1) protection roast
保护焙烧
2) Roasting
[英]['rəʊstɪŋ] [美]['rostɪŋ]
焙烧
1.
A Study on Manganese Carbonate Enrichment from Discarded Tailings by Ammonium Salt Roasting;
废弃尾矿中碳酸锰矿铵盐焙烧富集工艺研究
2.
Study on roasting mechanism of pellet made from Jidong magnetite concentrates;
冀东磁铁精矿球团焙烧机理的研究
3.
An experimental research on extracting gold and silver from acid leaching residue of gold concentrate containing arsenic after two stages of roasting;
从含砷金精矿二段焙烧酸浸渣中氰化浸出金银的试验研究
3) calcination
[英][,kælsi'neiʃən] [美][,kælsɪ'neʃən]
焙烧
1.
The effect of calcination conditions on the photocatalytic performance of CaTiO_3;
焙烧条件对CaTiO_3光催化性能的影响
2.
Novel fixed-bed Raney nickel catalysts(Ⅰ) Compositions and calcination conditions of alloy extrudates;
新型固定床Raney镍(Ⅰ)成型合金的组成与焙烧条件
3.
Transfer Process of Mercury during Calcination,and Study on the Treatment of Mercury-bearing Solid Waste;
含汞固废(危废)焙烧过程汞的迁移及治理技术研究
4) roast
[英][rəʊst] [美][rost]
焙烧
1.
Sulfur-retained in roasting process of molybdenite concentrate by pyrolusite;
软锰矿在辉钼矿焙烧过程中的固硫作用
2.
A new pretreatment technology of refractory gold ore-mierowave roast;
难浸金矿石预处理新工艺——微波焙烧
3.
Study on the Process of Producing Vanadium Pentoxide from Bone Coal Vanadium Mine by No-salt-roasting and Acid Leaching;
含钒石煤无盐焙烧酸浸生产五氧化二钒工艺的研究
5) calcinations
焙烧
1.
The paper presents the activated calcinations temperature of bauxite and the optimum digestion conditions of activated bauxite as well as its feasibility.
为了强化铝土矿的溶出工艺,提出对矿石增加焙烧来活化矿石,以降低溶出条件,拓宽溶出范围。
2.
The removing of titanium and iron from bauxite tails by calcinations with(NH4)2SO4 was studied,and the surface modification of bauxite tails by mechanical force was investigated.
采用铵化焙烧及机械力化学法对铝土矿进行尾矿除钛和铁及其表面化学改性。
3.
The effects of different order of impregnation and calcinations atmosphere on catalyst are investigated by the solution test in toluene.
用甲苯溶解试验,通过C60在MoO3/Al2O3催化剂上不同担载方式,研究了用N2、He及Air焙烧作用。
6) Baking
[英]['beɪkɪŋ] [美]['bekɪŋ]
焙烧
1.
The commercial application of high temperature fume in baking pre-baked anode aluminum reduction cell;
高温烟气焙烧铝电解预焙槽的工业应用
2.
The influence of manganese powder baking on the performances of activated chemical manganese dioxide;
锰粉焙烧工艺对活性二氧化锰性能的影响
3.
The practice of baking start-up on 330kA aluminium electrolytic pot of Guangxi Investment Group
广西投资集团330kA铝电解槽焙烧启动实践
补充资料:材料保护 :电化学保护
通过改变极性或移动金属的阳极极化电位达到钝态区来抑制或降低金属结构腐蚀的材料保护技术。从伽法尼电池的两个金属电极来观察﹐腐蚀总是发生在阳极上。阴极保护就是在潮湿的土壤或含有电解质(如盐等)的水液等电解液中﹐利用牺牲阳极(如锌﹑铝等)或外加电流的惰性阳极﹐使被保护的钢铁结构成为这种人为的伽法尼电池中的阴极。在同一腐蚀环境中﹐活性较大的是阳极﹐较小的是阴极﹐例如在海水中﹐锌与低碳钢间如构成电解电池﹐锌就是阳极﹐钢就是阴极﹔但如果钢与不锈钢形成电解电池时﹐钢又变为阳极﹐不锈钢是阴极。所谓阴极﹐实际上是使电解液中的阳离子获得电子而还原的一个电极。因此﹐利用外加直流电源使它获得电子补充﹐也属於阴极保护方法。在不同的腐蚀介质中所需的保护电流密度不一。钢在土壤内﹐约为 0.0001~0.005安/分米3﹐在流动海水中约为0.0003~0.0015安/分米3﹐而在流动淡水中为0.005安/分米3 。阴极保护广泛用於保护地下管道﹑通信或电力电缆﹑闸门﹑船舶和海上平台等以及与土壤或海水等接触面积很大的工件﹐电化学保护与涂装结合则更为经济。城市和大型工厂的地下金属设备可採用这种保护方法﹐但需要注意杂散电流不致影响邻近地下金属设施的加速腐蚀。阳极保护主要用於保护钢﹑不锈钢和鈦等在浓硫酸和磷酸等强介质中的腐蚀。活性-钝性金属在阳极极化时﹐即电流导入而產生电位变化时﹐其极化曲线中有显著的活化﹑钝化和过钝化区(见图 阳极保护原理的极化曲线
)﹐对於这种情况﹐可利用稳压电源将电位控制在钝化区间﹐使腐蚀电流值降到最低限度。
)﹐对於这种情况﹐可利用稳压电源将电位控制在钝化区间﹐使腐蚀电流值降到最低限度。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条