试验采用比表面积分析仪、环境扫描电子显微镜、快速水分测定仪分别对纤维涂层形貌以及渗水特性进行表征。
The appearance and Water-releasing Characteristics were described by BET surface area measurement, the environment scanning electron microscope and fast water equipment.
用原子力显微镜(AFM),扫描电子显微镜(SEM),X 射线粉末衍射仪(XRD),BET 比表面积分析仪对其结构进行了表征。
The structures of RDX/RF aerogel were characterized by atomic force microscopy(AFM), scanning electron microscopy(SEM), X-ray powder diffraction(XRD), and BET method.
以碳酸铵为沉淀剂制备一系列高比表面积、高储氧性能的储氧材料,表征了其物相组成,同时对其储氧性能和比表面积进行了测定。
Oxygen storage materials which have high surface areas and super oxygen storage property were precipitated by ammonium carbonate, and its' phase, oxygen storage capacity, surface area et al.
在纳米粒子的性能表征中,比表面积是一个非常重要的参数。
The specific surface areas is an importance parameter in the performance measurement for the nanoparticles.
粉末用X射线衍射(XRD)、比表面积(BET)等手段进行了表征。
The powders were characterized by X-ray diffraction (XRD), BET surface areas.
对制得的样品进行了比表面积和SEM等表征,并用于染料活性翠蓝的脱色。
The specific surface area and SEM were performed to characterize the structure of samples, and the new acidified sludge-bentonite granule was applied to the decoloration of reactive turquoise blue.
预硫化催化剂的表征结果表明,催化剂硫化前后孔容和比表面积变化不大。
The characterization of pre-curing catalyst show that the pore volume and specific surface area had little change after vulcanization.
用原子吸收、碘价分析、活性和BET比表面积测定及XRD、TG -DTA、IR等手段,对催化剂和产物进行了物理和化学表征。
Physical and chemical properties of the catalysts were studied using activity measurement, BET surface area measurement, XRD, TG DTA and IR spectra etc.
根据正交试验,通过收率、比表面积及透射电镜表征分析得到了最佳纯化条件,以保证产品质量,降低制备成本。
Choice the best condition though the orthogonal experiments and analyzed of purification rate, BET data and TEM image. The quality was ensured and the cost of production was decreased.
考察了活化温度对活性炭电极比电容量的影响,研究了活性炭材料的比表面积和孔结构与活性炭电极的充放电性能之间的关系,并对活性碳电极进行了电化学表征。
The influences of the mass ratio of KOH to petroleum coke, microwave radiation power and time on the pore size distribution of the activated carbon and the specific capacitance of EDLC were studied.
对于优化粉煤灰,用透气法测定其比表面积比用筛析法测定的细度,更适宜于表征粉煤灰的品质。
For optimized fly ashes, specific surface value determined by air permeability method is more desirable than fineness value by sieve analys...
对于优化粉煤灰,用透气法测定其比表面积比用筛析法测定的细度,更适宜于表征粉煤灰的品质。
For optimized fly ashes, specific surface value determined by air permeability method is more desirable than fineness value by sieve analys...
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