| 1. | Research development of mechanical alloying and amorphous alloy
金刚石薄膜用钢基表面过渡层研究进展 |
| 2. | Effect of copper and cu ti intermediate layer on adhesion of diamond film
过渡层对金刚石薄膜附着力的影响 |
| 3. | Effect of ni layer on al - stainless steel indirect brazing and its mechanism analysis
不锈钢过渡层钎焊中的作用及其机理分析 |
| 4. | Study on parameters for asphalt pavement with semi - rigidity foundation base of macadam transaction layer structure
碎石过渡层结构半刚性基层沥青路面参数的研究 |
| 5. | The conditions forming strong bond structure transition zone between the coating and diamond are obtained
该技术还可使金刚石表面涂层与金刚石之间形成强键结构过渡层。 |
| 6. | The influence of functional layer upon the performance of the oled is studied ahead the mutually doped transitional layer
我们在研究互掺过渡层之前,研究了功能层对器件影响。 |
| 7. | The grain size of the porous layer is about 2nm and the thickness lamellar layer is a few tens of nanometer
由钛合金基体到羟基磷灰石的过渡层是钛的氧化层,厚度大约几个纳米。 |
| 8. | Effect of bonding state between titanium interlayer and cemented carbide substrate on the adhesion of cvd diamond film
钛过渡层与硬质合金基体表面结合状况对金刚石薄膜附着力的影响 |
| 9. | Intensify the multiplayer film ' s intensity with adding a new sio layer between the glass substrate and the multiplayer film
通过在玻璃基底和复合薄膜之间添加sio过渡层,增强了薄膜的强度。 |
| 10. | In the study of the mutually doped transitional structure , we discover that the interfaces of organic have great effects on the device ' s performance
在对互掺过渡层的研究中发现, oled中有机层间的界面对器件的性能有很大的影响。 |
