Vol. 15 No. 01 (2025): Journal of Materials & Construction
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JOURNAL OF MATERIALS & CONSTRUCTION

ISSN: 2734-9438

Website: www.jomc.vn

Calculation of anchor - steel beam structure support for adit at Vi Kem mine

Pham Van Vi , Le Thai Binh

Keywords:

Vi Kem mine
Anchor-steel frame
Rock mass
Analytic method
Numerical method

Abstract

When supporting the adit with a trapezoidal steel frame was applied at Vi Kem mine, the results showed that the rock mass was slightly compressed and moved on the steel frame at the adit crown. The rock mass on both sides of the adit had almost no displacement. Therefore, the anchor-steel beam structure was proposed to replace the trapezoidal steel frame structure. This structure replaces the trapezoidal steel support frame when the adit sides are stable to reduce the costs of materials and support labor, while helping to increase the speed of adit excavation. The subject of application is the adit along the seam and through the seam at Vi Kem mine. First, the paper classifies the rock mass, calculates the pressure acting on the adit crown according to Protodiakonov, and analyzes the wedge formed on the adit crown using numerical methods. Next, the calculation is made for the new anchor-steel beam structure suitable for the pressure at the adit crown. The construction results show the effectiveness of this new anchor-steel beam structure.

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How to Cite

Pham, V. V., & Le Thai Binh. (2025). Calculation of anchor - steel beam structure support for adit at Vi Kem mine. JOURNAL OF MATERIALS & CONSTRUCTION, 15(01), Page 112 – Page 116. https://doi.org/10.54772/jomc.v15i01.977

References

  1. Nguyễn Quang Phích (2007), Cơ học đá, Đại học Mỏ - Địa chất.
  2. Nghiêm Hữu Hạnh (2001), Cơ học đá, Đại học Xây Dựng Hà Nội.
  3. Ngô Đức Quyền (2017), Nghiên cứu lựa chọn kết cấu chống hợp lý cho các đường lò thuộc vùng than Quảng Ninh phục vụ công tác tư vấn thiết kế. Tập đoàn CN Than – Khoáng sản Việt Nam
  4. Võ Trọng Hùng (1999), Tối ưu hoá thiết kế xây dựng công trình ngầm và hệ thống công trình ngầm. Trường Đại học Mỏ-Địa chất
  5. Võ Trọng Hùng (1997), Công nghệ thi công công trình ngầm. Tập 1: Phần thi công đường lò bằng, lò nghiêng và hầm trạm. Nhà xuất bản Giao thông Vận tải, 1997
  6. Võ Trọng Hùng, Nguyễn Văn Đước (1997), Công nghệ xây dựng công trình ngầm trong mỏ T1- Nhà xuất bản Giao thông vận tải – Hà Nội
  7. Aksoy C.O. (2008), Review of rock mass rating classification: historical developments, applications, and restrictions, Journal of Mining Science, Vol. 44, No. 1
  8. Barton N.R., Lien R., Lunde I. (1974), Engineering classification of rock masses for the design of tunnel supports, Rock Mechanics, 6, No. 4
  9. Bieniawski Z.T. (1973), Engineering classification of jointed rock masses, Trans. South African Institute Civil Engineering, 15
  10. Bieniawski Z.T. (1974), Geomechanics classification of rock masses and its application in tunneling, in: Proceedings of the 3rd Conference of International Society of Rock Mechanics, Denver
  11. Bieniawski Z.T. (1978), Determining rock mass deformability: Experience from case histories, Int. J. Rock Mech. Min. Sci., 15
  12. Hoek E., and Brown E.T. (1980), Underground Excavations in Rock, Inst. of Mining and Metallurgy, Stephen Austin and Sons Ltd., London, 106
  13. Lauffer H. (1958), Gebirgsklassifizierung für den stullenbau, Geologie und Bauwesen, 24
  14. Chen L., Chen J., Li Y., Luo Y., Mu Y., Hu T., Wang C. (2021), Performance of tunnel feet-lock pipe (TFP) in sharing vertical foundation load, KSCE Journal of Civil Engineering., 25(3): 1086-1094.