圧縮荷重下にある地盤材料内の亀裂進展開始に対する最大摩擦せん断応力破壊規準の検討
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we propose maximum frictional shear fracture criterion, which explains mode II type crack extension in geomaterials under the compressive loads. It is important to elucidate the fracture criterions under compressive loads such as the explanation of the existence and the creation of long faults, landslide in slope ground and so on. We examine an implicit soil/water coupling elastic-plastic calculation algorithm with contact conditions on the crack surfaces in order to obtain stress fields near a crack tip under the biaxial compressive loads. We find that the maximum frictional shear stress causes a crack extension with the same direction of an initial crack in any condition and the tensile cracks never extend from the upper side of a crack near the tip.
- 土木学会 = Japan Society of Civil Engineersの論文
土木学会 = Japan Society of Civil Engineers | 論文
- 鉄筋腐食によって損傷を受けたRCばりの挙動に関する考察
- 鋼繊維-セメント系マトリックス間の付着破壊進展機構と鋼繊維補強モルタルの高靭性化
- ケーソン護岸連結目地内での流体共振特性に及ぼす入射角の影響
- き裂を有する線形異方弾性体の圧縮荷重下における応力・変位の荷重履歴依存性
- 路面補修前後の長期モニタリングから評価した周期性路面の橋梁に及ぼす影響