Redirigiendo al acceso original de articulo en 18 segundos...
ARTÍCULO
TITULO

Forecasting a moisture mode of the drainage layer in a road structure under the action of loading

Vyacheslav Savenko    
Alina Kvatadze    
Oleksandr Davydenko    
Vitalii Stozhka    
Leonid Ianchuk    

Resumen

The processes forming the humidity mode of the drainage layer of a road structure under the action of excess load have been investigated. The stressed-strained state was determined based on a numerical experiment using the software-calculation suite SCAD Office. The numerical modeling of the examined structure involved the static load of the ?2 group for a road of category II. A series of numerical experiments were performed, which included an increase in the rated load by 10?50 % when overwetting the drainage layer and the earth bed. The distribution of the isofields and isolines of normal stresses and deformations in the volumetric elements was derived, which made it possible to determine the thickness of the soil layer of the earth bed, 0.67 m, from which water is squeezed out under the influence of excess loading.Based on the approach for determining the parameters of soil subsidence at its drying or freezing, the dependences were established for the relative subsidence of soil, the coefficients of linear subsidence and compaction of soil under the influence of excess load. The proposed dependences integrate such indicators as the deformation below a drainage layer, the depth of stress spread, at which water is not squeezed out from soil, the optimum humidity, and the full moisture content of the soil.Based on the results of numerical experiments and soil subsidence parameters, the amount of water squeezed out from a layer of soil under the influence of excess load has been determined, which is 5.4 liters per m2. The results obtained make it possible to adjust the value of the total specific excess water flowing into a drainage structure. Taking into consideration the squeezing out of water from an earth bed from a soil layer under the influence of excess load from a wheel of 86.25 kN, the general specific excess could vary in the range from 35.4 to 22.4 liters per 1 m2. Increasing it by 18?32 % would change the humidity mode of the road bed and reduce the overall elasticity module

 Artículos similares

       
 
Sergii Boichenko,Stepan Zubenko,Sergii Konovalov,Anna Yakovlieva     Pág. 42 - 49
Unrefined Camelina oil was transesterified on an alkaline catalyst with the application of commercial fuel ethanol of high hygroscopicity. It was shown that the rise of moisture content in alcohol up to 1 % leads to the low output of ethyl esters. T... ver más

 
Guangyuan Kan, Guoqiang Tang, Yuan Yang, Yang Hong, Jiren Li, Liuqian Ding, Xiaoyan He, Ke Liang, Lian He, Zhansheng Li, Youbing Hu and Yaokui Cui    
The coupled routing and excess storage (CREST) distributed hydrological model has been applied regionally and globally for years. With the development of remote sensing, requirements for data assimilation and integration have become new challenges for th... ver más
Revista: Water

 
Ram L. Ray, Ali Fares, Yiping He, Marouane Temimi     Pág. 1 - 22
The main goal of this study was to evaluate four major remote sensing soil moisture (SM) products over the state of Texas. These remote sensing products are: (i) the Advanced Microwave Scanning Radiometer?Earth Observing System (AMSR-E) (2002?September 2... ver más
Revista: Water

 
Wooyeon Sunwoo, Minha Choi     Pág. 1 - 20
Runoff prediction in limited-data areas is vital for hydrological applications, such as the design of infrastructure and flood defenses, runoff forecasting, and water management. Rainfall?runoff models may be useful for simulation of runoff generation, p... ver más
Revista: Water

 
Franziska Koch, Florian Schlenz, Monika Prasch, Florian Appel, Tobias Ruf, Wolfram Mauser     Pág. 1 - 22
Soil moisture (SM) is a highly relevant variable for agriculture, the emergence of floods and a key variable in the global energy and water cycle. In the last years, several satellite missions have been launched especially to derive large-scale products ... ver más
Revista: Water