@article{oai:muroran-it.repo.nii.ac.jp:00006905,
 author = {森, 昌也 and MORI, Masaya and 山本, 泰司 and YAMAMOTO, Yasuji and 木村,  克俊 and KIMURA, Katsutoshi and 渡辺, 慎也 and WATANABE, Shinya},
 journal = {海岸工学論文集},
 month = {Nov},
 note = {application/pdf, A high mound composite seawall, which has a permeable front wall with a dissipation chamber on the superstructure, was newly developed as a revetment for reclaimed land. Several studies have focused on the hydraulic characteristics of high mound seawall; however sufficient examination has not been carried out on the oblique wave conditions. Threedimensional hydraulic model experiments were conducted to investigate the wave force characteristics and wave overtopping characteristics under oblique wave conditions. Based on the phase difference of impulsive wave force acting on superstructure, wave force reduction coefficients for oblique waves were proposed. Furthermore, influence of incident wave angle on wave overtopping rate and wave run-up height were studied.},
 pages = {856--860},
 title = {斜め入射条件に対する消波型高基混成式護岸の波力および越波特性},
 volume = {55},
 year = {2008},
 yomi = {モリ, マサヤ and ヤマモト, ヤスジ and キムラ, カツトシ and ワタナベ, シンヤ}
}