The calcium silicate board is a new type of the wall material.
硅酸钙板是一种新型墙体材料。
So this material could replace solid-chamotte as wall material.
可代替实心粘土砖作为墙体材料使用。
Wall material must afford privacy and protection from the elements.
墙壁材料应能够保护隐私,同时必须提供基本的保护。
The concrete perforated brick is a new type of bearing-wall material.
混凝土多孔砖是近年来兴起的新型承重墙体材料。
It has thousands of years' history as conventional wall material in China.
它作为传统的墙体材料在中国已有数千年的历史。
Wall material must consider the fire, moisture-proof, high intensity factors.
隔墙材料须考虑防火、防潮、强度高等诸多因素。
For most engines, cast iron has been found to be a satisfactory cylinder-wall material.
在大部分发动机中,采用铸铁做为气缸壁的良好材料。
The application of wet discharged fly ash in wall material were studied by compared the experiment.
本文通过对比试验,对湿排粉煤灰在墙体材料中的应用进行了研究。
It was found that the encapsulation rate increased with decrease in concentration of wall material.
随着壁材总浓度的增大,芯材乙酸油酯包覆率呈现先上升后下降的变化趋势。
This computer management information system is set up for wall material of building energy saving in Beijing.
本系统是为北京市建筑节能墙体材料建立的计算机管理信息系统。
Gypsum block is an internal wall material with good performance, whose disadvantage is poor water resistance.
石膏砌块是一种性能优良的内墙材料,其缺点是耐水性差。
The new compound energy saving wall material was made of straw, fly ash, cement as main raw, and some admixtures.
新型复合节能墙体材料是以秸秆、粉煤灰、水泥为主要材料,配以各种外加剂而制成。
Wall material production enterprises shall recycle non-toxic harmless solid waste or building waste in production.
墙体材料生产企业应当利用无毒无害的固体废物、建筑废物生产墙体材料产品。
This thesis mainly investigates the strength and the shrinkage Properties of steam-cured fly ash aerated wall material.
本文主要研究了蒸养粉煤灰陶粒墙体材料强度及收缩性能。
Such rigid concrete to be used as diaphragm wall material has a good adaptability to the deformation of surrounding media.
这种刚性混凝土作防渗墙墙体材料对周围介质的变形有较好的适应能力。
The type of building materials is few, specially the wall material, the newly built housing nearly use the solid loam brick.
建材种类较单一,特别是墙体材料,新建住宅几乎都采用实心粘土砖。住宅构造做法也较少。
Tailings of Handan Iron Mine were used to produce light heat-insulation wall material by starch pulping and solidification method.
以邯郸铁矿尾矿为原料,采用淀粉糊化固化法制备轻质隔热墙体材料。
It is the ideal light quality energy-conserving wall material, Have positive function in replacing the traditional clay brick building.
该板是理想的轻质节能墙体材料,对取代传统的黏土砖建筑有着积极的作用。
The fragrant microcapsule was prepared with gelatin and Arabic gum as the wall material and rose essence as core by compounding and coagulation.
以明胶和阿拉伯树胶为微胶囊的壁材,玫瑰香精为芯材,采用复凝聚法制备香精微胶囊。
The diatom mud wall material although superior performance, but its texture is relatively rough, the use of space subject to certain limitations.
硅藻泥壁材虽然性能优越,但是其纹理比较粗狂,空间使用受到一定局限。
The result shows that comprehensive evaluation system of new wall material is reasonable and feasible and also good in practicability and veracity.
结果表明,研究形成的新型墙体材料综合评价体系合理可行,具有很好的实用性和准确性。
The formative sludge cake can be used as auxiliary raw material to bake wall material and achieve reutilization of sludge and a benign end disposal.
所形成的污泥滤饼可作为烧制墙体材料的辅助原料,实现了污泥的资源化利用和良性最终处置。
Using Arabic gum and malt dextrin as wall material of microcapsules, the microencapsulation technology of eucommia seed oil was studied in this work.
选用阿拉伯胶和麦芽糊精作微胶囊壁材,对喷雾干燥法制备杜仲籽油微胶囊的技术进行研究。
The relationship between developing conditions and image density, as well as the weight of microcapsule wall material and image density were obtained.
利用界面聚合法制备了亚微米级染料前体微胶囊和显色剂微胶囊,探讨了显影条件、囊壁材料用量与影像密度之间的关系。
It was found that microcapsules with gelatin-gum Arabic as wall material had smooth surface, superior transparence and encapsulation efficiency high to 91.2%.
经过研究发现,以明胶-阿拉伯胶为壁材得到的微胶囊,囊壁光滑、透明性好,对芯材包封率高,达到91.2%。
Microcapsules were prepared by interfacial polymerization, with adipoyl chloride-triethylenetetramine as wall material, and tetrachloroethylene as core material.
以己二酰氯-三乙烯四胺为壁材,四氯乙烯为芯材,通过界面聚合法制备微胶囊。
All the results indicate that interfacial polymerization between isocyanate and amine to form polyurea wall material is a quick, effective way for capsulation of wax.
实验结果表明由异氰酸酯与胺反应形成聚脲囊壁材料是一种快速、有效的包裹石蜡的方法。
The paper investigated the effects of the system modifier, stirring velocity and dosage of wall material on the sizes distribution and morphology of the microcapsules.
考察了系统调节剂、搅拌、壁材用量对微胶囊的粒径分布及其形貌的影响。
The results show that La mainly combines with cell wall material and the combination is extremely firm and it can only be released by powerful chelators, such as EDTA.
研究结果表明,镧被根吸收以后主要存在于细胞壁和细胞间隙中,且结合十分紧密,用强配位剂EDTA才能将其提取出来。
Microcapsules were prepared through two-step and one-step in situ polymerization method, with urea-formaldehyde as wall material, and tetrachloroethylene as core material.
以尿素-甲醛为壁材,四氯乙烯为芯材,通过两步原位聚合法和一步原位聚合法制备微胶囊。
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