透光材料

  • 网络transparent materials
透光材料透光材料
  1. 认为已消毒水宜在4~6小时内使用,且配水管道应采用不透光材料。

    The water should be used in four to six hours after disinfections and the distribution pipes should be made of opaque materials .

  2. 界面对MMA-St透光复合材料光学性能的影响

    The effect of interface of MMA-St on optical properties of composties

  3. 温室透光覆盖材料流滴性测试方法

    Method for evaluating anti-drop property of glazing materials for greenhouse

  4. 纳米二氧化钛对纳米纤维增强透光复合材料性能的影响

    Influence of TiO_2 Nano Particles on Properties of Nanofiber Reinforced Transparent Composites

  5. 纤维素纳米纤维增强大豆分离蛋白透光复合材料的制备与性能研究

    Study on the Preparation and Properties of Cellulose Nanofiber Reinforced Soybean Protein Isolate ( SPI ) Transparent Composites

  6. 高效照明灯,寿命长,面罩采用高透光进口材料,防紫外线,良好的耐热性能,进口合金面板,耐温防长安装简易。

    Efficient lighting , long life , high light masks imported materials , nti-ultraviolet , good Heat resistance , import alloy panels , easy to install temperature defense .

  7. 努力寻找优良的透光保温材料一直是设施农业科技工作者的重要课题。

    Diligently seeking such a material , which is good at both transparence and thermal insulation , is always an important task for scientific and technical workers in greenhouse horticulture .

  8. 透光覆盖材料热阻较小是温室热量进出的主要通道,在很大程度上影响着室内的光温环境。

    The surface of transparent covering materials with low heat resistance is the main channel for heat transfer and it affected the greenhouse inner light and temperature to a great extent .

  9. 文中针对温室透光覆盖材料的性能要求,归纳了温室透光覆盖材料的质量评定性能指标和测试标准体系,并提出该标准体系下有待进一步制定或完善修订的标准。

    According to the performance requirements , a set of performance characteristics and their applicable testing standards are put forward for greenhouse glazing materials , several standards needed set down or revised are also listed .

  10. 论述了透光复合材料的应用前景,国内外的研究进展,透明玻璃钢原材料的组成、结构特征、夹层结构的发展状况等。

    The article discuss the application prospect of light composite material , domestic and international study progress , the transparent raw material of glass reinforced plastics forms , structural feature , the structure of mezzanine development condition .

  11. 红外透光多晶材料不等厚压制工艺原理

    The technological principle of the unequal thickness hot-pressing of IR optical materials

  12. 常温温致透光率可逆变化材料研究

    Research on the Materials with Temperature Dependent Reversible Change of Transmittance at Normal Temperature