| 種別 | Paper |
| 主題 | Tension Stiffness Modeling for Cracked Reinforced Concrete Derived from Micro-Bond Characteristics |
| 副題 | |
| 筆頭著者 | Hamed MAHMOUD SALEM(The University of Tokyo) |
| 連名者1 | Koichi MAEKAWA(The University of Tokyo) |
| 連名者2 | |
| 連名者3 | |
| 連名者4 | |
| 連名者5 | |
| キーワード | bond-slip-strain, tension stiffening, crack spacing. |
| 巻 | 19 |
| 号 | 2 |
| 先頭ページ | 549 |
| 末尾ページ | 554 |
| 年度 | 1997 |
| 要旨 | The aim of this study is to get the spatial average stress- average Strain relationships of both reinforcing bars and cracked concrete in RC members based on the local bond characteristics between concrete and re-bars. The computational basis is the local bond-slip-strain model. In the computation the local stress and strain profiles of both re-bars and concrete between two adjacent cracks are computed. Using these profiles, the spatial average stress and average strains can be computed. The computation is also capable of predicting the ultimate average strain of re-bars. The comparison with the experiments shows good agreement. |
| PDFファイル名 | 019-01-2088.pdf |