Determine attenuation coefficients of saturated sand from standard penetration test, applied to Nhon Hoi economic zone

  • Cơ quan:

    1 Hanoi University of Mining and Geology, Hanoi, Vietnam
    2 HCMC University of Technology, Ho Chi Minh City, Vietnam

  • *Tác giả liên hệ:
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  • Nhận bài: 31-10-2023
  • Sửa xong: 03-03-2024
  • Chấp nhận: 21-03-2024
  • Ngày đăng: 01-04-2024
Trang: 1 - 9
Lượt xem: 791
Lượt tải: 13
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Tóm tắt:

Vietnam is located in a strong earthquake zone with many areas having a ground acceleration (ag) of greater than 0.08 g (TCVN 9386:2012). According to Vietnamese standard TCVN 9386:2012, the calculation and design of construction grade III or higher in areas where have ground acceleration ag ≥ 0.08 g must include seismic design. In calculations of earthquake-resistant pile foundation, the bearing capacity of the pile including the tip resistance strength (qb) and endurance strength (fi) need to be multiplied by attenuation coefficients (geq1 and geq2). They are the most important parameters and depend on the soil types, saturation conditions, and earthquake intensity. The article introduces a method to determine the attenuation coefficients according to the standard TCVN 10304:2014. In addition, analyzing the theoretical basis to give the expression to determine attenuation coefficients based on the durability factor (Ired) and pore water pressure ratio (Ru) of saturated sand under the earthquakes. Furthermore, the paper presents a method to determine Ru from the results of standard penetration test (SPT) by combining the method of Seed and Alba (1986) with the method of Marcuson and Hynes (1990). In which, Seed and Alba's method was used to determine factor of safety against liquefaction (FSL), and then Marcuson and Hynes' method was used to determine Ru from FSL. The application in Nhon Hoi Economic Zone shows that: The silty fine grained sand, which is medium dense and saturated, has a attenuation coefficient of tip resistance geq1 = 0.74÷0.76 and attenuation coefficient of friction geq2 = 0.90; The fine grained sand, which is dense and saturated, has geq1 = 0.79÷0.82 and geq2 = 0.94. 

Trích dẫn
Phong Van Nguyen và Ngoc Ba Thai, 2024. Determine attenuation coefficients of saturated sand from standard penetration test, applied to Nhon Hoi economic zone, Tạp chí Khoa học kỹ thuật Mỏ - Địa chất, số 65, kỳ 2, tr. 1-9.
Tài liệu tham khảo

Al-Karni, A. A., (2001). Shear strength reduction due to excess pore water pressure. In Proceedings of the 4th International Conferences on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics: San Diego, CA (pp. 1-2).

Central Geological Federation, (2006). The geological and mineral map of Binh Dinh province, 2006.

Marcuson, W. F., and Hynes, M. E., (1990). Stability of slopes and embankments during earthquakes. American Society of Civil Engineers. 

Nguyen, V. P., Bui, D. T., Tran, N. Q., (2020). Assessment of pore-water pressure ratio effects on wind turbinefoundation in Soc Trang coastal area. Earthu Sciences and Natural Resources for Sustainable Development 2020 (ERSD 2020) (in Vietnamese).

Seed, H. B., and Idriss, I. M. (1971). Simplified procedure for evaluating soil liquefaction potential. Journal of the Soil Mechanics and Foundations division97(9), 1249-1273.

Seed, H. B., and Alba, D. P., (1986). Use of SPT and CPT tests for evaluating the liquefaction resistance of sands. In Use of in situ tests in geotechnical engineering (pp. 281-302). ASCE.

TCVN 10304:2014, (2014). Pile foundation - Design standards. National standards.

TCVN 9386:2012, (2012). Design of earthquake resistant buildings. National standards.

TCVN 9351:2012, (2012). Construction soil – Field test method – Standard penetration test (SPT). National standards

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