Thermal Exposure Assessment by Quantitative Microscopy and Selective Etching

ASM Failure Analysis Case Histories: Power Generating Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.power.c9001571

G. V. Vander Voort

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Abstract

The accident at Three Mile Island Unit No. 2 on 28 March 1979 was the worst nuclear accident in US history. By Jan 1990, it was possible to electrochemically machine coupons from the lower head using a specially designed tool. The specimens contained the ER308L stainless steel cladding and the A533 Grade B plate material to a depth of about mid-wall. The microstructures of these specimens were compared to that of specimens cut from the Midland, Michigan reactor vessel, made from the same grade and thickness but never placed in service. These specimens were subjected to known thermal treatments between 800 and 1100 deg C for periods of 1 to 100 min. Microstructural parameters in the control specimens and in those from TMI-2 were quantified. Selective etchants were used to better discriminate desired microstructural features, particularly in the cladding. This report is a progress report on the quantification of changes in both the degree of carbide precipitation and delta ferrite content and shape in the cladding as a function of temperature and time to refine the estimates of the maximum temperatures experienced.

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定量显微镜和选择性蚀刻热暴露评估

1979年3月28日发生在三里岛2号机组的事故是美国历史上最严重的核事故。到1990年1月，使用一种特殊设计的工具，可以用电化学方法从下头部加工优惠券。样品采用ER308L不锈钢包层和A533 B级板材料，深度约为中壁。这些样品的显微结构与密歇根州米德兰反应堆容器上的样品进行了比较，这些样品由相同的等级和厚度制成，但从未投入使用。这些样品在800到1100摄氏度之间进行1到100分钟的热处理。对照样品和TMI-2样品的显微结构参数被量化。选择性蚀刻剂用于更好地区分所需的微观结构特征，特别是在包层中。本报告是对熔覆层中碳化物析出程度、δ铁素体含量和形状随温度和时间的变化进行量化的进展报告，以改进所经历的最高温度的估计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASM Failure Analysis Case Histories: Power Generating Equipment

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