ISSN: 2734-9438
Website: www.jomc.vn
Influence of neighboring building on horizontal displacement of deep excavation diaphragm wall
Abstract
The Plaxis model is built based on the finite element method, the application of this method to calculate and simulate geotechnical problems is based on the integration in the Morh-Coulomb and Hardening Soil foundation models, and some other models to evaluate the reliability of the problems. This study has proposed a model area limit when analyzing deep excavations using Plaxis software, the model area limit depends on the excavation width, excavation depth and length of the diaphragm wall. Research on the influence of the model area limit on the results of horizontal displacement analysis of the diaphragm wall shows that once the model area limit has reached a reasonable size, expanding the model area limit has a negligible effect on the results of horizontal displacement analysis of the diaphragm wall in the excavation. With the specific nature of geotechnical works and complex terrain, construction on weak soil and checking the safety of construction methods are really necessary issues and need to be studied. This study also considers the horizontal displacement of the diaphragm wall at the heights: -1.8m, -5.2m, -8.7m when considering the influence of neighboring structures with the height of the structure being 1 floor, 2 floors, 6 floors and 9 floors for the case with and without consolidation load.
References
- . Ke, N. B. (2009). Design and construction of deep foundations. Construction Publishing House.
- . Ke, N. B. (2010). Lessons from the collapse of the Southern Institute of Social Sciences in Ho Chi Minh City. Journal of building science and technology, (3), tr. 49–57.
- . Tu, P. Q, Toan, N. N. (2020). Risk analysis in construction of deep excavation. Journal of Science and Technology in Civil Engineering, 14(5V), Pp. 101–117. DOI: 10.31814/stce.nuce2020-14(5V)-09
- . Nghia, D. T. (2020). Design and construction of deep foundations. Thuy Loi University Publishing House.
- . Minh, N. B. (2015). Some lessons learned in high-rise building basement construction in Vinh Long. Master's thesis in engineering, Hanoi Architectural University.
- . K. Terzaghi, R. B. Peck, G. Mesri, Soil Mechanics in Engineering Practice, John Wiley & Sons, Third edition, 1996
- . T. W. Lambe, R. V. Whitman, Soil Mechanics, John Wiley & Sons, 1970
- . Anders Kullingsjo (2007). Effects of deep excavations in soft clay on the immediate surroundings, Doctoral thesis. Chalmers University of Technology
- . Clough G. W., and O’Rourke T. D. (1990), Construction Induced movements of in situ walls, Proc., Design and Performance of Earth Retaining Structure, Geotechnical Special Publication No. 25, ASCE, New York, Pp. 439-470.
- . Viet, L. H. (2013), Research on calculating stability and deformation of deep excavation works on water-saturated weak clay soil, No. 10, (9/2013), Pp. 24-33.
- . Huan, N. V. P., Tam, N. M., Ngoc, T. T. (2019). Analysis of deformation and stability of ground during excavation construction atdistrict 5, Ho Chi Minh city. Journal of Construction, No. 5, Pp. 191-195.
- . Trung, N.T., Danh, T. T. (2023) Factors affecting the displacement of the diaphragm wall of a deep excavation constructed by Bottom-up method in Ho Chi Minh City. Journal of Construction, No. 11, Pp. 120-126
- . Qui, L. N., & Hanh, T. T. M. (2023). Study on methods to evaluate the stability of deep excavation bottom in pressured aquifer condition. CTU Journal of Science, 59, Pp. 279-285. DOI: 10.22144/ctu.jvn.2023.054