工程技术研究

PET 薄膜中的 32S 核径迹在经受温度高于材料玻璃化转变温度的热处理后，会出现热退火现象。热退火效应会使径迹蚀刻速率发生改变，可以改变核径迹蚀刻微孔的形状。本工作通过使用扫描电子显微镜（SEM）观测样品的蚀刻微孔形貌，研究 PET 薄膜中 32S 核径迹的热退火效应。选用厚度 25μm 的 PET 薄膜，使用能量为 113.7MeV 的 32S 重离子束在低真空靶室中对其进行均匀辐照，对辐照样品进行一系列不同温度和时长的热处理后，使用常规双面蚀刻法在温度 65℃、浓度 5mol/L的 NaOH 水溶液中蚀刻 180min，制成核径迹微孔膜样品并使用通过方法观察核径迹蚀刻微孔的形貌。一种方法是使用电子显微镜直接观察核径迹微孔膜，未热处理样品的微孔最大，110℃、130℃、170℃热处理样品的微孔依次变小。蚀刻微孔的变化表明热处理使核径迹退火，热处理温度越高退火越快。另一种方法是将核径迹微孔膜作为模板，使用电化学镀沉积制备纳米线的方法在核径迹微孔中沉积铜，制备复制核径迹蚀刻微孔形貌的铜样品，然后使用扫描电子显微镜观察铜样品。铜样品表面观察看到复刻了半个核径迹微孔形貌的微小圆锥，未进行热处理样品对应的微锥最大，130℃和 170℃热处理样品的对应的微锥依次变小，与直接观察核径迹蚀刻微孔形貌结果一致。

核径迹；退火；热处理；化学蚀刻

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