| 1. | Standard specification for cellular glass thermal insulation
多孔玻璃隔热材料标准规范 |
| 2. | Synthesis of porous glass beads from gangue
煤矸石制多孔玻璃微珠 |
| 3. | Controlled surface pore glass
可控表面多孔玻璃 |
| 4. | Thermal insulation products for buildings - factory made cellular glass products - specification
建筑物的热绝缘产品.工厂制多孔玻璃产品.规范 |
| 5. | Glucose oxidase ( god ) was immobilized onto controlled - pore glass ( cpg ) via glutaraldehyde activation and packed into a channel
酶柱里装入固定了葡萄糖氧化酶的多孔玻璃,化学发光试剂柱里装吸附了! |
| 6. | Similarly , the cantilevered canopies of metal clad steel structure and fritted pattern glass merge the wave forms into a series of repeating flowing elements
同样,悬臂式檐金属包钢结构和烧结多孔玻璃汇合而成的波浪也呈现着层层流动要素。 |
| 7. | In this paper , the feature of structure and the principle of preparation of porous glass is reviewed , and the characteristics and prospect of porous glass as new packing mcdium of liquid chromatography is reviewed also
本文综述了一种新型载体材料多孔玻璃的结构特点和制备原理,及其作为液相色谱新填充介质的良好特性和应用前景。 |
| 8. | Abstract : in this paper , the feature of structure and the principle of preparation of porous glass is reviewed , and the characteristics and prospect of porous glass as new packing mcdium of liquid chromatography is reviewed also
文摘:本文综述了一种新型载体材料多孔玻璃的结构特点和制备原理,及其作为液相色谱新填充介质的良好特性和应用前景。 |
| 9. | In this paper the mechanism and operation process of preparing porous glass material by means of filling method are studied , then the macro - pore porous glass beads commonly used as carrier material are introduced and produced with an improved method of traditional filling method
本文阐述了以填充法制备多孔材料的基本原理与过程,并通过对传统填充法的改进直接制备宏孔径、高强度的多孔玻璃载体颗粒。 |
| 10. | Beginning with the analysis of the effects , which are brought by the application of only one kind of pore - former and some other operating factors ( such as sintering temperature , warmth retaining time and so on ) , on the properties of the beads , e . g . , porosity , strength , size distribution of the beads and pores size , etc . , these effects are discussed in detail and the relationship between the factors is studied thoroughly . the use of mpf ( multi - pore - former ) is introduced for the first time , which is of the most importance and significance in this paper
研究从造孔剂选用和烧结过程对颗粒的孔隙率、机械强度、孔径分布及粒度分布的影响入手,找出了造孔剂的种类及含量、烧结温度以及保温时间等因素对最终所得产品颗粒的性能影响及它们之间的相互关系,并首次提出将造孔剂复配使用来对填充法加以改进,无需扩孔处理,即能直接制备宏孔径、高强度、小粒度、比表面大的多孔玻璃载体颗粒。 |
