| 1. | Research on anti - fatigue performance of strata stress absorbing layers
应力吸收层抗疲劳特性研究 |
| 2. | Elementary exploration on the construction technology of strata stress absorbing layers
反射裂缝应力吸收层施工技术 |
| 3. | Application of saf stress absorbing layer in the overlaying on old cement loncrete pavement
应力吸收层在旧水泥混凝土路面加铺中的应用 |
| 4. | Even the non - hitting components , such as the flat and the spine , have basic shock - absorbing layer
而非主要的打击部份,如剑侧及刀背等,亦有基本的吸震功能。 |
| 5. | Such as the edge and the tip , feature extra shock - absorbing layer so that the partner would not be injured
的攻击部份,如刀锋和剑尖等,均设有额外的吸震层,令被攻击者不会受伤。 |
| 6. | This paper gives a 45 degree up - going wave equation with an absorbing layer and constructs its implicit difference scheme
摘要给出了附加吸收层的三维45上行波方程,构造了该方程的一种隐式差分格式。 |
| 7. | 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。 |
| 8. | The experiment results indicated that conditional on transforming layer 1mm thick and absorbing layer 2mm thick , the combined materials which were processed by 600 and 800 respectively have good absorbing performance , and the influence of the combing sequence on absorbing performance is indistinctive
实验表明,当变换层为1mm ,吸收层为2mm时,以600处理的和800处理的材料进行不同组合都有较好的吸波性能。 |
| 9. | And it has a high absorption coefficient ( > 10 ~ 4cm ~ ( - 1 ) ) and a high conversion efficiency of ~ 25 % . in addition , elements sn and s are abundant and non - toxic in nature , which has good compatibility to environment . thus , it can be used as an absorbing layer material in the solar photovoltaic cells
其具有很大的光吸收系数( > 10 ~ 4cm ~ ( - 1 ) ) ,且在理论上其能量转换效率最高可达到25 % ,其组成元素在地球上储存含量丰富,有很好的环境兼容性,因而非常适合于作为太阳能电池中的光吸收层。 |
| 10. | It is shown that good performance on millimeter - wave and centimeter - wave can be achieved respectively by electric loss and magnetic loss , then through improving the impedance matching between layers compatible absorbability will be obtained on the whole by double - layer structure letting the centimeter - wave absorbing layer be the inner layer and the millimeter - wave absorbing layer the outer layer
理论分析和实验结果表明,先分别以电损耗和磁损耗为主,采用单层结构分别对毫米波和厘米波实现较好的吸收,然后以厘米波吸收层作为内层,以毫米波吸收层作为外层,并进一步改善内外层之间的阻抗匹配,利用两层结构可以对毫米波和厘米波实现较好的兼容吸收。 |
