1.
Experimental Study and Correction of the Absorption and Enhancement Effect between Ti,V and Fe
钛钒铁间吸收增强效应研究及其校正
2.
Effect: Used together with catgut, promote absorption effect.
功效:与中药羊肠线配伍,促进吸收增强疗效。
3.
The Study of Hydrogen Absorption by Vanadium and Enhanced Hydrogen Absorption Effect of Vanadium-Lithium Alloy;
钒吸氢及钒锂合金增强吸氢效应的研究
4.
The Study of Hydrogen Absorption by and Titanium Enhanced Hydrogen Absorption Effect of Titanium-Lithium Alloy;
钛吸氢及钛锂合金增强吸氢效应的研究
5.
The Study of Hydrogen Absorption by Zirconium and Enhanced Hydrogen Absorption Effect of Zirconium-Lithium Alloy
锆吸氢及锆锂合金增强吸氢效应的研究
6.
Mechanism of Enhancement of Surfactants on Manganese in Flame Atomic Absorption Spectrometry
火焰原子吸收分析中表面活性剂对锰吸收讯号的增感效应及机理
7.
The Characteristics of Nitrogen Absorption and Its Effect on Grain Yield in Ratoon Rice;
再生稻的N素吸收特性及增产效应的研究
8.
Moisture Absorption Effect Study of Reinforced Rigid Polyurethane Foams
增强硬质聚氨酯泡沫塑料的吸湿效应研究
9.
THE ENHANCING EFFECT OF LIGANDS ON ATOMIC ABSORBANCE OF Cu FOR FLAME AAS ANALYSIS
火焰原子吸收中配位体对铜原子吸光度的增感效应
10.
absorption strength
吸收强度, 吸收力
11.
Research and Application on Photoacoustic Spectroscopy and Cavity Enhanced Absorption Spectroscopy Techniques;
光声光谱和腔内增强吸收光谱技术的研究与应用
12.
The Application of Self-reinforced Resorbable Fixation System to the Case of Maxillofacial Fracture
自身增强型可吸收内固定系统在颌面骨折中的应用
13.
Surface Enhanced Raman Scattering Effect for the Application of Adsorption Dynamics
表面增强喇曼散射效应在表面吸附动力学中的应用
14.
DETERMINATION OF ADDUCT NUMBER OF DODECANOL POLYOXYETHYLENE ETHER BY ENHANCEMENT EFFECT OF SURFACTANTS IN FLAME ATOMIC ABSORPTION SPECTROMETRY
利用火焰原子吸收中的增感效应测定十二醇聚氧乙烯醚的加成数
15.
Enhancing effect of LaCl_3 on atomic Absorption spectrometry of calcium using air─acetrylene flame;
空气──乙炔火焰原子吸收测定钙时氯化镧增感效应的影响
16.
Study on the Enhancement Mechanism of the Gas Absorption Process by the Adsorptive Particles;
吸附剂颗粒增强气体吸收过程的机理研究
17.
The Study of Fluorescent Semiconductor Nanoparticles-Organic Dye Composites with Strong Two-Photon Absorption Effect;
强双光子吸收效应半导体纳米与有机物复合材料的研制
18.
Additional absorption increased with irradiation dose increasing.
随着辐照剂量的增加,色心附加吸收峰增强。