- 期刊
純Ti及Ti-Al合金在H2/H2S/H2O混合氣氛下之高溫腐蝕
The high-temperature corrosion of pure Ti and Ti-Al alloys in a H2/H2S/H2O gas mixture
摘要
本研究探討純Ti、Ti3Al及Ti3Al+TiAl合金於H2/H2S/H2O混合氣氛下,溫度範圍800~1000℃間的高溫腐蝕行爲。研究結果顯示,純Ti,Ti3Al及Ti3Al+TiAl合金的腐蝕動力學皆遵守拋物線型定律,且腐蝕速率隨著溫度的增加而加快,但隨著鋁含量的增加而降低。純Ti在800~1000℃的腐蝕生成物皆是TiO2,而Ti3Al和Ti3Al+TiAl則形成兩層易剝落的腐蝕物,包括外層的TiO2,及內層多量TiO2和少量的Al2O3和微量的Ti(下标 1-x)S,其中,Al2O3的生成是造成Ti3Al和Ti3Al+TiAl合金腐蝕速率較純Ti爲低的主因。
並列摘要
The corrosion behavior of pure Ti,Ti3Al,and Ti3Al+TiAl was studied over the temperature range of 800~1000℃ in a H2/H2S/H2O gas mixture. The corrosion kinetics of pure Ti and both alloys followed the parabolic rate law at all temperatures. The corrosion rate constants increased with increasing temperature, but decreased with increasing Al content. The scale formed on pure Ti is exclusively TiO2 regardless of temperature, while the scales formed onTi3Al and Ti3Al+TiAl were duplex and always spalled after cooling, consisting of the outer-layer of most TiO2 and the inner-layer of most TiO2, Al2O3, and minor Ti(subscript 1-x)S. The formation of Al2O3 is responsible for the reduction in the corrosion rates of Ti-Al alloys as compared to those of pure Ti.
被引用紀錄
延伸閱讀
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