1.
The results of dezincing reduction dynamics show that under chosen technological conditions, dezincing velocity of the pellet is more quick, and dezincing rate can be reached to above90%.
通过脱锌还原动力学研究表明:在给定工艺条件下,球团有较快的脱锌速度,脱锌率可达90%上。
2.
Experimental Research of Zinc Removal from Dust of EAF in Microwave Field
电炉含锌粉尘在微波场下脱锌的试验研究
3.
Impact of technologic condition selected for roasting zinc concentrate on recovered ratio of total sulfur and zinc in hydro-metallurgical extracting zinc
锌精矿焙烧工艺条件对湿法炼锌总硫利用率及锌浸出率的影响
4.
Study on Desulfurization Performance at Ambient Temperature and Regeneration of Nanocrystalline Zinc-Base Sorbent;
纳米锌基脱硫剂室温脱硫效能及再生研究
5.
Preparation of Nanometer Zinc Oxide Desulfurization Agents and Their Desulfurization Performance;
纳米氧化锌脱硫剂的制备及脱硫性能研究
6.
Copper-zinc alloys--Determination of dezincification corrosion resistance
GB/T10119-1988黄铜耐脱锌腐蚀性能的测定
7.
The Preparation of ZnFe_2O_4 Hot Coal Gas Desulfurizer under Irradiation;
辐照下铁酸锌高温煤气脱硫剂的制备
8.
STUDY ON PREPARATION OF GRANULATED ABSORBENT OF MONTMORILLONITE FOR TREATMENT ZINC
蒙脱石颗粒吸附剂的制备及除锌研究
9.
Analysis of Dilation and Loss Ratio in Fankou Pb-Zn Mine
凡口铅锌矿采场贫化率与损失率分析
10.
Effects of Zinc Supply Methods on Growth and Zinc Nutrition Quality of Wheat Genotypes of Different Zinc Efficiency
供锌方式对不同锌效率小麦基因型生长和锌营养品质的影响
11.
Effects of Calcium Zincate morphology on high-rate charge/discharge of Zinc negative
锌酸钙形貌对锌负极大倍率充放电的影响
12.
Sight was restored for 99% blind eyes and 88.2% of the blind were able to resume work.
6及以上者14眼(15%)。 脱盲率99%、脱残率88%;
13.
The unilateral recovery rate from disabled is 72%,from blindness is 95%,The rate of the graft transparency is 91%.
单眼脱残率为72%,脱盲率为95%;植片透明率为91%。
14.
In order to ascertain the dezincing mechanism from metallurgical zinc-bearing dust and sludge, the characteristics of temperature increasing in microwave field were investigated using the zinc-bearing dust and sludge samples.
为了弄清含锌冶金尘泥脱锌的反应机理,在微波场中研究了含锌冶金尘泥的升温特性。
15.
Change in rate of serum copper/zinc after contusion of retina
视网膜挫伤后血清铜锌比率的改变
16.
"Copper sheathed, tin coated low watt density elements easily replaceable."
镀锌铜壳低功率密度加热棒,更换容易。
17.
Study on High Power NiZn Ferrite Materials with High Performanc;
高性能大功率镍锌基铁氧体材料研究
18.
Models of Compensation Ratio and Mobility of Wurtzite n-GaN;
纤锌矿n-GaN的补偿度及迁移率模型