Development and application of a numerical model for fatigue performance assessment of UHPFRC-repaired RC bridge decks

2020 年度 実施状況報告書

• 研究課題/領域番号: 20K14808
• 研究機関: 北海道大学
• 研究代表者: DENG PENGRU 北海道大学, 工学研究院, 助教 (60825587)
• 研究期間 (年度): 2020-04-01 – 2023-03-31
• キーワード: UHPFRC / Fatigue / Bridge deck / FEM / Rehabilitation

研究実績の概要

Quasi-static 4-point flexural tests were conducted at the beginning (28 days), middle (90 days), and end (165 days) of the fatigue tests to get the static load capacity and age effects.
Static 4-point flexural tests were conducted under quasi-dynamic conditions of 60 mm/min and 400 mm/min to investigate the effects of strain rate.
Load controlled fatigue 4-point flexural tests were performed on 57 specimens under 6 fatigue loading levels, where a 3Hz sinusoidal cyclic loading was employed as this frequency is close to that on real bridge decks.
FEA of tested UHPFRC beams were conducted, where a fatigue degradation model was preliminarily proposed by fitting experimental S-N relation.

現在までの達成度 (区分)

2: おおむね順調に進展している

理由

According to the plan, the tasks of 2020 are conduct static and fatigue flexural tests on UHPFRC beams and then propose a material degradation law through fitting the experimental results numerically exploiting FEM. All of these works have been completed as listed in the “Summary of Research Achievements”.

今後の研究の推進方策

1. A large amount of data processing on the fatigue tests will be completed to get comprehensive structural behaviors.
2. Further investigations mainly aiming at figuring out the fiber distribution and orientation will be conducted to understand the static as well as fatigue structural behaviors from micromechanics.
3. A high-level technical article about the fatigue test results will be prepared and submitted to a well-recognized journal to share with the community.
4. A more comprehensive material degradation model will be developed and integrate into FEM to develop an accurate numerical model for analyzing UHPFRC structures. The model will then be consolidated, improved, and verified by analyzing the UHFPRC-repaired RC slabs which have been tested.

研究成果

• [雑誌論文] Fatigue analysis of partly damaged RC slabs repaired with overlaid UHPFRC (2020)
  • 著者名/発表者名: Deng, P. R.*, Kakuma, Ko., Mitamura, H., and Matsumoto, T.
  • 雑誌名: Structural Engineering and Mechanics 巻: 74(6) ページ: 19-32
  • DOI: 10.12989/sem.2020.75.1.019
  • 査読あり / 国際共著
• [学会発表] Fatigue tests of UHPFRC beams under four-point bending load (2021)
  • 著者名/発表者名: Khan, A., Deng, P., and Matsumoto, T.
  • 学会等名: JSCE Hokkaido branch
• [学会発表] Bridging stress degradation model of UHPFRC from numerically fitting fatigue flexural test results using FEA (2021)
  • 著者名/発表者名: Jimi, H., Matsumoto, T, and Deng, P.
  • 学会等名: JSCE Hokkaido branch
• [学会発表] Fatigue analysis of UHPFRC-steel composite deck considering crack bridging and interface bond degradations (2021)
  • 著者名/発表者名: Ma, C. H., Deng, P., and Matsumoto, T.
  • 学会等名: JSCE Hokkaido branch
• [学会発表] Influence of insufficient early-age strength of UHPFRC on rehabilitation of OSDs (2021)
  • 著者名/発表者名: Deng, P. R., Matsumoto, T., Kaminishi, H., and Gouda, Y.
  • 学会等名: Tenth International Conference on Bridge Maintenance, safety and Management
  • 国際学会
• [学会発表] Finite element analysis on the strengthening effect of the orthotropic steel decks with the UHPFRC overlay subjected to wheel-type loads (2021)
  • 著者名/発表者名: Ma, C. H., Deng, P. R., Ueda, K., Mitamura, H., and Matsumoto, T
  • 学会等名: Tenth International Conference on Bridge Maintenance, safety and Management
  • 国際学会