| 1. | High strain rate superplasticity of mmcs
复合材料的高应变速率超塑性 |
| 2. | Internal friction behavior of sic particle reinforced mmcs prepared by spray co - deposition
43复合材料的制备及组织性能 |
| 3. | The results indicate that weak interfacial bonding reduce the macromechanial performance of mmcs
结果表明弱界面粘结的存在使复合材料宏观性能下降。 |
| 4. | Influences of particle shape , volume fraction and matrix materials on the compressive behavior of mmcs
含量和基体特性对金属基复合材料压缩力学行为的影响 |
| 5. | During stage i , the macro - stiffness of mmcs is reducing because of interfacial debonding
当存在渐进适应界面时,复合材料横向拉伸应力?应变曲线存在三个阶段。 |
| 6. | When tlp bonding with proper pressure , the oxidation on the surface of al mmcs was n ' t the primary effect of the properties of the joint
采用适当的压力进行瞬间液相连接时,铝基复合材料表面的氧化膜已不是影响接头性能的主要因素。 |
| 7. | The calculated tension and shear stress - strain curves of mmcs using gmc are compare with that using fem , the results are satisfactory
用改进算法分析了复合材料的弹塑性拉伸和剪切响应,与有限元方法的结果进行了对比,结果表明吻合较好。 |
| 8. | The effect of the interface in the functional composites with extreme or unusual thermal expansion properties is more complex than the mmcs ( metal matrix composites )
具有极端或异常热膨胀性能的功能复合材料比一般金属基复合材料的界面效应更为复杂。 |
| 9. | Abstract : the paper deals with the structure and performance of carbon fibre used in mmcs and especially the reaction between it and some metals
文摘:本文介绍了金属基复合材料中常用增强物? ?碳纤维的结构及性能,特别总结讨论了碳纤维与常用金属的结合类型。 |
| 10. | It ' s the first time to deposit copper film on surface of al mmcs by magnetron sputtering , and embed al mmcs into the sputtering region of al target
本文首次提出使用磁控溅射法制备瞬间液相连接的中间层。一种是直接沉积法,另一种是溅射去除氧化膜再沉积法。 |
