氮、氧雜質(zhì)對<bold>V40Ti26Cr26Fe8 </bold>合金化學(xué)成分、微觀組織和貯氫性能的影響

朱鵬飛; 王倩; 吳朝玲; PengFei Zhu; Qian Wang; ChaoLing Wu

40Ti₂₆Cr₂₆Fe₈合金的貯氫能力隨著氮、氧雜質(zhì)含量的增加而明顯降低，主要作用機(jī)理如下：氧在V基合金中的溶解抑制了二氫化物相的形成，導(dǎo)致氫容量的降低（主要效應(yīng)），而氮與鈦結(jié)合形成了新的富氮鈦相，導(dǎo)致了主相成分的變化和晶格參數(shù)的減?。ǘ涡?yīng)）。;The synergetic effects of nitrogen and oxygen impurities on the micro-area chemical composition, microstructure, and hydrogen storage performance of V-Ti-Cr-Fe alloys were investigated through X-ray diffraction, scanning electron microscopy, optical microscopy, and pressure-composition-temperature (PCT) analyses. Results show that the hydrogen storage capacity of V₄₀Ti₂₆Cr₂₆Fe₈ alloy is obviously decreased with increasing the nitrogen and oxygen impurities. The mechanism for the decrease is as follows: the oxygen dissolved in V-based alloys suppresses the formation of the dihydride phase, resulting in the decrease in hydrogen capacity (primary effect); while the nitrogen is bound with titanium forming a new nitrogen-titanium-enriched phase, which results in composition change of the main phase and decreases the lattice parameter (secondary effect)."/>

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