Modeling the Effect of Solute Drag on Recovery and Recrystallization during Hot Deformation of Nb Microalloyed Steels
スポンサーリンク
概要
- 論文の詳細を見る
The effect of solute drag on recovery and recrystallization during hot deformation of Nb microalloyed steels has been modeled using a newly developed microstructure model. The model is based on dislocation theory and the calculated dislocation density determines the driving force for recrystallization. Subgrains act as nuclei for recrystallization and have to reach a critical size and configuration in order for recrystallization to start. In the model, the solute drag effect of Nb in solution is described. Nb retards both dislocation and grain boundary movement giving retardation in both recovery and recrystallization. Calculations were compared to experimental results from axisymmetric compression tests combined with stress relaxation. In order to model the effect of solute drag, the experiments were carried out at temperatures where precipitation of Nb(C, N) should not occur. The calculated flow stresses for the compression tests show good fit with experimental data. Also, the calculated results of the relaxation tests show good agreement with experimental data.
- 2010-02-15
論文 | ランダム
- 住民参加型有償非営利団体 神奈川県ホ-ムヘルプ協会のあゆみ
- フィリッピンの都市化とコミュニティ・デベロプメントーその3-
- フィリッピンの都市化とコミュニティ・デベロプメントーその2-
- フィリッピンの都市化とコミュニティ・デベロプメントーその1-
- 旧制中等学校卒業者の社会的地位とその移動