Tunnel and Underground Space (터널과지하공간)

Korean Society for Rock Mechanics and Rock Engineering (한국암반공학회)
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Compression Test of a TBM Thrust Jack for Validating Buckling Stability

TBM 추진잭의 좌굴 안정성 검토를 위한 압축시험

  • Received : 2023.09.25
  • Accepted : 2023.10.05
  • Published : 2023.10.31
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Abstract

As the jacks provide a thrust force on the inclined surface, bending deformations by a side force occur in the pedestal and rod parts. This can induce disorder or degradation of the thrust module, buckling stability on the inclined compression condition should be clarified to secure the reliability of shield TBM. For analyzing the stability, a buckling testing method for hydraulic cylinder was investigated and compression testing system was installed. Before the test, a numerical analysis was conducted to check the stress concentration parts. The maximum allowable force was loaded on the cylinder specimen at 0 degree surface condition as a preliminary test. After the test, plastic deformations or hydraulic leakage was not observed. The static stability of it was verified at 0 degree condition.

TBM 추진잭이 경사면에 접촉하거나 편심하중이 발생할 때 추진잭의 페데스탈 및 로드 부위에 횡하중에 의한 휨변형이 발생할 수 있다. 이는 추진잭 모듈의 고장을 유발할 우려가 있으므로, 추진잭 모듈 전체에 대한 좌굴 안정성을 검증할 필요가 있다. 본 연구는 추진잭 좌굴 안정성 분석을 위한 좌굴 압축시험방법을 조사하고, 압축시험 시스템을 구성하였다. 추진잭의 전체 부품을 모델링하여 수치해석을 통해 응력집중 파트를 분석하였다. 경사도 0도 조건에서 최대하중을 가압하여 압축시험을 수행하였다. 로드의 변형과 씰의 누유는 관측되지 않아서 0도 조건에서 추진잭의 좌굴 안정성을 검증하였다.

Keywords

Acknowledgement

본 연구는 2023년도 국토교통부(국토교통과학기술진흥원)의 'TBM 굴진향상을 위한 연속굴착 기술개발(RS-2022-00144188)' 사업을 통해 수행되었습니다.

References

  1. Korea Testing certification Institute(KTC), 2015, Group Standard, Hydraulic Cylinders, 2015, SPS-KTC-B6370-6288
  2. Choi, Y.T., Lee, D.G., Kim, M.G., Oh, J.Y., and Cho, J.W., 2022, Continuous Excavation Type TBM Parts Modification and Control Technology for Improving TBM Performance, Tunnel & Underground Space, 32(6), 345-352.
  3. KAIA(Korea Agency for Infrastructure Technology Advancement), 2022, Consecutive Excavation Technological Development Project of Tunnel Boring Machine (Host organization: Korea University Research Institute Company).
  4. Wehrmeyer, G., 2022, Herrenknecht Pioneering Underground Technologies Semi-Continuous Advance, Online seminar of consecutive TBM project (June, 2022).