| 1. | Sinter technique in preparing nano - ceramic
纳米陶瓷材料制备中的烧结技术 |
| 2. | Preparation of nano alpha alunina powder at low temperature
3纳米陶瓷粉末的制备及其表征 |
| 3. | Progress in research on surface characterization of nanoceramic powder
纳米陶瓷微粉的表面性能研究进展 |
| 4. | Namiyanghuaxin , nano magnesium oxide , nano ceramic material production
纳米氧化锌、纳米氧化镁、纳米陶瓷材料生产。 |
| 5. | Effects on microstructure and characteristics of batio3 nanometer ceramics by la3 - doping
3纳米陶瓷微观结构及其性能的影响 |
| 6. | Research on plasma spraying nano al2o3 3 tio2 ceramics onto surface of magnesium alloy
镁合金表面等离子喷涂纳米陶瓷涂层研究 |
| 7. | After adding 0 . 12 volume fraction of pt powder , the pyroelectric coefficient of pt / p ( vdf - trfe ) composite film was about 30 % higher and the detective merit was about 21 % higher than that of sensors using pure p ( vdf - trfe )
12的钛酸铅纳米陶瓷粉粒的掺入,使得pt / p ( vdf - trfe )复合膜的热释电系数值提高了约30 ,探测优值提高了约21 。 |
| 8. | Analyzing micro - structures of n - al2o3 by experimental study , it is conclusion that grain growth of n - al2o3 can be restrained well using laser sintering . nano - grains evolves micro - stuctures or clusters with sub nano - grains
通过对纳米陶瓷激光烧结制件的微观结构和晶粒生长分析,试验验证了激光快速烧结可以解决纳米材料在传统烧结方法中晶粒生长难以控制的问题。 |
| 9. | The different kinds of pyroelectric sensors were prepared on the porous silicon dioxide , plastic film and bulk silicon substrates respectively . the nanocomposite pclttp ( vdf - trfe ) film was deposited by spin - coating used as the sensing film , and ni - cr film was chosen as upper electrode and absorb layer
分别在多孔氧化硅、 pet塑料和硅衬底上,制备纳米陶瓷/ p ( vdf - trfe )复合敏感膜的热释电单元传感器。 |
| 10. | The objective of this paper is to obtain metal - ceramic composite materials with better complex properties by the way of preparing nano - composite powders of metal and ceramic . in our thought , firstly we should prepare nano - ceramic powders coated with metal , and then during the period of sintering , the film of metal could prevent the nano ceramics powder from dumpling and keep the powders to be nano - sized
这样,在随后制备块材的烧结过程中,由于复合粉体复合充分,相容性提高,结合力高,另外金属表面层可抑制纳米陶瓷粉体的融合长大,使粉体在烧结后保持纳米尺寸,从而发挥纳米颗粒的作用;同时通过引入均匀分布的韧性金属相,进一步改善陶瓷的脆性。 |
