@article{oai:air.repo.nii.ac.jp:00001822,
 author = {大黒屋, 信英 and 川原, 将 and 後藤, 文彦 and 長谷部, 薫 and Daikokuya, Masahide and Kawahara, Masashi and Gotou, Humihiko and Hasebe, Kaoru},
 journal = {秋田大学大学院工学資源学研究科研究報告, Scientific and technical reports of Graduate school of Engineering and Resource Science, Akita University},
 month = {Oct},
 note = {Shear stiffness of glulam beams is very small compared with it's bending stiffness. While hybridization of glulam beams by inserted steel plates improve the bending stiffness, it does not so improve the shear stiffness. As a result ratio of shear deformation to bending deformation is greater in the steel-plate-inserted glulam beams than even in glulam-only beams. Therefore it is very important to estimate shear coefficient for the steel-plate-inserted glulam beams. In this study we analytically, numerically and experimentally estimate the shear coefficient of the aluminum-plate-inserted acrylic beams instead of steel-plate-inserted glulam beams, since we can easily know the shear modulus for the isotropic materials aluminum and acrylic. We discuss the validity and accuracy of each estimation method.},
 pages = {23--28},
 title = {鋼板挿入集成材梁のせん断補正係数の推定方法についての検討},
 volume = {32},
 year = {2011}
}