Techno Press
Techno Press

Geomechanics and Engineering   Volume 11, Number 6, December 2016, pages 879-865
DOI: http://dx.doi.org/10.12989/gae.2016.11.6.879
 
Earth pressure on a vertical shaft considering the arching effect in c-Χ soil
In-Mo Lee, Do-Hoon Kim, Kyoung-Yul Kim and Seok-Won Lee

 
Abstract     [Full Text]
    A new earth pressure equation considering the arching effect in c-Χ soils was proposed for the accurate calculation of earth pressure on circular vertical shafts. The arching effect and the subsequent load recovery phenomenon occurring due to multi-step excavation were quantitatively investigated through laboratory tests. The new earth pressure equation was verified by comparing the test results with the earth pressures predicted by new equation in various soil conditions. Resulting from testing by using multi-step excavation, the arching effect and load recovery were clearly observed. The test results in c-Χ soil showed that even a small amount of cohesion can cause the earth pressure to decrease significantly. Therefore, predicting earth pressure without considering such cohesion can lead to overestimation of earth pressure. The test results in various ground conditions demonstrated that the newly proposed equation, which enables consideration of cohesion as appropriate, is the most reliable equation for predicting earth pressure in both Χ soil and c-Χ soil. The comparison of the theoretical equations with the field data measured on a real construction site also highlighted the best-fitness of the theoretical equation in predicting earth pressure.
 
Key Words
    active earth pressure; arching effect; vertical shaft; cohesion; wall friction
 
Address
(1) In-Mo Lee:
School of Civil, Environmental, and Architectural Engineering, Korea University, Seoul, Korea;
(2) Do-Hoon Kim:
Hyundai Eng. and Construction Co., Ltd., Seoul, Korea (former Ph.D. Student in Korea University);
(3) Kyoung-Yul Kim:
Korea Electric Power Research Institute, Deajeon, Korea;
(4) Seok-Won Lee:
Department of Civil and Environmental System Engineering, Konkuk University, Seoul, Korea.
 

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