Title :
Application of Atomic Force Microscopy to Assess a Copper Molten Mark Formed by Short Circuit
Author :
Gao Ao ; Zhao Chang-Zheng ; Pan Gang ; Xu Fang ; Di Man ; Gao Wei
Author_Institution :
Minist. of Public Security Shenyang Fire Res. Instn., Shenyang, China
Abstract :
A wide variety of physical and chemical detecting methods have been proposed for discriminating between an electric arc beads that caused a fire, versus one that was caused by the fire itself. The simplest proposed method claims that examination of the molten marks in a bead under a microscope will suffice to make the distinction. This paper describes the microscopic investigation of a copper molten mark formed by short circuit on a copper wire used in ordinary life in china (AC 220V). Generally, copper molten marks of the bead are examined by using optical (OM) and scanning electron microscopy (SEM). In this paper, OM and AFM were employed to investigate a molten mark formed in laboratory. AFM observation reveals that AFM could be an auxiliary method to investigate the copper molten mark formed in the fire in order to confirm the reasons of the fire.
Keywords :
arcs (electric); atomic force microscopy; copper; fires; optical microscopy; scanning electron microscopy; short-circuit currents; wires (electric); AFM; China; OM; SEM; atomic force microscopy application; chemical detection method; copper wire molten mark; electric arc bead; fire; microscopic investigation; optical microscopy; scanning electron microscopy; short circuit; Atomic force microscopy; Copper; Fires; Optical microscopy; Scanning electron microscopy; Wires; copper molten mark; electric heat; microscopic investigation; microstructure;
Conference_Titel :
Intelligent Systems Design and Engineering Applications (ISDEA), 2014 Fifth International Conference on
Conference_Location :
Hunan
Print_ISBN :
978-1-4799-4262-6
DOI :
10.1109/ISDEA.2014.55
