| 1. | Thermodynamic calculation analysis of interfacial reaction between sn - ag and cu substrate
基板界面反应的热力学计算 |
| 2. | In contrast , very little is reported on theory study of interfacial reaction in sic / ti composites
然而迄今为止,对sic ti基复合材料的界面反应的研究特别是理论研究很不深入。 |
| 3. | The interface reaction , interface construction and bond between super - hard abrasive ( diamond and cbn ) and metals are discussed
本文系统论述了金刚石、立方氮化硼超硬磨料与典型金属界面的界面反应、界面结构及界面结合问题。 |
| 4. | In order to investigate the interfacial reaction of high - k thin film on si substrate , the high - k samples were studied by xps as a function of annealing temperature
为了考察high - k物质与si基底的界面反应,以温度为函数,对样品进行xps光电子谱线测定。 |
| 5. | It is shown that the interfacial reactions of scs - 6 sic / tial , scs - 6 sic / ti2alnb and scs - 6 sigti40 are not so severe as in other scs - 6 sic / ti composites
从热力学上预测了不同复合材料体系的界面反应性,表明sic tial 、 sic ti _ 2alnb 、 sic ti40等体系的界面反应较轻。 |
| 6. | Xps of the films indicates that tisi2 interlayer can prevent the interaction between substrate material and diamond interface , so that the adhesion of diamond film is improved
薄膜的xps表明tisi _ 2作为中间层能起到阻止衬底材料与金刚石的界面反应作用,提高了金刚石薄膜的附着性。 |
| 7. | The microstructure and the reaction of the interface are analyzed . the mostly products in the interface are abbc which grows along the boron carbide and the boron carbide are attacked by the aluminum
界面反应的主要产物为al _ 3bc ,碳化硼被铝侵蚀的同时, al _ 3bc等反应产物生成。 |
| 8. | Sem / eds characterization revealed that the improvement of the wettability was relative to the dissolution and diffusion of carbides in ni , and reflected in microstructure of interfaces
通过sem eds观察发现,体系润湿性的改善与陶瓷相在金属相的溶解与扩散有关,直接反映在界面反应层的组织结构上。 |
| 9. | The conditions of making strong bond between the affine metals and the diamond are given by test results of the interface bond strength and interface reaction
讨论了亲和性金属与超硬磨料界面反应形成化合物的条件及化合物的结构特征与界面结合强度的关系,从而给出了实现亲和性金属与金刚石强力结合的条件。 |
| 10. | The result is useful for us to choose the ti matrices . based on quantum chemistry , a two - step dynamic model of interfacial reaction in scs - 6 sic / ti composites was built up
在量子化学研究的基础上,建立了scs - 6sic ti基复合材料界面反应的反应动力学模型,即反应是通过原子态的中间态分二个步骤进行的。 |
