电子显微学报
電子顯微學報
전자현미학보
JOURNAL OF CHINESE ELECTRON MICROSCOPY SOCIETY
2014年
4期
300-305
,共6页
王晓冬%李海鑫%臧科涛%毛圣成%张泽%韩晓东
王曉鼕%李海鑫%臧科濤%毛聖成%張澤%韓曉東
왕효동%리해흠%장과도%모골성%장택%한효동
NiTi合金%原位TEM%纳米尺寸%应力诱发马氏体相变
NiTi閤金%原位TEM%納米呎吋%應力誘髮馬氏體相變
NiTi합금%원위TEM%납미척촌%응력유발마씨체상변
NiTi alloys%in situ TEM%nano size%stress-induced martensitic transformation
纳米尺寸NiTi合金中的马氏体相变行为决定了其在微纳尺度的应用。利用透射电镜( TEM)对拉伸变形NiTi微带中的马氏体相变行为进行了原位研究。发现当应变达到0?9%时,马氏体首先在取向择优的晶粒内形核、长大和扩展。继续拉伸样品至断裂(应变为5?2%),相邻取向不择优的晶粒内没有观察到马氏体形核。由于NiTi微带包含不容易发生马氏体相变的晶粒,且发生相变的晶粒内应力集中,导致其断裂应变远小于块体样品的断裂应变。实验结果说明当将NiTi合金应用于微纳尺度时需充分考虑纳米尺寸材料中的马氏体相变行为及其力学性能的影响。
納米呎吋NiTi閤金中的馬氏體相變行為決定瞭其在微納呎度的應用。利用透射電鏡( TEM)對拉伸變形NiTi微帶中的馬氏體相變行為進行瞭原位研究。髮現噹應變達到0?9%時,馬氏體首先在取嚮擇優的晶粒內形覈、長大和擴展。繼續拉伸樣品至斷裂(應變為5?2%),相鄰取嚮不擇優的晶粒內沒有觀察到馬氏體形覈。由于NiTi微帶包含不容易髮生馬氏體相變的晶粒,且髮生相變的晶粒內應力集中,導緻其斷裂應變遠小于塊體樣品的斷裂應變。實驗結果說明噹將NiTi閤金應用于微納呎度時需充分攷慮納米呎吋材料中的馬氏體相變行為及其力學性能的影響。
납미척촌NiTi합금중적마씨체상변행위결정료기재미납척도적응용。이용투사전경( TEM)대랍신변형NiTi미대중적마씨체상변행위진행료원위연구。발현당응변체도0?9%시,마씨체수선재취향택우적정립내형핵、장대화확전。계속랍신양품지단렬(응변위5?2%),상린취향불택우적정립내몰유관찰도마씨체형핵。유우NiTi미대포함불용역발생마씨체상변적정립,차발생상변적정립내응력집중,도치기단렬응변원소우괴체양품적단렬응변。실험결과설명당장NiTi합금응용우미납척도시수충분고필납미척촌재료중적마씨체상변행위급기역학성능적영향。
Martensitic transformation in nanosized NiTi alloys determines its application in micro- and nanoscale. The martensitic transformation behaviors in nanometric NiTi alloys were in situ studied in TEM. The results show that the martensitic plates first nucleate, grow and propagate in grains with preferred orientation when the strain reaches 0?9%. However, no martensitic plate nucleates in grain with none-preferred orientation. Due to the none-transforming grain as a component of the strip and the stress localization in the transforming grains, the fracture strain of NiTi strip is much smaller than that of the bulk materials. The results indicate that when the NiTi alloys is applicated in micro- and nano-scale, the martensitic transformation behaviors in nanosized NiTi and its influence on the mechanical properties should be thoroughly considered.