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1)  manganese slag
锰渣
1.
Study on geopolymer prepared by manganese slag;
锰渣制备地质聚合物的研究
2.
Physical activation effect is better for manganese slag than for off ash gas.
锰渣(水淬后)和烟道灰的活性进行物理激发试验,结果表明采取机械球磨的方式可使锰渣和烟气灰的活性得到激发。
3.
Grindability experiments for the manganese slag and the off gas ash from ferroman-ganese alloy factory were carried out.
对锰铁合金生产过程中产生的锰渣和烟道灰进行了粉磨性能试验。
2)  manganese residue
锰渣
1.
The process conditions for extraction of manganese from electrolytic manganese residue by ultrasonic-assisted leaching with additive were investigated using 8-hydroxyquinoline,potassium xanthate,cetyl trimethyl ammonium bromide,tributyl phosphate and citric acid as leaching additives.
用8-羟基喹啉、黄原酸钾、十六烷基三甲基溴化铵、磷酸三丁酯、柠檬酸5种物质作浸取助剂,考察了助剂作用下超声辅助浸取法从电解锰渣中提取锰的工艺条件。
2.
The pore volume and specific surface area of manganese residue were measured by using N2 adsorption method(ASAP2010).
采用氮气吸附法通过ASAP2010型比表面积孔径分布仪测定了锰渣的孔容分布及比表面积特征,结合吸附理论对锰渣用于废水处理的可行性进行了分析探讨,并通过正交试验和单因素方法研究了锰渣用于含铜废水处理的影响因素。
3)  manganese mine tailings
锰矿尾渣
1.
Adsorption of Pb~(2+) on chitosan modified by manganese mine tailings
锰矿尾渣改性壳聚糖对Pb~(2+)的吸附
2.
The adsorption of heavy metal ions such as Cu2+ and Ni2+ by manganese mine tailings was studied.
研究了锰矿尾渣对重金属离子Cu2+和Ni2+的吸附性能,分析了锰矿尾渣的吸附动力学,就吸附时间、Cu2+和Ni2+浓度及pH值等因素对锰矿尾渣吸附性能的影响作了系统考察,并对锰矿尾渣的吸附机理进行了初步探讨。
4)  Mn mining tailings
锰尾渣
1.
The aim of this study was to investigate the influence of amendments of Mn mining tailings with red soil on the phytoextractive potential of Mn by four plant species,such as Phytolacca acinosa,Phytolacca americana,Polygonum lapathifolium,Amaranthus paniculatus.
采用盆栽法研究锰尾渣改良对商陆(Phytolacca acinosa)、美洲商陆(Phytolacca americana)、繁穗苋(Amaranthus paniculatus)和酸模叶蓼(Polygonum lapathif olium)4种植物吸收锰的影响。
5)  manganese-rich slag
富锰渣
1.
The process investigation of preparing anhydrous MnCl_2 from manganese-rich slag;
由富锰渣制备无水氯化锰的工艺探索
2.
To reduce electricity consumption, the process of preheating manganese ore and hot charging in rotary kiln is to adopted to produce manganese-rich slag for smelting metal manganese and high carbon ferromanganese.
为降低电耗,提高电炉生产能力,采用回转窑预热锰矿和热装工艺生产富锰渣用于冶炼金属锰和高碳 锰铁。
3.
During the experiment, smelting parameters such as smelting temperature, smelting time, material particle size, slag basicity and manganese-rich slag ratio were adjusted to lead to electricity decrease.
试验采用中频感应炉进行AlMnSiTi合金冶炼试验,并用正交试验法对冶炼相关参数如冶炼温度、冶炼时间、原料粒度、炉渣碱度和富锰渣配比量等进行调整,从而达到节能的目的。
6)  electrolysis manganese residue
电解锰渣
1.
The burned electrolysis manganese residue and fly ash complex admixture was made by mixing in different mixture ratio of burned electrolysis manganese residue and fly ash.
将电解锰渣分别在300℃、600℃、700℃、750℃、800℃和850℃温度下煅烧,制得煅烧电解锰渣料,再将其与不同比例的粉煤灰配合制成煅烧电解锰渣-粉煤灰复合掺合料,利用化学成分分析、DTA和XRD图谱分析及强度测试,对各掺合料-水泥体系的水化性能进行了研究。
2.
The paper analyses electrolysis manganese residued by chemistry composition,DTA,XRD,and strength test.
化学成分、DTA、XRD图谱分析和对不同温度下煅烧的电解锰渣的强度测试表明:电解锰渣属工业副产品化学石膏,低温下无水化活性和胶凝性,经一定温度煅烧后,具有较好的脱水石膏活性和火山灰活性。
补充资料:干渣渣
1.缺乏水分而呈渣屑的样子。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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