Contact Burn Injuries: Experimental Assessments of Short Duration Contact Exposures

2021 IEEE International Symposium on Product Compliance Engineering (ISPCE) Pub Date : 2021-09-20 DOI:10.1109/ISPCE51668.2021.9861363

F. Colella, Michael Barry, James Vickery

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Abstract

The quantification of contact burn injury risk is an important part of many product development cycles and hazard assessments for industrial processes. Two well-known standards relied upon for performing these assessments are primarily based on experiments conducted in the 1940s. Partially due to the manner in which these experiments were conducted, the standards implicitly make the assumption that the objects have a semi-infinite reservoir of energy. In this paper, a series of experiments were conducted by taking thermesthesiometer measurements of different materials, having different thicknesses, at different temperatures. In general, the risk of a burn injury occurring shows little dependence on the thickness of the material. In this way, for short term exposures, a surface temperature measurement of the object is likely sufficient to assess the risk of a burn injury occurring. Measurements did confirm, however, that for longer exposures with thinner materials, the severity of the heat exposure decreases, likely due to the energy dissipating from the limited thermal mass of the object.

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接触性烧伤:短时间接触暴露的实验评估

接触性烧伤风险的量化是许多产品开发周期和工业过程危害评估的重要组成部分。进行这些评估所依赖的两个众所周知的标准主要基于20世纪40年代进行的实验。部分由于这些实验的进行方式，这些标准隐含地假设物体具有半无限的能量库。本文采用热测仪对不同厚度的不同材料在不同温度下进行了一系列实验。一般来说，发生烧伤的风险与材料的厚度关系不大。这样，对于短期暴露，物体的表面温度测量可能足以评估发生烧伤的风险。然而，测量确实证实，对于较薄材料的长时间暴露，热暴露的严重程度会降低，这可能是由于物体有限的热质量消散了能量。

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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2021 IEEE International Symposium on Product Compliance Engineering (ISPCE)

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