Основания, фундаменты и механика грунтов

Исследуется работа многорядных свайных барьеров в связных грунтах на динамическую нагрузку с учетом реологических свойств грунта. Такие барьеры используются для гашения колебаний и замедления распространения волн в грунте в гражданском и транспортном строительстве. В качестве реологической модели грунта принята вязкоупругая модель, которая реализуется методом переменных деформационных характеристик. Решение задачи основано на использовании теории многократного рассеяния.

Полный текст статьи публикуется в английской версии журнала
«Soil Mechanics and Foundation Engineering”, Vol.60, No.1

Naghibi F, Fenton GA, Griffiths DV. Prediction of pile settlement in an elastic soil. Comput Geotech 2014;60: 29-32.

Sitharam TG, Sebastian R, Fazil F. Vibration isolation of buildings housed with sensitive equipment using open trenches-case study and numerical simulations. Soil Dynam Earthq Eng 2018; 115: 344-51.

Coulier P, Cuéllar V, Degrande G, et al. Experimental and numerical evaluation of the effectiveness of a stiff wave barrier in the soil. Soil Dynam Earthq Eng 2015;77:238–53.

Pu XB, Shi ZF. Surface-wave attenuation by periodic pile barriers in layered soils. Constr Build Mater 2018;180:177–87.

Xia TD, Sun MM, Chen C, Chen WY, Ping X. Analysis on multiple scattering by an arbitrary configuration of piles as barriers for vibration isolation. Soil Dyn Earthq Eng 2011;31: 535–45.

Liang JW, Han B, Todorovska MI, Trifunac MD. 2D dynamic structure-soil-structure interaction for twin buildings in layered half-space II: Incident SV-waves. Soil Dyn Earthq Eng 2018; 113: 356-90.

Bayat M, Andersen LV, Ibsen LB, Clausen J. Influence of pore water in the seabed on dynamic response of offshore wind turbines on monopoles. Soil Dyn Earthq Eng 2017; 100: 233-48.

Shi ZF, Wen YG, Meng QJ. Propagation attenuation of plane waves in saturated soil by pile barriers. Int J Geomech 2017;17: 04017053.

Meng LK, Cheng ZB, Shi ZF. Vibration mitigation in saturated soil by periodic in-filled pipe pile barriers. Comput Geotech 2020; 124: 103633.

Cheng YC, Ai, ZY. Consolidation analysis of transversely isotropic layered saturated soils in the Cartesian coordinate system by extended precise integration method. Appl Math Model 2016; 40 (4), 2692-2704.

Ai ZY, Zhao YZ, Cheng YC. Time-dependent response of laterally loaded piles and pile groups embedded in transversely isotropic saturated viscoelastic soils. Comput Geotech 2020; 128: 103815.

Wu TT, Huang ZG, Lin S. Surface and bulk acoustic waves in two-dimensional phononic crystal consisting of materials with general anisotropy. Phys Rev B 2004; 69: 094301.

Yan ZZ, Wang YS, Zhang C. Wavelet method for calculating the defect states of two-dimensional phononic crystals. Acta Mech Solida Sin 2008; 21: 104-109.

Sigalas MM, García N. Importance of coupling between longitudinal and transverse components for the creation of acoustic band gaps: The aluminum in mercury case. Appl Phys Lett 2000; 76: 2307-2309.

Pao YH, Mao CC. Diffffraction of Elastic Waves and Dynamic Stress Concentration. UK: Adam Hilger; 1973.

Huang JK, Shi ZF. Application of periodic theory to rows of piles for horizontal vibration attenuation. Int J Geomech 2013; 13:132-142.