Grain Size Dependence of Creep in Nanocrystalline Copper by Molecular Dynamics
スポンサーリンク
概要
- 論文の詳細を見る
The grain size dependence of creep is critical to understand the plastic deformation mechanism of nanoscale metals. Here we used molecular dynamics to study the stress-induced grain size exponent transition in creep of nanocrystalline copper. The grain size exponent was found to initially increase with increasing stress, then decrease after some critical stress. The derived grain size exponents are in agreement with experimental results for diffusional and grain boundary sliding creep at low stress. While, the founded decreasing grain size exponent with increasing stress for dislocation nucleation creep in nanocrystal is in contrast with conventional materials. We propose a constitutive equation for dislocation nucleation governed creep in nanocrystal to explain its grain size dependence transition with stress.
- The Japan Institute of Metals and Materialsの論文
The Japan Institute of Metals and Materials | 論文
- Control of Ferromagnetism in Magnetic Semiconductors and Application for Spin-polarized Electron Source
- 超高純度金属の実用化への道
- 非極性 GaN 層中の微結晶粒の効率的な検出と今後の展望
- Recycling Technology for Platinum Group Metals by Using Perovskite-type Oxides
- Specimen Preparation Methods with FIB for In-Situ TEM Observations in Materials Science—TEM Specimen Preparation by FIB with Glass Manipulator—