稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2008年
8期
1419-1423
,共5页
裴沛%宋西平%赵铭%张沛龙%陈国良
裴沛%宋西平%趙銘%張沛龍%陳國良
배패%송서평%조명%장패룡%진국량
储氢合金%Ti-V-Cr合金%V基固溶体%Laves相
儲氫閤金%Ti-V-Cr閤金%V基固溶體%Laves相
저경합금%Ti-V-Cr합금%V기고용체%Laves상
hydrogen storage alloy%Ti-V-Cr alloy%V based solid solution%Laves phase
研究了V含量由5at%升高到35at%时,Ti-V-Cr储氢合金组织、相结构及储氢性能的变化.SEM及XRD结果显示:V含量为5at%的Ti-V-Cr合金由Cr1.97Ti1.07相和Cr2Ti相及很少量的Ti相组成;V含量为10at%的Ti-V-Cr合金除了包含前述的3相外还出现了一定量的V基bcc固溶体相;而V含量为35at%的Ti-V-Cr合金转变为以V基bcc固溶体为主相的固溶体储氢合金.随着V含量的升高和组织结构的变化,Ti-V-Cr合金最大吸氢量升高,放氢率也增大,但是吸氢速率显著减小,活化性能变差.室温下,V含量为35at%的合金具有最大的吸氢量并且放氢率也最高,最大储氢量和放氢率分别是2.86%(质量分数)和61%.
研究瞭V含量由5at%升高到35at%時,Ti-V-Cr儲氫閤金組織、相結構及儲氫性能的變化.SEM及XRD結果顯示:V含量為5at%的Ti-V-Cr閤金由Cr1.97Ti1.07相和Cr2Ti相及很少量的Ti相組成;V含量為10at%的Ti-V-Cr閤金除瞭包含前述的3相外還齣現瞭一定量的V基bcc固溶體相;而V含量為35at%的Ti-V-Cr閤金轉變為以V基bcc固溶體為主相的固溶體儲氫閤金.隨著V含量的升高和組織結構的變化,Ti-V-Cr閤金最大吸氫量升高,放氫率也增大,但是吸氫速率顯著減小,活化性能變差.室溫下,V含量為35at%的閤金具有最大的吸氫量併且放氫率也最高,最大儲氫量和放氫率分彆是2.86%(質量分數)和61%.
연구료V함량유5at%승고도35at%시,Ti-V-Cr저경합금조직、상결구급저경성능적변화.SEM급XRD결과현시:V함량위5at%적Ti-V-Cr합금유Cr1.97Ti1.07상화Cr2Ti상급흔소량적Ti상조성;V함량위10at%적Ti-V-Cr합금제료포함전술적3상외환출현료일정량적V기bcc고용체상;이V함량위35at%적Ti-V-Cr합금전변위이V기bcc고용체위주상적고용체저경합금.수착V함량적승고화조직결구적변화,Ti-V-Cr합금최대흡경량승고,방경솔야증대,단시흡경속솔현저감소,활화성능변차.실온하,V함량위35at%적합금구유최대적흡경량병차방경솔야최고,최대저경량화방경솔분별시2.86%(질량분수)화61%.
The microstructure and hydrogen storage property changes with V contents from 5aWo to 35at%in Ti-V-Cr alloys were investigated.According to the SEM and XRD results,the microstructure of Ti-V-Cr alloy with 5at%V content consists of Cr1.97Ti1.07 phase,Cr2Ti phase and small amount of Ti phase;besides the phases which is the same as the 5at%one,Ti-V-Cr alloy with 10at%V content still contains an amount of V based solid solution;when V content is up to 35at%,the main phase existing in the Ti-V-Cr alloy is only V based solid solution.Accompanying with the changes of the phase constitution and microstructure,hydrogen storage properties of Ti-V-Cr alloy vary remarkably.With the increase of V content,the maximum hydrogen storage capacity of Ti-V-Cr alloy increases continuously,and the hydrogen desorption ability increases either,but the kinetic and activation properties become worse.Among all the alloys studied,(TiCr)65V35 shows the largest hydrogen storage capacity,and the highest hydrogen desorption ratio at room temperature;Under the condition in the present research,the maximum hydrogen storage capacity and the hydrogen desorption ratio of the(TiCr)65V35 alloy are 2.86%(mass fraction)and 61%,respectively.