This method provides a new idea to the preparation of porous materials.
这为制备多孔材料提供了一种新思路。
The properties of the porous materials can be controlled by the content of pore forming additive.
可通过调节造孔剂含量来控制多孔材料的性能。
Better bonding for rubber, TPR, EVA and porous materials. Suitable on production line and handiwork.
对橡胶、TPR、EVA、等有较强的粘合力,尤其是多孔性材料,用于流水线及手工作业。
Heavy rain falls evenly across your property, but non-porous materials will channel water to other areas.
大雨均匀地落在你的财产,但不多孔材料将渠道水到其他地区。
The research will be focused on synthesis of new porous materials for catalysis and advanced applications.
该研究团队致力于新型多孔材料的研发及前沿应用。
Porosity, a key index of porous materials, is the most primary factor for many properties of porous materials.
孔率是多孔材料的关键指标,是多孔材料若干性能最主要的决定性因素。
The processes of making porous materials composed of metallic fibres and foamed metals were briefly introduced.
简单介绍了金属纤维多孔材料和发泡金属的制造方法;
Porous materials have attracted more attention because of its large BET surface area, low density and other special properties.
多孔材料由于其具有表面积较大、相对密度较低等特殊性质,近年来受到了越来越广泛的关注。
The present paper will chiefly review the important role of organic macromolecules in the preparation of ordered porous materials.
文中主要介绍有机大分子在有序多孔材料制备中的应用。
Porous materials especially those with mesoporosity have attracted a great deal of attention owing to their potential applications.
因无机多孔材料在诸多领域具有潜在的应用前景,其合成路线的研究一直备受研究者的广泛关注。
Because shock energy attenuates rapidly in porous materials, an impact can heat the rocks bordering the deep crater very efficiently.
因为冲击波的能量在多孔隙物质中快速减弱,撞击能使上述深陨石坑附近的岩石有效加热。
Explosion accidents of storage vessel for liquefied gas and fuel may be reduced or avoided by packing the vessel with porous materials.
在液化气体、燃料储罐内填充多孔材料,可有效地减少或避免储罐发生爆炸事故。
As an important field of material science, ordered porous materials have been widely applied in the adsorption, separation and catalyst.
作为材料领域的重要分支,有序多孔材料被广泛地应用于吸附、分离和催化等领域。
Pillaring reaction has been well known as one of the significant methods to prepar porous materials and inorganic-organic nanocomposites.
粘土矿物的柱撑反应是制备孔材料、有机一无机纳米复合层状材料的有效方法之一。
The organic metal-containing compounds treatment technology can employ the compounds of chelate, colorless porous materials, organic silane.
有机金属化合物处理技术可采用的化合物有:有机金属螯合物、无色多孔材料、有机硅烷和聚磷酸铵。
This granulation process can also be widely used for producing P/M porous materials by using other fine powders, such as w, Mo, Ti, Zr, etc.
本制粒工艺亦可推广到其它用细粉未(如钨、钼、钛、锆等)制取粉末冶金多孔过滤材料的生产中。
With nanometer pore structure, nanometer porous materials mainly containing silica aerogel have an excellent property in thermal insulation.
独特的纳米孔结构使纳米孔绝热材料具有优异的绝热性能。
The porous materials were characteristic of developed void space structure and aperture increased with the increment of the template amount.
多孔氧化硅材料孔隙发达,孔径随模板剂用量的增加而增大;
The porous media model method can be used to simulate the fluid flow in porous materials, especially for the flow in porous fluid coupled areas.
多孔介质模型方法可以用于多孔介质中流体流动问题的数值模拟,并且非常适于进行多孔介质纯流体耦合流动区域的数值模拟。
The result indicate that the sintered test can produce porous materials, which would benefit to the study and preparation on filtrating materials.
实验结果表明,烧结可以获得多孔的材料,对于研究和制备过滤材料有一定的参考价值。
Porous materials are used widely both in chemical industry and high technology fields, and much attention has been paid to their surface modification.
多孔材料在化工和高新技术领域应用广泛,对其表面进行改性成为近年研究热点。
A new type of catalytic distillation column has been developed by means of surface modification and catalyst combination to sintered metal porous materials.
采用特定的方法对金属烧结多孔材料进行表面改性和催化剂复合,开发出一种新型的催化蒸馏构件。
Engineers are developing more efficient methods to mass produce non-uniform porous materials and solid foams that can be tailored to specific structural applications.
工程师们正在研发更多高效的方法,批量生产非均匀性多孔材料和固体泡沫,以适应具体的结构应用。
Firstly, the sintered metal porous material is determined be used for rectifying tube after the experiment comparison of 4 types and 6 kinds of porous materials.
首先,通过对4种类型6种材料试验比较,最后确定以烧结金属多孔材料制作整流筒。
The densification and deformation behavior of porous materials during the ECAP process were investigated by (thermo -) mechanical coupling finite element method.
针对粉末多孔材料,采用体积可压缩刚粘塑性热力耦合有限元法对其等径角挤压过程进行模拟分析。
Current frontier researches on nano-materials and porous materials provide new ideas and approaches for the design and the fabrication of new absorbing materials.
而当前纳米材料和多孔材料的前沿研究为新型吸波材料的设计和制备提供了新的思路和途径。
Current frontier researches on nano-materials and porous materials provide new ideas and approaches for the design and the fabrication of new absorbing materials.
而当前纳米材料和多孔材料的前沿研究为新型吸波材料的设计和制备提供了新的思路和途径。
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