电化学技术作为一种有效的合成和分析方法在能量转换、生物、熔盐和腐蚀科学等领域倍受关注。
Electrochemical technique as an effective synthesis and analysis approach has attracted much attention in many fields including energy transform, biology, metallurgy and corrosion science etc.
采用高温熔盐灼烧法研究t 2钛合金高温腐蚀动力学及腐蚀行为。
High temperature corrosion kinetics and corrosion behavior of T2 Titanium alloy were studied by oxidizing in melting salt.
针对熔盐冷却器发生泄漏及产生爆管的现象,分析可导致腐蚀的各种原因,并提出了相应的对策措施,取得了良好效果。
Aimed at the leaking and tube blasting of melt salt cooler, analyzes various reasons for the corrosion, and presents relative countermeasures, obtaining good results.
根据热腐蚀的特点,吸收盐熔模型的合理成分,并考虑到热腐蚀与高温气体腐蚀的共性,提出热腐蚀的电化学模型。
The rational aspects of the fluxing model as well as the general characteristics existing in high temperature gaseous corrosion and hot corrosion are considered in the electrochemical model.
当处于较高的SO 3分压时,钴或氧化钴在合金表面熔盐中的溶解是造成合金抗腐蚀性能退化的原因。
The rapid degradation of corrosion resistance of alloy is attributed to the dissolution of both cobalt and cobalt oxide on the surface at high SO3 levels.
在熔盐中容易腐蚀的金属,例如钛,可以在熔盐中用阴极保护而进行热处理。
Metals readily corrodible in fused salt, such as titanium, can be heat treated in fused salt bath under cathodic protection.
利用X射线衍射(XRD)和扫描电镜(sem)等手段,对高温熔盐热腐蚀后的组织形貌、元素分布及物相进行了分析。
The microstructure? Element distribution and phase after hot-corrosion were analysed by means of X-ray diffraction (XRD) and scanning electron microscope (SEM).
对作为析氧阳极的氧化锆固体电解质在带电和不带电条件下,于冰晶石熔盐中的腐蚀行为进行定性研究。
The corrosion behavior of solid electrolyte used for the evolution of oxygen in molten cryolite salt was studied.
熔盐电镀时通过控制各种参数使镀层更加均匀致密,从而提高表面抗腐蚀能力。
The coating is more uniform and dense by controlling various parameters during plating in the molten salt, so the corrosion resistance of the surface is improved.
依据熔盐电化学模型讨论了熔灰腐蚀机理。
The corrosion mechanisms of melted ash are discussed on the basis of electro-chemical model of melted salts.
依据熔盐电化学模型讨论了熔灰腐蚀机理。
The corrosion mechanisms of melted ash are discussed on the basis of electro-chemical model of melted salts.
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