研究者業績

戸塚 真里奈

トツカ マリナ  (Marina Totsuka)

基本情報

所属
千葉大学 大学院工学研究院総合工学講座 助教
学位
博士(農学)(2021年3月 東京大学)

連絡先
mtotsukachiba-u.jp
ORCID ID
 https://orcid.org/0000-0001-8548-4996
J-GLOBAL ID
202101009211062119
researchmap会員ID
R000019832

経歴

 1

論文

 16
  • Moe HORIE, Akira SEINO, Haruka KANADA, Takayuki KIKUCHI, Marina TOTSUKA, Takeo HIRASHIMA
    Journal of Structural and Construction Engineering (Transactions of AIJ) 89(823) 1072-1081 2024年9月1日  
  • Yukito Nakayama, Takayuki Kikuchi, Marina Totsuka, Takeo Hirashima
    Fire Technology 2024年4月8日  査読有り
  • Yukito NAKAYAMA, Takayuki KIKUCHI, Naoya YOTSUMOTO, Futa KAWARABAYASHI, Marina TOTSUKA, Takeo HIRASHIMA
    Journal of Structural and Construction Engineering (Transactions of AIJ) 89(816) 223-234 2024年2月1日  査読有り
  • Takayuki KIKUCHI, Naoya YOTSUMOTO, Futa KAWARABAYASHI, Yukito NAKAYAMA, Marina TOTSUKA, Takeo HIRASHIMA
    Journal of Structural and Construction Engineering (Transactions of AIJ) 88(810) 1306-1317 2023年8月1日  査読有り
  • 椿田 竜也, 戸塚 真里奈, 稲山 正弘, 青木 謙治, 濱野 裕仁, 川原 重明
    日本建築学会技術報告集 29(72) 753-758 2023年6月20日  査読有り
  • Yuga Kawai, Marina Totsuka, Takeo Hirashima
    Forests 14(2) 373-373 2023年2月12日  査読有り責任著者
    Three-dimensional elastoplastic finite element (FE) analysis models considering a damage zone and cleavage were developed, including plastic behavior of embedment tests parallel and perpendicular to the grain at ambient and high temperatures, in order to study the embedment behavior of timber. In a numerical analysis of compression tests to define material properties of timber, the post-yield behavior of the X-axis in the axial direction was larger than the test values when the post-yield slope of the test result were set to the plastic modulus. The reason was that the stress on the Y-axis and Z-axis increased after the yield point; thus, the equivalent yield stress decreased. In the numerical analysis of the embedment tests, the effect of the damage zone must be considered in the analytical models because the initial stiffness of the numerical results in compression parallel to the grain was considerably higher than that of the test results when the damage zone was not considered. In the numerical analysis of the embedment tests in compression perpendicular to the grain, the two models reproduced the stiffness and behavior after the yield point of the test results. The model that considered cleaving showed the stress distribution after cleavage.
  • Takayuki KIKUCHI, Naoya YOTSUMOTO, Futa KAWARABAYASHI, Yudai ISHIDA, Marina TOTSUKA, Takeo HIRASHIMA
    Journal of Structural and Construction Engineering (Transactions of AIJ) 87(802) 1300-1311 2022年12月1日  査読有り
  • Marina Totsuka, Robert Jockwer, Hiro Kawahara, Kenji Aoki, Masahiro Inayama
    Journal of Wood Science 2022年12月  査読有り筆頭著者責任著者
  • 戸塚 真里奈, 早川 潤, 青木 謙治, 稲山 正弘
    日本建築学会構造系論文集 87(798) 770-779 2022年8月1日  筆頭著者責任著者
  • 河原林 風太, 菊地 毅之, 戸塚 真里奈, 平島 岳夫
    日本建築学会構造系論文集 87(795) 498-509 2022年5月1日  査読有り
  • Marina Totsuka, Kenji Aoki, Masahiro Inayama
    European Journal of Wood and Wood Products 80(2) 451-463 2022年4月  査読有り筆頭著者責任著者
  • Marina Totsuka, Robert Jockwer, Kenji Aoki, Masahiro Inayama
    Journal of Wood Science 67(1) 2021年12月  査読有り筆頭著者責任著者
  • 戸塚 真里奈
    木材工業 = Wood industry 76(1) 2-7 2021年1月  筆頭著者責任著者
  • 戸塚 真里奈, 青木 謙治, 稲山 正弘, 森田 仁彦
    木材学会誌 66(1) 8-15 2020年  査読有り筆頭著者責任著者
    <p>CLT(クロス・ラミネイティド・ティンバー)の木口面の部分圧縮性能は,接合部の性能を考える際に重要となる。しかし,既往実験では支圧幅や余長が限定された範囲の検討にとどまっている。本報では,スギCLTを用いて木口面の部分圧縮性能(降伏応力,初期剛性,二次剛性)に寄与する影響因子を実験的に把握した。実験は支圧幅,支圧位置,幅はぎ接着の有無,余長をパラメータとし,単調圧縮載荷とした。結果として,支圧幅と余長,幅はぎ接着の有無が部分圧縮性能に大きく寄与し,支圧位置はあまり寄与しないことが分かった。支圧幅の影響は支圧幅が小さいほど大きくなった。余長効果についても支圧幅が小さいほど大きくなった。また,余長長さ100mm以上であれは無限長とみなすことが出来た。さらに,幅はぎ接着のある試験体では幅はぎ接着のない試験体と比べCLTの部分圧縮強度が向上する可能性を示した。</p>
  • 戸塚 真里奈, 高橋 之, 市之瀬 敏勝, 丸山 一平, 八木 茂治, 七里 賢司, 高橋 裕治
    日本建築学会構造系論文集 82(731) 105-114 2017年  査読有り筆頭著者責任著者
    &nbsp;Removing formworks early is in great demand for economic reasons, because removed formworks can be reused for upper stories and construction period can be shortened. Many researches on this topic have been done in both material and structural fields. However, the bridges between the two fields are rare.<br>&nbsp;In this research, five specimens of reinforced concrete (RC) slab are tested applying sustained bending moment in summer. The specimens are sprinkled with water in the morning after the concrete casting and demolded after three days. The upper surfaces of the specimens are exposed to sunlight and rain for 138 days while loading. The test parameter is the magnitude of the bending moment: zero, -0.5Mc', -1.0Mc', -1.5Mc and +1.5Mc', where Mc is the moment at flexural crack and &ldquo;&ndash;&rdquo; or &ldquo;+&rdquo; indicate the upper surface is subjected to tension or to compression, respectively. Figure 2 shows the reinforcement. Figures 3 and 4 show the loading setup. After the exposure of five months, one of the specimens is cut as shown in Figure 5 to investigate the stress-strain relationship of the concrete near the top and the bottom of the specimen. The following findings are obtained from the results of the experiment. In the following discussion, the computed values are obtained using AIJ Guidelines and assuming that the concrete of each specimen is homogeneous and that the humidity at the upper and lower surfaces of each specimen is same as that of the open air.<br><br>&nbsp;(1) At the age of 194 days, the compressive strength of the concrete of the upper part of the specimen was about 50% of that of the lower part (Figure 8). Young's modulus of the upper part was about 60% of that of the lower part (Figure 8).<br>&nbsp;(2) The shrinkage strain of the lower part of the specimen without bending moment agreed with the computation, whereas that of the upper part was negligible (Figure 19a). As a result, the specimen warped to upwardly convex.<br>&nbsp;(3) The compressive strains of the lower part of the specimens with negative bending moment less than cracking moment agreed with the computation, whereas the tensile strains of the upper part were larger (Figures 12b and 12c). As a result, the curvatures of the specimens were approximately twice of the computed values (Figure 13a). The differences between the observed curvatures and the computed ones were much larger than those between the computed values assuming the demolding at the age of three days and those at 28 days.<br>&nbsp;(4) In the case of the specimen where upper part was cracked in tension, the bond stress between the concrete and the top bar was 2 N/mm2 after applying load, which decreased to almost zero after four months (Figures 17 and 18). On the other hand, the bond stress of the bottom bar was 6 N/mm2 even after four months (Figure 17). As a result, the curvature and the crack widths of the specimen under negative moment were 1.5 times of those of the specimen under positive moment.<br>&nbsp;(5) The third and fourth conclusions stated above indicate that the effect of the curing condition at the upper or lower surface is larger than that of the age of demolding (3 or 28 days).<br>&nbsp;(6) The curvatures of all the specimens after 30 years were estimated extrapolating the observed curvatures. The estimated curvatures were between six and twelve times the computed elastic ones as shown in Figure 18. These ratios agreed with the previous researches.<br>&nbsp;(7) The rainfall of 30 mm caused the decrease of the shrinkage strains both at upper and lower surfaces of the specimens (Figure 19). The rainfall did not affect the tensile strains of the cracked concrete. As a result, the curvatures of the cracked specimens decreased after the rainfall.
  • 戸塚真里奈, 高越総一郎, 高橋之, 市之瀬敏勝
    コンクリート工学年次論文集(CD-ROM) 36 2014年  査読有り筆頭著者責任著者

MISC

 12

講演・口頭発表等

 29

共同研究・競争的資金等の研究課題

 7