development of the mitigation measures for their decreasing]. Diss. Dr. tekh. nauk. Nizhniy Novgorod. (in Russian)
Kushnareva Ye.S. 2008. Ustoychivost vodonasyshchennykh peskov pri dinamicheskom vozdeystvii [Stability of the water-saturated sands under
dynamic impact]. Diss. kand. geol.-min. nauk. Moskva. (in Russian)
Lyutoyev V.A., Vikhot A.N. 2019. Vliyaniye opolznevykh protsessov i prirodno-tekhnogennoy mikroseysmichnosti na geologicheskuyu sredu goroda Syktyvkara [Influence of landslide processes and natural-technogenic microseismicity on the geological environment of city of Syktyvkar]. Syktyvkar, p. 84. (in Russian)
Lyutoyev V.A., Lyutoyeva N.V. 2016. Smeshannye sily, vliyayushchiye na aktivnost opolznevykh protsessov vdol zheleznodorozhnykh sklonov [Mixed forces controlling the activeness of landslide processes along the railroad slopes]. Uspekhi sovremennogo yestestvoznaniya. 4:145–
(in Russian)
Chernov Yu.T. 2006. Vibratsii stroitelnykh konstruktsiy [Vibration of the building structures]. Izd. ASV. Moskva, p. 288. (in Russian)
DIN 4150-3-2016. Erschütterungen im Bauwesen - Teil 3: Einwirkungen auf bauliche Anlagen. – Berlin. German Institute for Standardisation (Deutsches Institut für Normung), 2016, p. 20. (in German)
DOI: http://dx.doi.org/10.17072/psu.geol.20.1.49
Ссылки
- На текущий момент ссылки отсутствуют.