核技术
覈技術
핵기술
Nuclear Techniques
2015年
11期
110201-1-110201-6
,共1页
李月%范红玉%杨铭%张义武%牛金海
李月%範紅玉%楊銘%張義武%牛金海
리월%범홍옥%양명%장의무%우금해
辐照损伤%钨%钼%纳米压痕%导电原子力显微镜
輻照損傷%鎢%鉬%納米壓痕%導電原子力顯微鏡
복조손상%오%목%납미압흔%도전원자력현미경
Irradiation damage%Tungsten%Molybdenum%Nano-identation%CAFM
钨和钼材料具有高熔点、高热导率、低溅射率等优点成为国际热核实验反应堆计划中面向等离子体材料的候选材料。因此研究钨和钼材料的辐照损伤行为对于认识面向等离子体材料的辐照损伤机制具有重要意义。本文采用120 eV的 He+在873 K对钨和钼材料进行辐照实验,利用纳米压痕仪与导电模式原子力显微镜(Conductive Atomic Force Microscopy, CAFM)相结合,原位比较了钨和钼材料在辐照前后的表面形貌、表面微结构以及表层缺陷分布的变化特征。结果表明,低能He+辐照会导致钨和钼材料的近表面产生纳米量级氦泡缺陷,这些氦泡缺陷的存在使得样品表面产生绒毛或波浪状结构。纳米压痕深度分析和扫描电镜的分析结果表明,低能He+辐照会对Mo材料产生明显的刻蚀作用。本工作对于进一步认识低能氦离子辐照对面向等离子体材料的辐照损伤作用具有一定的科学参考意义。
鎢和鉬材料具有高鎔點、高熱導率、低濺射率等優點成為國際熱覈實驗反應堆計劃中麵嚮等離子體材料的候選材料。因此研究鎢和鉬材料的輻照損傷行為對于認識麵嚮等離子體材料的輻照損傷機製具有重要意義。本文採用120 eV的 He+在873 K對鎢和鉬材料進行輻照實驗,利用納米壓痕儀與導電模式原子力顯微鏡(Conductive Atomic Force Microscopy, CAFM)相結閤,原位比較瞭鎢和鉬材料在輻照前後的錶麵形貌、錶麵微結構以及錶層缺陷分佈的變化特徵。結果錶明,低能He+輻照會導緻鎢和鉬材料的近錶麵產生納米量級氦泡缺陷,這些氦泡缺陷的存在使得樣品錶麵產生絨毛或波浪狀結構。納米壓痕深度分析和掃描電鏡的分析結果錶明,低能He+輻照會對Mo材料產生明顯的刻蝕作用。本工作對于進一步認識低能氦離子輻照對麵嚮等離子體材料的輻照損傷作用具有一定的科學參攷意義。
오화목재료구유고용점、고열도솔、저천사솔등우점성위국제열핵실험반응퇴계화중면향등리자체재료적후선재료。인차연구오화목재료적복조손상행위대우인식면향등리자체재료적복조손상궤제구유중요의의。본문채용120 eV적 He+재873 K대오화목재료진행복조실험,이용납미압흔의여도전모식원자력현미경(Conductive Atomic Force Microscopy, CAFM)상결합,원위비교료오화목재료재복조전후적표면형모、표면미결구이급표층결함분포적변화특정。결과표명,저능He+복조회도치오화목재료적근표면산생납미량급양포결함,저사양포결함적존재사득양품표면산생융모혹파랑상결구。납미압흔심도분석화소묘전경적분석결과표명,저능He+복조회대Mo재료산생명현적각식작용。본공작대우진일보인식저능양리자복조대면향등리자체재료적복조손상작용구유일정적과학삼고의의。
Background: Due to their high melting point, high thermal conductivity, low sputtering yield, tungsten (W) and molybdenum (Mo) have been regarded as the potential candidates for plasma facing materials in fusion reactors.Purpose: This study aims to understand the irradiation damage behavior of W and Mo for the development of key fusion reactors materials. Methods: Polycrystalline W and Mo materials have been irradiated by 120-eV He ions with the irradiation temperature at 873 K.In situ analysis of these samples was carried out using nano-identation masked technique and non-destructive conductive atomic force microscopy (CAFM). The morphology, microscopic evolution and distribution of defects of these samples before and after irradiation are compared.Results:Analysis indicated that a large number of nanometer-sized helium bubbles were formed near the sample surface. Over-high internal pressure of nanometer-sized helium bubbles may result in forming protuberances of irradiated W and Mo. The section analysis of nano-identation showed that an obvious etching effect was founded on Mo materials. Conclusion:This work is of great significance for further understanding of the low-energy ion irradiation damage on plasma facing materials.