| 1. | Influence of zirconium on ageing process in super - high strength aluminum alloy
对超高强铝合金时效过程的影响 |
| 2. | Further more , cerium stays aging process to some extent in 2090 alloy
Ce还对2090合金的时效过程有一定的延缓作用。 |
| 3. | Dynamics of phase transformation of hot - rolled cu - ni - si alloy during aging after cold deformation
合金冷轧后时效过程中的相变动力学 |
| 4. | The cause of this phenomenon probably is mg ^ si phase dispersed first and then ancu and al2cumg phase
可能是合金时效过程中, mgzsi首先析出,然后再析出川2c2及川2c2的缘故。 |
| 5. | The fourth , electrical conductivity of alloys was influenced by reversion - recrystauization and precipitation of supersaturation solid solution
冷拉后的合金时效过程中受到析出和再结晶过程交互作用的影响。 |
| 6. | Influences of electric field applying during aging process on mechanical properties , fracture characters and precipitate in 1420 alloy are studied
研究了时效过程中施加的电场对合金性能、断裂特征和析出相的影响。 |
| 7. | The reversion and precipitation of the second phase which occurs during the course of aging result in electronic conductivity reversion of bar
时效处理对导条组织和性能的影响是因为时效过程中先后发生了回复、再结晶和第二相析出。 |
| 8. | Addition of minim cerium to the al - li alloy enhances textures of alloys , thereby increases anisotropy of the alloy , on the other hand it influences anisotropy of the alloy by its effect on aging process
微量ce加入铝锂合金中,一方面增强2090合金的形变织构,即增强合金的各向异性;另一方面则通过对时效过程的影响而对合金的各向异性产生作用。 |
| 9. | In early stage of aging , cerium lessens influence of coplanar slip on anisotropy by making " phase particles smaller and more disperse , while it makes contribution of t1 phase to anisotropy contrary to that of textures
在时效早期, ce通过细化和弥散化相来减弱共面滑移对各向异性的贡献;而在整个时效过程中, ce均使t _ 1相对各向异性的贡献与形变织构对各向异性的贡献相反。 |
| 10. | It shows that while crystal textures formed during deforming process have basal contribution to anisotropy of alloys , precipitates also have important contribution to anisotropy of alloys and they decide changes of anisotropy in aging process
研究表明:在变形过程中形成的晶体学织构对合金的各向异性有基本的贡献,同时析出相对合金的各向异性也有重要的贡献,并决定其在时效过程中的演变。 |
