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

• 研究課題/領域番号: 20K14808
• 研究種目: 若手研究
• 配分区分: 基金
• 審査区分: 小区分22020:構造工学および地震工学関連
• 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 – 2022-03-31
• 研究課題ステータス: 中途終了 (2021年度)
• 配分額: 4,030千円 (直接経費: 3,100千円、間接経費: 930千円); 2022年度: 1,040千円 (直接経費: 800千円、間接経費: 240千円); 2021年度: 2,080千円 (直接経費: 1,600千円、間接経費: 480千円); 2020年度: 910千円 (直接経費: 700千円、間接経費: 210千円)
• キーワード: UHPFRC / Fatigue / OSD / FEM / CT scan / Rehabilitation / Bridge deck

研究開始時の研究の概要

Step 1: Propose nonlinear degradation laws for UHPFRC.
Step 2: Develop accurate numerical model for analyzing UHPFRC structures by integrating the degradation laws into nonlinear FEM.
Step 3: Optimize rehabilitation scheme for real RC bridge decks numerically through nonlinear FE analyses.

研究実績の概要

1. Process experimental data of UHPFRC beams obtained from 4-point static flexural tests under different load speeds and ages as well as fatigue flexural tests under different stress levels.
2. Conduct FEA on the tested UHPFRC beams and fit the experimental data to obtain the material degradation law.
3. Investigate the tested specimens using NDT techniques, such as microscope and CT scan to uncover the degradation and failure mechanisms.
4. Analyze the fatigue performance of steel deck plate strengthened with UHPFRC overlay under dry and wet conditions using the degradation law obtained from Achievement 2.

研究成果

• [雑誌論文] Image Analysis for Deformation Behaviors of RC Beams with Simulated Deteriorations under Moving Wheel Load (2022)
  • 著者名/発表者名: Nagai Takamasa、Deng Pengru、Matsumoto Takashi
  • 雑誌名: Journal of Advanced Concrete Technology 巻: 20 号: 2 ページ: 85-102
  • DOI: 10.3151/jact.20.85
  • NAID: 130008159989
  • ISSN: 1346-8014, 1347-3913
  • 年月日: 2022-02-15
  • 査読あり / オープンアクセス
• [雑誌論文] Stress reduction effects of ultra-high performance fiber reinforced concrete overlaid steel bridge deck developed with a new interfacial bond method (2022)
  • 著者名/発表者名: Deng Pengru、Mi Hongji、Mitamura Hiroshi、Matsumoto Takashi
  • 雑誌名: Construction and Building Materials 巻: 328 ページ: 127104-127104
  • DOI: 10.1016/j.conbuildmat.2022.127104
  • 査読あり
• [雑誌論文] Fatigue analysis of a UHPFRC-OSD composite structure considering crack bridging and interfacial bond stiffness degradations (2021)
  • 著者名/発表者名: Ma Chi Hieu、Deng Pengru、Matsumoto Takashi
  • 雑誌名: Engineering Structures 巻: 249 ページ: 113330-113330
  • DOI: 10.1016/j.engstruct.2021.113330
  • 査読あり
• [雑誌論文] Weight function calculation method for analyzing mixed-mode shear cracks in reinforced concrete beams (2021)
  • 著者名/発表者名: Deng Pengru、Matsumoto Takashi
  • 雑誌名: Structures 巻: 33 ページ: 1327-1339
  • DOI: 10.1016/j.istruc.2021.05.020
  • 査読あり
• [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
  • 査読あり / 国際共著
• [学会発表] Microscopic observation of re-hydration crack closure in UHPFRC (2022)
  • 著者名/発表者名: Shinnosuke Odagawa, Pengru Deng, Takashi Matsumoto
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Preliminary study on the effects of fiber dispersion characteristics on the tensile strength of UHPFRC based on micromechanics (2022)
  • 著者名/発表者名: Hirotaka Arai, Takashi Matsumoto, Pengru Deng
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Evaluation of fiber dispersibility of UHPFRC by X-ray CT scan and image analysis (2022)
  • 著者名/発表者名: Ruka Sakai, Takashi Matsumoto, Pengru Deng
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Study on the fatigue behaviors of UHPFRC under four-point flexural fatigue experiment (2022)
  • 著者名/発表者名: Junya Kuwagaki, Pengru Deng, Takashi Matsumoto
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Fatigue analysis on the effects of UHPFRC overlay thickness in RC bridge slab repair (2022)
  • 著者名/発表者名: Hideharu Nishikawa, Pengru Deng, Takashi Matsumoto
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Fatigue analysis of UHPFRC-steel composite bridge deck considering self- healing behavior and fatigue life shortening of cracked UHPFRC under surface water condition (2022)
  • 著者名/発表者名: Chi Hieu Ma, Pengru Deng, Takashi Matsumoto
  • 学会等名: JSCE Hokkaido branch No. 78
• [学会発表] Fatigue flexural test of UHPFRC beam aiming at the material tensile behavior characterizations (2021)
  • 著者名/発表者名: Pengru Deng, Asyraf Khan, Junya Kuwagaki, Takashi Matsumoto, Shinpei Kikuchi
  • 学会等名: JSCE Annual Meeting 2021
• [学会発表] Experimental study about the effects of crack self-healing in UHPFRC on bending behaviors (2021)
  • 著者名/発表者名: Tsubaki Okuizumi, Pengru Deng, Takashi Matsumoto
  • 学会等名: JSCE Annual Meeting 2021
• [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