提出了从高品位硒、碲废料中分离回收硒和碲的工艺。
The craft for separation and recovery of selenium and tellurium from high grade waste material has been put forward based on experiment results.
介绍碲的冶金效应原理及水基碲粉涂料的特点和应用。
The application and characteristic of water-based tellurium coating are mainly introduced in combine with the analysis of the metallurgical effect.
研究了冷压银衬底上铋和碲的欠电位沉积薄层电化学行为。
Thin-layer electrochemical studies of the underpotential deposition(UPD) of Bi and Te on cold rolled silver substrate have been performed.
并通过硫酸浸出高铅碲渣中碲的条件实验验证了热力学分析的结果。
Thermodynamic analysis results show that tellurium can be leached by sulfuric acid leaching method from lead-rich tellurium slag.
并通过硫酸浸出高铅碲渣中碲的条件实验验证了热力学分析的结果。
The experimental result shows that the sulfuric acid leaching method is more suitable for tellurium slag containing high lead than alkaline leaching method.
对高纯碲的制备方法以及碲的新材料在各方面的进行了详细的介绍。
Preparation of high pure tellurium and new materials with tellurium were also described. Copper anode slime was one of the main tellurium resources.
利用自制的离子交换纤维素纸研究了硒和碲的分离以及它们与许多一般离子共存时的分离条件。
Separation of selenium and tellurium and the conditions of separation in the presence of many common ions were investigated by means of cation-exchange. cellulose-paper prepared by ourselves.
回收率为97 ~ 101%.将本法应用于铜钛合金中微量碲的测定,不经分离,可得到满意的结果。
Recovery is 97 ~ 101%. Satisfactory results can be obtained without separation when this method is used to determine a micro amount of te in copper-titanium alloy.
某铜冶炼厂铜电解阳极泥处理过程中产生的综合渣中含碲量较高,为此进行了从该渣中浸出碲的试验研究。
The general slag produced in treating the anode sludge of copper electrolysis in a copper smelter has a high tellurium content and test is made on recovering the tellurium from the slag by leaching.
研究了采用氢化物原子荧光法同时对硒、碲进行直接测定的条件,拟定了适合于一般地质样品中痕量硒和碲的分析方法。
The conditions to determine Se and te directly and simultaneously with hydride AFS is studied. A method suitable for determination of trace Se and te in general geological sample is worker out.
例如在元素周期表中,碲排在碘之前,尽管它的原子质量略大一些。
For example, tellurium comes before iodine in the periodic table, even though its atomic mass is slightly greater.
它们之所以能起作用是因为一般的材料,比如碲化铋,如果其中一部分比另一部分热,内部就会产生电位差。
They work because certain materials, such as bismuth telluride, generate an electrical potential difference within themselves if one part is hotter than another.
第二个所愿望之物——低热量和高导电性,是通过将整个铋碲划分成几个纳米颗粒实现的。
The second desideratum, of low thermal and high electrical conductivity, was achieved by dividing the bismuth telluride into pellets a few nanometres across.
碲和铟的短缺可能破灭一些型号的薄膜太阳能电池的开发前景,但不是所有。其他的型号也许能弥补上空白。
Limited supplies of tellurium and indium could reduce the prospects for some types of thin-film solar cells, though not for all; the other types might be able to take up the slack.
光伏电池依赖于非晶态或晶态的硅,碲化镉或者硒化、硫化铜铟。
Photovoltaic cells rely on amorphous or crystalline silicon, cadmium telluride, or copper indium selenide and sulfide.
而真正能降低太阳能发电成本的就是使用新材料——比如使用碲化镉制成的半导体材料。
What may really help to lower the cost of solar are new materials-especially semiconductors made from the compound cadmium telluride.
由于声控打印机比其他喷洒技术更容易控制,该技术消耗的碲化镉低于50%,而且还省去了一些需要昂贵工具参与的深入处理步骤。
Because acoustic printing provides finer control than other printing methods, the technique USES 50 percent less cadmium telluride and eliminates further processing steps that require expensive tools.
纳米晶体是由一种称为碲化镉的半导体材料所组成,这种材料对光线的吸收效果非常强。
The nanocrystals consist of a semiconducting material called cadmium telluride, which is a very strong absorber of light.
位于纽约尼什·卡纳的通用电气全球研究中心,一名研究人员正在分析碲化镉太阳能电池。
A researcher analyzes a cadmium telluride thin-film solar cell at General Electric's Global research Center in Niskayuna, New York.
碲化镉是一种比硅更便宜的光伏材料。
The compound is cheaper to use for photovoltaic material than silicon.
碲化锰镉磊晶层的活化能随著锰浓度的增加而逐渐变大。
However, the activation energy of CdMnTe epilayer increases with Mn concentration increasing.
介绍用碲涂料解决铸件渗漏的方法,对碲粉涂料防渗漏的作用形式、机理进行了探讨,并指出一些使用中的注意事项。
The leakage prevention effect types and mechanism of tellurium coating was approached, and some matters needing attention was proposed.
经碲变质处理的铝硅合金是制造高气密性铸件的理想材料。
The Al-si Alloy modified by tellurium is an ideal material for making high gastight castings.
采用离峰扣背景法校正了碲基体的干扰,测定结果令人满意。
The interference of the matrix have been corrected by off peak background correction method, satisfactory results were obtained.
采用离峰扣背景法校正了碲基体的干扰,测定结果令人满意。
The interference of the matrix have been corrected by off peak background correction method, satisfactory results were obtained.
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