THE UNIVERSITY OF TOKYO SCHOOL OF ENGINEERING BME Lab.

研究実績

Review paper publication list

論文リスト

論文リスト

Review paper publication list

2024

  1. Mardani, Alieh, Bui, Ngoc Kien and Noguchi, Takafumi: Hybrid Environmentally Friendly Method for Rca Concrete Quality Improvement, International Journal of Concrete Structures and Materials, http://dx.doi.org/10.2139/ssrn.4370460, 2024
  2. O.H. Dayoung, Takafumi Noguchi, Yutaka Aikawa, Ryoma Kitagaki: Proposal of a formula for estimating the tensile strength of solidification with arbitrary particle size distribution, Powder Technology, 119449, ISSN 0032-5910, https://doi.org/10.1016/j.powtec.2024.119449, 2024
  3. Xukun Sun, Hideki Yoshioka, Takafumi Noguchi, Yuhei Nishio, Yoshifumi Ohmiya, Tetsuya Hayakawa, Biao Zhou: Large eddy simulations fire modeling of JIS A 1310 façade calibration test with respect to sidewall, Fire and Materials, pp.1-15, https://doi.org/10.1002/fam.3192, 2024

2023

  1. Zajac, I. Maruyama, A. Iizuka, J. Skibsted, Enforced carbonation of cementitious materials, Cem. Concr. Res. 174 (2023) 107285. https://doi.org/10.1016/j.cemconres.2023.107285.
  2. Kim, H., Yang, S., Noguchi, T., Yoon, S: Assessment of Structural Performance of Rebar Corroded Reinforced Concrete Beam Members, Preprints 2023, 2023090435, https://doi.org/10.20944/preprints202309.0435.v1, 2023
  3. Srimook, I. Maruyama, Energy-based approach to predict thermal cracking characteristics of a massive RC member subjected to external restraint from its bottom, Journal of Building Engineering. 76 (2023) 107339. https://doi.org/10.1016/j.jobe.2023.107339.
  4. Maruyama, A. Meawad, T. Kondo, S. Sawada, P. Halodova, A. Fedorikova, T. Ohkubo, K. Murakami, T. Igari, E.T. Rodriguez, K. Maekawa, K. Suzuki, Radiation-induced alteration of sandstone concrete aggregate, J. Nucl. Mater. 583 (2023) 154547.?https://doi.org/10.1016/j.jnucmat.2023.154547.
  5. Cheng, I. Maruyama, A Prediction Method for the Corrosion Rate of Steel Rebar in Carbonated Mortar under Variable Environmental Conditions, J. Adv. Concr. Technol. 21 (2023) 611?630.?https://doi.org/10.3151/jact.21.611.
  6. Kambayashi, I. Maruyama, O. Kontani, S. Sawada, T. Ohkubo, K. Murakami, K. Suzuki, Impact of Radiation-induced Expansion of Aggregate on Structural Performance of Hollow Cylindrical RC Member, J. Adv. Concr. Technol. 21 (2023) 536?554.?https://doi.org/10.3151/jact.21.536.
  7. Kambayashi, I. Maruyama, O. Kontani, S. Sawada, T. Ohkubo, K. Murakami, K. Suzuki, Tension stiffening affected by radiation-induced volume expansion of aggregate, J. Adv. Concr. Technol. 21 (2023) 351?366.?https://doi.org/10.3151/jact.21.351.
  8. Maekawa, W. Wang, H. Samouh, S. Ishikawa, O. Kontani, T. Ohkubo, K. Murakami, K. Suzuki, I. Maruyama, Micro- and macro-scale mechanical properties of meta-cherts as concrete aggregates, J. Adv. Concr. Technol. 21 (2023) 284?293.?https://doi.org/10.3151/jact.21.284.
  9. Aili, I. Maruyama, M. Vandamme, Thermal expansion of cement paste at various relative humidities after long-term drying: Experiments and modeling, J. Adv. Concr. Technol. 21 (2023) 151?165.?https://doi.org/10.3151/jact.21.151.
  10. K. Bui, R. Kurihara, W. Wang, M. Kanematsu, H. Hyodo, M. Takano, H. Hirao, T. Noguchi, I. Maruyama, Wet-carbonation-based mineral extraction and CO2 sequestration using concrete waste fines at a low temperature, J. Adv. Concr. Technol. 21 (2023) 166?188.?https://doi.org/10.3151/jact.21.166.
  11. Qiyue Mao, Xuansu Zhao, Akiko Kiriyama, Shigeru Negi, Yasutaka Fukuda, Hideki Yoshioka, Akira T. Kawaguchi, Roberto Motterlini, Roberta Foresti, and Hiroaki Kitagishi,A synthetic porphyrin as an effective dual antidote against carbon monoxide and cyanide poisoning, Proceedings of the National Academy of Sciences of the United States of America (PNAS) Vol. 120, No. 9 (2023)?DOI: 10.1073/pnas.2209924120.
  12. Wenwei Fu, Bochao Sun, Takafumi Noguchi, Weijian Zhao, Jun Ye: Prediction of internal relative humidity of concrete under different thermal conditions using an enhanced long short-term memory network, Thermal Science and Engineering Progress, https://doi.org/10.1016/j.tsep.2022.101629, Volume 38, Article 101629, 2023
  13. 佐伯直彦,Cheng Luge, 栗原諒,丸山一平, 真空乾燥処理におけるセメント硬化体内の水分の経時変化,コンクリート工学年次論文集, Vol.45, No.1,pp.10-15, 2023.7
  14. 前川昂輝,杉本宙威,丸山一平,鉱物粒子サイズの挙動に着目した微小骨材試験体の直接引張試験,コンクリート工学年次論文集, Vol.45, No.1,pp.40-45, 2023.7
  15. 杉本宙威,丸山一平,Srimook Puttipong, 前川昂輝,乾燥によるモルタルのせん断強度変化がコンクリートの力学的性質変化に及ぼす影響,コンクリート工学年次論文集, Vol.45, No.1,pp.196-201, 2023.7
  16. 瀬川実暉,五十嵐豪,Aili Abudushalamu, 丸山一平,フライアッシュを混和したセメント硬化体の乾燥収集性状,コンクリート工学年次論文集, Vol.45, No.1,pp.232-237, 2023.7
  17. 伊神竜生,Aili Abudushalamu, 五十嵐豪,丸山一平,セメント硬化体の炭酸化とそれに伴う微細構造変化に及ぼすCO2濃度および初期含水率の影響,コンクリート工学年次論文集, Vol.45, No.1,pp.268-273, 2023.7
  18. Luge Cheng, Naohiko Saeki, Ryo Kurihara, Ippei Maruyama, Study on carbonation progress in hardened cement paste associated with moisture penetration, Proceedings of JCI, Vol. 45, No.1, pp.436-441, 2023.7
  19. Kim Suji, Aili Abudushalamu, 五十嵐豪,丸山一平,X線CR画像と画像相関法を用いたコンクリートの水分移動の影響評価,コンクリート工学年次論文集,Vol.45,No.1, pp.460-465, 2023.7
  20. Puttipong Srimook, Ippei Maruyama, Sou Sugimoto, Numerical study on deterioration of seismic performance of massive RC wall due to restrained shrinkage cracking, Proceedings of JCI, Vol. 45, No.1, pp.910-915, 2023.7
  21. Qingsong Zhou, Wei Wang, Ippei Maruyama, Takafumi Noguchi, Aragonite precipitation and microstructural development in recycled concrete fines (RCFs)-based calcium carbonate concrete (CCC), Proceedings of JCI, Vol. 45, No.1, pp.1678-1683, 2023.7

2022

  1. Maruyama, T. Kondo, S. Sawada, P. Halodova, A. Fedorikova, T. Ohkubo, K. Murakami, T. Igari, E.T. Rodriguez, K. Suzuki, Radiation-induced Alteration of Meta-chert, J. Adv. Concr. Technol. 20 (2022) 760?776.?https://doi.org/10.3151/jact.20.760.
  2. K. Bui, R. Kurihara, W. Kotaka, H. Hyodo, M. Takano, M. Kanematsu, T. Noguchi, I. Maruyama, Effects of Particle Size Distribution on the Performance of Calcium Carbonate Concrete, J. Adv. Concr. Technol. 20 (2022) 691?702.?https://doi.org/10.3151/jact.20.691.
  3. Maruyama, H. Sugimoto, S. Umeki, R. Kurihara, Effect of fineness of cement on drying shrinkage, Cem. Concr. Res. 161 (2022) 106961.?https://doi.org/10.1016/j.cemconres.2022.106961.
  4. Segawa, A. Aili, I. Maruyama, Comparison of shrinkage and mass change of hardened cement paste under gradual drying and rapid drying, CEMENT. 10 (2022) 100047.?https://doi.org/10.1016/j.cement.2022.100047.
  5. Srimook, I. Maruyama, K. Shibuya, S. Tomita, Evaluation of thermal crack width and crack spacing in massive reinforced concrete structures subject to external restraints using RBSM, Eng. Fract. Mech. 274 (2022) 108800.?https://doi.org/10.1016/j.engfracmech.2022.108800.
  6. Aili, I. Maruyama, G. Geng, S. Umeki, K. Sumitani, S. Sawada, S. Ueda, Y. Umeki, Micro X-ray diffraction and elemental study on Al-tobermorite formation in aged modern concrete, J. Am. Ceram. Soc. 105 (2022) 6924?6937.?https://doi.org/10.1111/jace.18624.
  7. Maruyama, Impact of drying on concrete and concrete structures, RILEM Tech. Lett. 7 (2022) 1?11.?https://doi.org/10.21809/rilemtechlett.2022.154.
  8. Kurihara, I. Maruyama, Surface area development of Portland cement paste during hydration : Direct comparison with?1H NMR relaxometry and water vapor / nitrogen sorption, Cem. Concr. Res. 157 (2022) 106805.?https://doi.org/10.1016/j.cemconres.2022.106805.
  9. Wang, T. Noguchi, I. Maruyama, Mitigation effect of lithium nitrate on the alkali-silica reaction in alkali-activated slag mortars, Cem. Concr. Compos. 130 (2022) 104532.?doi:10.1016/j.cemconcomp.2022.104532.
  10. Kurihara, I. Maruyama, Revisiting Tennis-Jennings method to quantify low-density / high-density calcium silicate hydrates in Portland cement pastes, Cem. Concr. Res. 156 (2022) 106786.?https://doi:10.1016/j.cemconres.2022.106786.
  11. Maruyama, T. Fujimaki, R. Kurihara, G. Igarashi, T. Ohkubo, Surface area changes in C3S paste during the first drying analyzed by 1H NMR relaxometry, Cem. Concr. Res. 156 (2022) 106762.?https://doi.org/10.1016/j.cemconres.2022.106762.
  12. Wang, T. Noguchi, I. Maruyama, Mechanism understanding of alkali-silica reaction in alkali- activated materials system, Cem. Concr. Res. 156 (2022) 106768.?https://doi.org/10.1016/j.cemconres.2022.106768.
  13. Asai, M. Teshigawara, K. Yoshikawa, K. Kusunoki, E. Inai, T. Nagae, I. Maruyama, K. Kajiwara, J. Sakuta, T. Ohta, H. Suwada, F. Hiroshi, Yield displacement evaluation of RC buildings examined based on shaking table test, J. Struct. Constr. Eng. (Transactions AIJ). 87 (2022) 464?474.?https://doi.org/10.3130/aijs.87.464
  14. Biao Zhou, Hideki Yoshioka, Manabu Kanematsu, and Takafumi Noguchi, Numerical and Experimental Study of Cedar Facade Fire, Fire and Materials, Vol. 120, No. 9 (2022)?DOI: 10.1002/fam.2983
  15. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, Xukun Sun, and Kai Wang, Influence of the temperature of inflow air on the vertical temperature distribution of window spill fire plume, Journal of Building Engineering (2022)?DOI:0.1016/j.jobe.2022.104322
  16. Srimook, P., & Maruyama, I. (2022). Simulation of anomalous liquid water uptake in OPC mortar with dynamic microstructure change model.?Cement Science and Concrete Technology,?76(1), 349?355.?https://doi.org/10.14250/cement.76.349
  17. Segawa, M., Aili, A., & Maruyama, I. (2022). Study on drying shrikage properties of low heat Portland cement paste.?Cement Science and Concrete Technology,?76(1), 153?161.?https://doi.org/10.14250/cement.76.153
  18. Igami, R., Goto, S., & Maruyama, I. (2022). Raman spectroscopic study of carbonation of cement paste under wet condition with different CO2?concentrations.?Cement Science and Concrete Technology,?76(1), 45?52.?https://doi.org/10.14250/cement.76.45
  19. Saeki, N., Kurihara, R., & Maruyama, I. (2022). Effect of RH on carbonation of hardened cement paste particles under general atomospheric CO2?concentration studied by FTIR spectroscopy.?Cement Science and Concrete Technology,?76(1), 36?44.https://doi.org/10.14250/cement.76.36
  20. Bochao Sun, Weijian Zhao, Gaochuang Cai, Takafumi Noguchi, Wei Wang: A novel strength prediction model of mortars with different types of cement and SCMs, Structural Concrete, https://doi.org/10.1002/suco.202000430, Vol.23, Issue 2, pp. 1214-1225, 2022
  21. 梅木翔太,丸山一平, k-meansクラスター分析を用いたSEM-EDSマップのセグメンテーション手法の開発, コンクリート工学年次論文集, Vol.44 No.1,pp. 40-45, 2022.7
  22. Aili Abudushalamu,丸山一平,栗原諒,梅木翔太, セメント硬化体の熱膨張における相対湿度の影響, コンクリート工学年次論文集, Vol.44 No.1,pp. 46-51, 2022.7
  23. 前川昂輝,神林大輔,王偉,丸山一平, 画像相関法を用いた熱変性凝灰岩の引張ヤング率の推定, コンクリート工学年次論文集, Vol.44 No.1,pp. 76-81, 2022.7
  24. 王偉,丸山一平, 神林大輔, Hamza SAMOUH, Image basis estimation of the coefficient of thermal expansion of concrete aggregate, コンクリート工学年次論文集, Vol.44 No.1, pp. 82-87, 2022.7
  25. 任玉琦, Luge CHENG, 丸山一平, Fundamental study on filler effect of volcanic glass powder, コンクリート工学年次論文集, Vol.44 No.1,pp. 118-123, 2022.7
  26. 瀬川実暉,梅木翔太,Aili Abudushalamu,丸山一平, セメント硬化体の体積表面積比の違いが質量変化と乾燥収縮ひずみに及ぼす影響, コンクリート工学年次論文集, Vol.44 No.1,pp. 262-267, 2022.7
  27. 後藤壮,丸山一平, 顕微ラマン分光法を用いた実環境下におけるセメント水和物の炭酸化に関する検討, コンクリート工学年次論文集, Vol.44 No.1,pp. 412-417, 2022.7
  28. Luge CHENG, Yuqi REN, 丸山一平, Effect of relative humidity on corrosion of steel in carbonated slag-based mortar, コンクリート工学年次論文集, Vol.44 No.1, pp. 706-711, 2022.7
  29. 佐伯直彦,丸山一平, 炭酸マグネシウムを結合材とした火星上で製造可能な新材料の提案, コンクリート工学年次論文集, Vol.44 No.1,pp. 1648-1653, 2022.7
  30. 神林大輔,丸山一平, ガンマ線発熱による温度上昇が円筒構造物の構造性能に与える影響, コンクリート工学年次論文集, Vol.44 No.1,pp. 109-114, 2022.7
  31. 友寄篤、九冨恵一、大野元寛、今川晃一:規格外瓦と麻スサを用いた3Dプリンティングモルタルのフレッシュ性状と自立安定性に関する検討、コンクリート工学年次論文集、Vol.44、No.1、pp. 1582-1587、2022.7
  32. 大黒屋悠太、金志訓、友寄篤、谷口円:北海道産火山ガラス微粉末の添加がコンクリートの耐久性および水和・ポゾラン反応に及ぼす影響、コンクリート工学年次論文集Vol.44、No.1、pp. 160-165、2022.7
  33. 秋山五郎、平野修也、西祐宜、友寄篤:コンクリート用火山ガラス微粉末を用いたフレッシュモルタルのレオロジー特性に関する一考察、コンクリート工学年次論文集Vol.44、No.1、pp. 166-171、2022.7

2021

  1. Samouh, S. Ishikawa, O. Kontani, K. Murakami, S. Nishimoto, K. Suzuki, I. Maruyama, Thermomechanical behavior of granite under 150 °C: experimental and numerical analysis, Mater. Struct. 2021 546. 54 (2021) 1?16. doi:10.1617/S11527-021-01830-7.
  2. Tomita, K. Haga, Y. Hosokawa, K. Yamada, G. Igarashi, I. Maruyama, Modeling of the Adsorption Behavior of Cs and Sr on Calcium Silicate Hydrates, J. Adv. Concr. Technol. 19 (2021) 1061?1074. doi:10.3151/JACT.19.1061.
  3. Maruyama, W. Kotaka, B.N. Kien, R. Kurihara, M. Kanematsu, H. Hyodo, H. Hirao, R. Kitagaki, M. Tamura, M. Tsujino, S. Fujimoto, T. Noguchi, A New Concept of Calcium Carbonate Concrete using Demolished Concrete and CO2, J. Adv. Concr. Technol. 19 (2021) 1052?1060. doi:10.3151/jact.19.1052.
  4. Ryme?, I. Maruyama, A. Aili, Time-dependent water vapor desorption isotherm model of hardened cement paste, Cem. Concr. Res. 150 (2021) 106612. doi:10.1016/j.cemconres.2021.106612.
  5. Igarashi, K. Haga, K. Yamada, H. Aihara, A. Shibata, Y. Koma, I. Maruyama, General Overview of the Research Project Investigating the Radionuclide Solution Behavior in Mock Mortar Matrix Modeled after Conditions at the Fukushima-Daiichi Nuclear Power Station, J. Adv. Concr. Technol. 19 (2021) 950?976. doi:10.3151/JACT.19.950.
  6. J.A. Qomi, L. Brochard, T. Honorio, I. Maruyamad, M. Vandamme, Advances in atomistic modeling and understanding of drying shrinkage in cementitious materials, Cem. Concr. Res. 148 (2021) 106536. https://doi.org/10.1016/J.CEMCONRES.2021.106536.
  7. Yamada, G. Igarashi, N. Osawa, R. Kiran, K. Haga, S. Tomita, I. Maruyama, Experimental Study Investigating the Effects of Concrete Conditions on the Penetration Behaviors of Cs and Sr at Low Concentration Ranges, J. Adv. Concr. Technol. 19 (2021) 756?770. https://doi.org/10.3151/jact.19.756.
  8. Maruyama, N. Kishi, A. Aili, The Relative Humidity Range for the Development of Irreversible Shrinkage in Hardened Cement Paste, J. Adv. Concr. Technol. 19 (2021) 585?592. https://doi.org/10.3151/jact.19.585.
  9. Samouh, S. Nishimoto, H. Yoshida, S. Sawada, O. Kontani, K. Suzuki, I. Maruyama, Modal Analysis of Rock Forming Minerals : Contribution of XRD / Rietveld Analysis Compared to the Classic Point Counting Method, J. Adv. Concr. Technol. 19 (2021) 395?413.
  10. Kojima, T. Kodama, C. Jin, I. Maruyama, Benchmark Finite Element Calculations for ASCET Phase III on a Reinforced-Concrete Shear Wall Affected by Alkali-Aggregate Reaction, J. Adv. Concr. Technol. 19 (2021) 280?300.
  11. Dianchao Wang, Takafumi Noguchi, Takahito Nozaki, Yasuhide Higo: Investigation on the fast carbon dioxide sequestration speed of cement-based materials at 300ºC~700ºC, Construction and Building Materials, Vol.291, https://doi.org/10.1016/j.conbuildmat.2021.123392, 2021
  12. Satya, T. Asai, M. Teshigawara, Y. Hibino, I. Maruyama, Impact of Drying on Structural Performance of Reinforced Concrete Beam with Slab, Materials (Basel). 14 (2021) 1887.
  13. Maruyama, G. Igarashi, K. Matsui, N. Sakamoto, Hinderance of C-S-H sheet piling during first drying using a shrinkage reducing agent: A SAXS study, Cem. Concr. Res. 144 (2021) 106429.
  14. Kiran, H. Samouh, A. Matsuda, G. Igarashi, S. Tomita, K. Yamada, I. Maruyama, Water Uptake in OPC and FAC Mortars under Different Temperature Conditions, J. Adv. Concr. Technol. 19 (2021) 168?180.
  15. Cheng, I. Maruyama, Y. Ren, Novel Accelerated Test Method for RH Dependency of Steel Corrosion in Carbonated Mortar, J. Adv. Concr. Technol. 19 (2021) 207?215.
  16. Sasano, I. Maruyama, Mechanism of drying-induced change in the physical properties of concrete: A mesoscale simulation study, Cem. Concr. Res. 143 (2021) 106401.
  17. Rahoui, H., Maruyama, I., Vandamme, M., Pereira, J.-M. and Mosquet, M., (2021). “Impact of an SRA (hexylene glycol) on irreversible drying shrinkage and pore solution properties of cement pastes.” Cement and Concrete Research, 143, 106227.
  18. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, Kai Wang, and Xinyan Huang, Fire Performance of EPS ETICS Facade: Effect of Test Scale and Masonry Cover, Fire Technology (2021), DOI: 10.1007/s10694-021-01195-x
  19. Hideki Yoshioka, Takafumi Noguchi, Kyoichi Kobayashi, Manabu Kanematsu, Tatsuo Ando, Sanjay Pareek, and Tetsuya Hayakawa, “Development of a New Intermediate-scale Box Test on Sandwich Panel Products Compared with ISO 13784-1 Room Test and EN 13501-1 Classification System”, Fire and Materials, May 2021, (DOI: 10.1002/fam.2984)
  20. Bochao Sun, Takafumi Noguchi, Gaochuang Cai, Weijian Zhao: Effect of temperature and relative humidity on the development of the compressive strength of surface-layer cement mortar, Construction and Building Materials, Volume 281, https://doi.org/10.1016/j.conbuildmat.2021.122626, 2021
  21. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, and Kai Wang, “Experimental study of time-averaged upward fire propagation speed of expanded polystyrene external thermal insulation composite systems masonry facade”, Fire and Materials, Volume 45, Issue 2, pp.193-204, March 2021, (DOI: 10.1002/fam.2923)
  22. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, Kai Wang, and Xinyan Huang, “Upward Fire Spread Rate Over Real-Scale EPS ETICS Facades”, Fire Technology, March 2021, (DOI: 10.1007/s10694-021-01103-3).
  23. Dianchao Wang, Takafumi Noguchi, Takahito Nozaki, Yasuhide Higo: Investigation of the carbonation performance of cement-based materials under high temperatures, Construction and Building Materials, Vol.272, No.22, https://doi.org/10.1016/j.conbuildmat.2020.121634, 2021
  24. Ren, I. Maruyama, A. Tomoyose, R.Kurihara, Effect of temperature on the hydration of ordinary portland cement and the pozzolanic reaction of volcanic glass powder, Cement Science and Concrete Technology, Vol.75, 2021, pp.166-173
  25. Cheng, I. Maruyama, Effect of relative humidity and temperature on steel corrosion rate in chloride contaminated mortar, Cement Science and Concrete Technology, Vol.75, 2021, pp.225-232
  26. 梅木翔太, 丸山一平, フライアッシュセメント硬化体のポゾラン反応に伴う微細構造変化,セメント・コンクリート論文集,Vol.75, 2021, pp.105-112
  27. 後藤壮, 梅木翔太, 栗原諒, 丸山一平, 窒素吸着による処女乾燥・再吸湿過程におけるOPC・LPC ペーストの空隙構造変化の差異, セメント・コンクリート論文集, Vol.75, 2021, pp.144-151
  28. 瀬川実暉, 後藤壮, 栗原諒, 丸山一平, 長期間の調湿による低熱ポルトランドセメントを用いたセメント硬化体の空隙構造変化に関する検討,セメント・コンクリート論文集,Vol.75, 2021, pp.152-159
  29. 大野拓也, 三谷裕二, 丸山一平, 一般環境下におけるコンクリートの収縮予測に関する検討, セメント・コンクリート論文集,Vol.75, 2021, pp.202-209
  30. 瀬川実暉,後藤壮,栗原諒,丸山一平,長期間の調湿による低熱ポルトランドセメントを用いた硬化セメントペーストの空隙構造変化, コンクリート工学年次論文集, Vol.43 No.1,pp. 35-40, 2021.7
  31. Yuqi REN,Ippei MARUYAMA,Atsushi TOMOYOSE, Shota UMEKI, Fundermental research on estimation of compressive strength of hardened cement paste mixed with volcanic glass powder, コンクリート工学年次論文集, Vol.43 No.1,pp. 167-172, 2021.7
  32. 梅木翔太,神林大輔,Hamza Samouh,丸山一平, 微細構造分析によるフライアッシュの強度発言メカニズムに関する評価, コンクリート工学年次論文集, Vol.43 No.1,pp. 239-244, 2021.7
  33. So GOTO,Shota UMEKI,Ryo KURIHARA,Ippei MARUYAMA, Evaluation of pore structure distribution in opc-hpc during first drying and re-humidifying processes by nytrogen sorption, コンクリート工学年次論文集, Vol.43 No.1,pp. 287-292, 2021.7
  34. Luge CHENG, Ippei MARUYAMA, Evaluation of electrical resistivity of carbonated mortar under different rh conditions, コンクリート工学年次論文集, Vol.43 No.1,pp. 485-490, 2021.7
  35. Daisuke KAMBAYASHI, Shota UMEKI,Hamza SAMOUH,Ippei MARUYAMA, Mechanical property evaluation of hollow-cylindrical concrete specimen designed for neutron irradiation experiment by RBSM, コンクリート工学年次論文集, Vol.43 No.1,pp. 491-495, 2021.7
  36. Wei WANG, Takafumi NOGUCHI,Ippei MARUYAMA,Atsushi TOMOYOSE,Comparison of alkali-silica reactivity between portland cement and alkali-activated slag mortars subjected to accelerated mortar bar test, コンクリート工学年次論文集, Vol.43 No.1,pp. 652-657, 2021.7
  37. 友寄篤、袖山研一、谷口円、野口貴文:北海道産火山灰を原料とした火山ガラス微粉末に関する基礎的研究、コンクリート工学年次論文集、Vol.43、No.1、pp.143-148、2021.7

2020

  1. Luu, V. N., Murakami, K., Samouh, H., Maruyama, I., Ohkubo, T., Tom, P. P., Chen, L., Kano, S., Yang, H., Abe, H., Suzuki, K. and Suzuki, M., (2020). “Changes in properties of alpha-quartz and feldspars under 3 MeV Si-ion irradiation.” Journal of Nuclear Materials, 152734.
  2. Aili, I. Maruyama, Review of Several Experimental Methods for Characterization of Micro- and Nano-Scale Pores in Cement-Based Material, Int. J. Concr. Struct. Mater. 14 (2020) 55. doi:10.1186/s40069-020-00431-y.
  3. Maruyama, J. Ryme?, A. Aili, S. Sawada, O. Kontani, S. Ueda, R. Shimamoto, Long-term use of modern Portland cement concrete: The impact of Al-tobermorite formation, Mater. Des. 198 (2021) 109297. doi:10.1016/j.matdes.2020.109297.
  4. Sasano, I. Maruyama, S. Sawada, T. Ohkubo, K. Murakami, K. Suzuki, Meso-Scale Modelling of the Mechanical Properties of Concrete Affected by Radiation-Induced Aggregate Expansion, J. Adv. Concr. Technol. 18 (2020) 648?677. doi:10.3151/jact.18.648.
  5. Kambayashi, H. Sasano, S. Sawada, K. Suzuki, I. Maruyama, Numerical Analysis of a Concrete Biological Shielding Wall under Neutron Irradiation by 3D RBSM, J. Adv. Concr. Technol. 18 (2020) 618?632. doi:10.3151/jact.18.618.
  6. Kiran, H. Samouh, G. Igarash, T. Haji, T. Ohkubo, S. Tomita, I. Maruyama, Temperature-Dependent Water Redistribution from Large Pores to Fine Pores after Water Uptake in Hardened Cement Paste, J. Adv. Concr. Technol. 18 (2020) 588?599. doi:10.3151/jact.18.588.
  7. Maruyama, T. Ohkubo, T. Haji, R. Kurihara, Reply to Zhou et al.’s “A discussion of the paper ‘Dynamic microstructural evaluation of hardened cement paste during first drying monitored by 1H NMR relaxometry,’” Cem. Concr. Res. 137 (2020) 106219. doi:10.1016/J.CEMCONRES.2020.106219.
  8. Bochao Sun, Takafumi Noguchi, Gaochuang Cai, Qingkai Chen: Prediction of early compressive strength of mortars at different curing temperature and relative humidity by a modified maturity method, Structural Concrete, https://doi.org/10.1002/suco.202000041, 2020
  9. Wei Wang, Takafumi Noguchi: Alkali-silica reaction (ASR) in the alkali-activated cement (AAC) system: A state-of-the-art review, Construction and Building Materials, Vol.252, https://doi.org/10.1016/j.conbuildmat.2020.119105, 2020
  10. Nagao, K. Kobayashi, Y. Jin, I. Maruyama, T. Hibino, Ionic conductive and photocatalytic properties of cementitious materials: calcium silicate hydrate and calcium aluminoferrite, J. Mater. Chem. A. (2020) 15157?15166. doi:10.1039/D0TA04866F.
  11. N. Luu, K. Murakami, H. Samouh, I. Maruyama, K. Suzuki, P. Prak Tom, L. Chen, S. Kano, H. Yang, H. Abe, M. Suzuki, Swelling of alpha-quartz induced by MeV ions irradiation: Critical dose and swelling mechanism, J. Nucl. Mater. 539 (2020) 152266. doi:10.1016/j.jnucmat.2020.152266.
  12. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, and Kai Wang, “Experimental study on vertical temperature profile of EPS external thermal insulation composite systems masonry facade fire according to JIS A 1310 method”, Fire and Materials, July 2020, (DOI: 10.1002/fam.2880).
  13. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, and Tatsuo Ando,“Experimental study on vertical temperature profile of buoyant window spill plume from intermediate‐scale compartments”, Fire and Materials, Volume 44, Issue 4, pp. 516-529, June 2020, (DOI: 10.1002/fam.2923).
  14. Tomoyose, A., Noguchi, T., Sodeyama, K. Higashi: Concrete with high-purity volcanic glass fine powder manufactured from pyroclastic deposit, SN Applied Sciences, 2, 851, https://doi.org/10.1007/s42452-020-2614-6, 2020
  15. Tetsushi Miyoshi, Ryoma Kitagaki and Takafumi Noguchi: Agent-Based Modeling of Super-Long-Term Maintenance Processes for RC Building Groups: Stochastic Study of Risks of Building Groups by Super-Long-Term Combined Deterioration Part 2, Japan Architectural Review, Vol.3, No.3, pp307-317, 2020, doi: 10.1002/2475-8876.12149
  16. Hongseop Kim, Gyuyong Kim, Sangkyu Lee, Gyeongcheol Choe, Jeongsoo Nam, Takafumi Noguchi and Viktor Mechtcherin: Effects of strain rate on the tensile behavior of cementitious composites made with amorphous metallic fiber, Cement and Concrete Composites, Volume 108, https://doi.org/10.1016/j.cemconcomp.2020.103519, 2020
  17. Suwanmaneechot, A. Aili, I. Maruyama, Creep behavior of C-S-H under different drying relative humidities: Interpretation of microindentation tests and sorption measurements by multi-scale analysis, Cem. Concr. Res. 132 (2020) 106036. doi:10.1016/j.cemconres.2020.106036.
  18. Hideki Yoshioka, Keisuke Himoto, and Koji Kagiya, “Large Urban Fires in Japan: History and Management”, Fire Technology, Volume 56, pp.1885?1901, 2020. (DOI: 10.1007/s10694-020-00960-8).
  19. Mohamed A.B. Omer and Takafumi Noguchi: A conceptual framework for understanding the contribution of building materials in the achievement of Sustainable Development Goals (SDGs), Sustainable Cities and Society, Vol.52, https://doi.org/10.1016/j.scs.2019.101869, 2020
  20. 梅木翔太, 藤牧哲也, 横内有貴, 丸山一平:若材齢の早期脱型によるモルタル中の乾燥と水和反応の分布に関する研究─X線CRを用いた水分逸散の可視化と含水率の評価─,セメント・コンクリート論文集,Vol. 74, No. 1, 2020,pp. 82-89
  21. 梅木翔太, 藤牧哲也, 横内有貴, 丸山一平:若材齢の早期脱型によるモルタル中の乾燥と水和反応の分布に関する研究─モルタル中の水分移動に伴う相対湿度・含水率・水和反応の関係─,セメント・コンクリート論文集,Vol. 74, No. 1, 2020, pp. 90-97
  22. Piyapong Suwanmaneechot, Abudushalamu Aili , 丸山一平, Alteration on of pore structure in cement paste under different drying states by nitrogen sorption, コンクリート工学年次論文集, Vol.42 No.1,pp. 11-16, 2020.7
  23. 常川晃輝, 栗原諒,丸山一平, Fundamental study on formation of zeolite from reaction between albite and portlandite, コンクリート工学年次論文集, Vol.42 No.1,pp. 41-46, 2020.7
  24. 安藤零, Piyapong Suwanmaneechot, 丸山一平, 乾燥が高炉スラグ微粉末を混和させたセメントペーストの物性に及ぼす影響の検討, コンクリート工学年次論文集, Vol.42 No.1,pp. 101-106, 2020.7
  25. 梅木翔太,丸山一平,フライアッシュセメント硬化体の圧縮強度推定に関する基礎的研究, コンクリート工学年次論文集, Vol.42 No.1,pp. 257-262, 2020.7
  26. 大野拓也, 三谷裕二, 丸山一平,膨張材・収縮低減剤を用いたコンクリート内部の水分移動特性および収縮特性に関する検討, コンクリート工学年次論文集, Vol.42 No.1,pp. 317-322, 2020.7
  27. 五十嵐豪, 丸山一平, 石田哲也, 拡張BET理論から得られる異なる温度における第一脱着性状, コンクリート工学年次論文集, Vol.42 No.1,pp. 401-406, 2020.7
  28. 山田一夫, Rohith Kiran, 丸山一平, 富田さゆり, Impact of concrete characteristics on the cs transfer in concrete, コンクリート工学年次論文集, Vol.42 No.1,pp. 413-418, 2020.7
  29. 神林大輔, 篠野宏, Hamza Samouh, 丸山一平, Effect of aggregate expansion by neutron irradiation on concrete biological shield wall, コンクリート工学年次論文集, Vol.42 No.1,pp. 551-556, 2020.7
  30. 藤牧哲也, 丸山一平, 大竹淑江, 水田真紀, 中性子画像とX線画像によるモルタル吸水試験の比較評価, コンクリート工学年次論文集, Vol.42 No.1,pp. 1642-1647, 2020.7
  31. Pranjal Satya, 浅井竜也, 勅使川原正臣, 丸山一平, Experimental study to evaluate yielding point of a reinforced concrete beam with slab, コンクリート工学年次論文集, Vol.42 No.1,pp. 211-216, 2020.7
  32. 友寄篤、野口貴文、袖山研一、東和朗:火山ガラス微粉末利用による環境負荷低減に関する研究、コンクリート工学年次論文集、Vol.42、No.1、pp.137-142、2020.7

2019

  1. Kurihara, I. Maruyama, Effects of heating and drying on the strength and stiffness of high-early-strength Portland cement pastes, Cem. Concr. Compos. (2019) 103455. doi:10.1016/J.CEMCONCOMP.2019.103455.
  2. Ishikawa, I. Maruyama, M. Takizawa, J. Etoh, O. Kontani, S. Sawada, Hydrogen Production and the Stability of Hardened Cement Paste under Gamma Irradiation, J. Adv. Concr. Technol. 17 (2019) 673?685, doi:10.3151/jact.17.673
  3. Hongseop Kim, Gyuyong Kim, Sangkyu Lee, Gyeongcheol Choe, Takafumi Noguchi and Jeongsoo Nam: Direct tensile behavior of amorphous metallic fiber-reinforced cementitious composites: Effect of fiber length, fiber volume fraction, and strain rate, Composites Part B: Engineering, Vol.177, https://doi.org/10.1016/j.compositesb.2019.107430, 15 November 2019
  4. Dianchao Wang, Takafumi Noguchi and Takahito Nozaki: Increasing efficiency of carbon dioxide sequestration through high temperature carbonation of cement-based materials, Journal of Cleaner Production, Vol.238, https://doi.org/10.1016/j.jclepro.2019.117980, 20 November 2019
  5. Maruyama, P. Lura, Properties of early-age concrete relevant to cracking in massive concrete, Cem. Concr. Res. 123 (2019) 105770. doi:10.1016/J.CEMCONRES.2019.05.015.
  6. Teramoto, I. Maruyama, Y. Mitani, Influence of Silica Fume Additive and Temperature History on the Volume Change of Ultra-High-Strength Cement Paste and Concrete, Adv. Civ. Eng. Mater. 8 (2019) 20190020.
  7. Sasano, I. Maruyama, Numerical study on the shear failure behavior of RC beams subjected to drying, Nucl. Eng. Des. 351 (2019) 203?211.
  8. Maruyama, T. Ohkubo, T. Haji, R. Kurihara, Dynamic microstructural evolution of hardened cement paste during first drying monitored by 1H NMR relaxometry, Cem. Concr. Res. 122 (2019) 107?117.
  9. Maruyama, J. Ryme?, Temperature Dependency of Short-Term Length-Change and Desorption Isotherms of Matured Hardened Cement, J. Adv. Concr. Technol. 17 (2019) 188?194.
  10. Ryme?, I. Maruyama, R. Shimamoto, A. Tachibana, Y. Tanaka, S. Sawada, Y. Ichikawa, O. Kontani, Long-term Material Properties of a Thick Concrete Wall Exposed to Ordinary Environmental Conditions in a Nuclear Reactor Building : the Contribution of Cement Hydrates and Feldspar Interaction, J. Adv. Concr. Technol. 17 (2019) 195?215.
  11. Matsuda, I. Maruyama, A. Meawad, S. Pareek, Y. Araki, Reaction, Phases, and Microstructure of Fly Ash-Based Alkali-Activated Materials, J. Adv. Concr. Technol. 17 (2019) 93?101.
  12. Biao Zhou, Hideki Yoshioka, Takafumi Noguchi, Xuan Wang, and Chi Chiu Lam, “Experimental Study on Fire Performance of Weathered Cedar”, International Journal of Architectural Heritage ? Conservation, Analysis, and Restoration, Volume 13, Issue 8, pp. 1195-1208, 2019, (DOI: 10.1080/15583058.2018.1501115).
  13. 友寄篤、野口貴文、袖山研一、東和朗:火山ガラス微粉末の粉末度と置換率が強度発現に及ぼす影響、セメント・コンクリート論文集、Vol.73、pp.465-470、2019, https://doi.org/10.14250/cement.73.465
  14. 栗原諒, 杉本裕紀, 丸山一平, Two types of C(A)Sh In the hardened cement pastes using low heat / ordinary portland cement evaluated by nitrogen sorption, コンクリート工学年次論文集, Vol.41, No.1,pp. 47-52, 2019.7
  15. 常川晃輝, Jiri Rymes, 栗原諒,丸山一平, 長石類のC-S-H生成反応に関する基礎的研究, コンクリート工学年次論文集, Vol.41, No.1,pp. 59-64, 2019.7
  16. 古田章宏, 小林竜平, 間瀬敦之, 丸山一平, 凍結融解抵抗性に優れた新規収縮低減剤の性能, コンクリート工学年次論文集, Vol.41, No.1,pp.119-124, 2019.7
  17. 篠野宏, 丸山一平, Sensitivity analysis on the impact of aggregate and ITZ strength on the concrete properties by RBSM, コンクリート工学年次論文集, Vol.41, No.1,pp. 389-394, 2019.7
  18. 大野拓也, 三谷裕二, 丸山一平, コンクリート内部の湿気移動速度に及ぼすセメント種類の影響, コンクリート工学年次論文集, Vol.41, No.1,pp.419-424, 2019.7
  19. 藤牧哲也, 松田明, 丸山一平, 渋谷和俊, X線イメージングによるモルタル中の水分移動の可視化と挙動分析に関する基礎研究, コンクリート内部の湿気移動速度に及ぼすセメント種類の影響, コンクリート工学年次論文集, Vol.41, No.1,pp.1865-1870, 2019.7
  20. 廖高宇、野口貴文、友寄篤、陳慶開:BFとFAの混合比が異なるジオポリマーの圧縮強度と空隙構造の関係、コンクリート工学年次論文集、Vol.41、No.1、pp.1980-1984、2019.7
  21. 山本秀之、西島茂行、野口貴文、友寄篤:センサによる温度測定値に基づく加熱養生システムの開発、コンクリート工学年次論文集、Vol.41、No.1、pp.1349-1354、2019.7
  22. 山内匡、野口貴文、山本秀之、友寄篤:加速度センサによるコンクリート振動締固め状況の把握・管理、コンクリート工学年次論文集、Vol.41、No.1、pp.1337-1342、2019.7
  23. Bochao SUN, Takafumi NOGUCHI, Atsushi TOMOYOSE, Hideyuki YAMAMOTO: EVALUATION OF EQUIVALENT AGE CONSIDERING THE INFLUENCE OF RELATIVE HUMIDITY, Proceedings of the Japan Concrete Institute, Vol.41, No.1, pp.395-400, 2019.7
  24. 楠元宏治、野口貴文、友寄篤、袖山研一:コンクリート用火山ガラス微粉末の混合によるセメント使用量削減効果及び長期強度発現とそのメカニズムに関する考察、コンクリート工学年次論文集、Vol.41、No.1、pp.197-202、2019.7
  25. 友寄篤、野口貴文、袖山研一、東和朗:コンクリート用火山ガラス微粉末の粉末度に応じた分散と凝集がセメント混合ペーストの拘束水比と変形係数に与える影響、コンクリート工学年次論文集、Vol.41、No.1、pp.191-196、2019.7
  26. 袖山研一、友寄篤、野口貴文、楠元宏治:火山ガラス微粉末を用いたコンクリートの鉄筋腐食因子の侵入抵抗性に関する考察、コンクリート工学年次論文集、Vol.41、No.1、pp.167-172、2019.7

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