电气火灾中的电弧熔痕特征与外热关系

王莉; 方仕童; 余圣辉; 梁栋

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电气火灾中的电弧熔痕特征与外热关系

研究论文 | 更新时间：2023-12-11

- 电气火灾中的电弧熔痕特征与外热关系
- The Relationship Between the Melted Mark of Short Circuited Arc and External Heat in Electrical Fire
- 中山大学学报(自然科学版)(中英文) 2015年54卷第2期页码：1-7
- 作者机构：
  
  中山大学工学院∥广东省消防科学技术重点实验室,广东,广州,510006
- 作者简介：
- 基金信息：
- DOI：
  中图分类号：
- 纸质出版日期：2015，
  
  网络出版日期：2015-3-25，
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王莉, 方仕童, 余圣辉, 等. 电气火灾中的电弧熔痕特征与外热关系[J]. 中山大学学报(自然科学版)(中英文), 2015,54(2):1-7.

WANG Li, FANG Shitong, YU Shenghui, et al. The Relationship Between the Melted Mark of Short Circuited Arc and External Heat in Electrical Fire[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2015,54(2):1-7.
王莉, 方仕童, 余圣辉, 等. 电气火灾中的电弧熔痕特征与外热关系[J]. 中山大学学报(自然科学版)(中英文), 2015,54(2):1-7. DOI：

WANG Li, FANG Shitong, YU Shenghui, et al. The Relationship Between the Melted Mark of Short Circuited Arc and External Heat in Electrical Fire[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2015,54(2):1-7. DOI：

摘要

为建立电气火灾物证鉴定关于一次短路熔痕和二次短路熔痕的量化分析，研究外热条件对短路熔痕的影响，借助X射线衍射仪和扫描电镜及能谱仪，分析短路熔痕的微观结构和成份信息。实验结果显示：在特定的热处理时间变化趋势下，一次短路熔痕晶粒大小的发展趋势与热处理时间趋势一致，二次短路熔痕晶粒大小的发展方向与热处理时间的变化趋势相反，而且，一次短路熔痕织构系数的平均值随外热温度的上升，先增大后减小，二次短路熔痕织构系数的平均值只在较小数值范围内波动。进一步分析短路熔痕不同区域的化学成份发现，一次短路熔痕和二次短路熔痕主要含有C、O和Cu三种元素，在熔痕的沉积层，一次短路熔痕的氧含量约为6%，二次短路熔痕的氧含量约为3%，但在熔痕基体区，一次短路熔痕和二次短路熔痕的氧含量基本无变化，均在3%左右，不随外热温度和热处理时间变化。从研究结果可知，在600 ℃内的电气火灾中，短路熔痕随外热温度和热处理时间变化的相关数据可以成为短路熔痕量化分析的基础。

Abstract

With the help of the powder X-ray diffraction

scanning electron microscope and energy dispersive spectroscopy

the PSM and SSM were studied to develop the quantitative analyses and demonstrate the relationship between the phase transition of copper melted mark the external heat condition in electrical fire. It is found that it is different for the trend of the grain size with the heat treatment time between PSM and SSM

and the curves of the texture coefficient with the heat treatment temperature between PSM and SSM shows the respective trend obviously. The chemical composition

included mainly carbon

oxygen and copper. The ratios of oxygen for the PSM is about 6%

and the ratio of oxygen for the SSM is about 3% in deposition layer. The atomic ratio of oxygen has not changed very much basically in the melted mark substrate

and it is at around 3% both PSM and SSM. The external heat has a different influence on phase transition of PSM and SSM

and the microstructure could reveal clearly

therefore

it is possible to set up the quantitative analyses for short circuit melted mark.

关键词

火灾短路熔痕

Keywords

firemelted markshort circuit

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