Effect of Hammer Impact on Wave Propagation Characteristics of Soil

IF 0.5 Q4 ENGINEERING, GEOLOGICAL
V. Jayakrishnan, S BeenaK, G UnniKartha, J. Vinod
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引用次数: 0

Abstract

Wave transmission through soil due to dynamic load causes many problems to civil engineers craving safe construction. In this article, a laboratory model study is conducted to investigate the vibration propagation characteristics of soil due to the falling masses at different depths. Different types of impact, soils, and relative densities are used to study the characteristics of vibration transmission and energy dissipation. It was found that the increase in relative density and decrease in the depth causes an increase in the Peak Particle Acceleration and wave velocity of soil. An attempt is also made to determine the dynamic properties of soil using wave velocity ratios. A simple laboratory arrangement discussed here can be used to predict the wave propagation in soil reasonably and can determine its elastic constants. From the studies, it was revealed that the wave travel in soil and the peak particle acceleration depends on many factors like density, particle gradation, impact energy, etc.
锤击对土壤波传播特性的影响
动荷载作用下的波浪在土体中的传播给土木工程人员带来了许多安全施工问题。本文通过室内模型研究了土体在不同深度下落质量作用下的振动传播特性。采用不同的冲击类型、不同的土体和不同的相对密度来研究其振动传递和能量耗散特性。结果表明,随着相对密度的增大和深度的减小,土体颗粒加速度峰值和波速均增大。本文还尝试用波速比来确定土的动力特性。本文讨论的一种简单的实验室布置可以合理地预测波在土壤中的传播,并可以确定其弹性常数。研究表明,土中波的传播和颗粒加速度峰值受密度、颗粒级配、冲击能等因素的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.90
自引率
25.00%
发文量
11
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