共查询到16条相似文献,搜索用时 78 毫秒
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通过对铺地材料临界辐射通量试验进行实验研究,依据测量结果进行系统分析,探讨其不确定度的评定方法。 相似文献
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对铺地材料临界辐射通量试验进行试验研究,确定烟道内气体流速、辐射通量校正曲线、基材及试件连接方式等因素对试验的影响,探讨上述因素对试验结果产生影响的原因及方式,并提出为保证实验结果准确有效应采取的措施。通过对软质地板胶的试验过程及产烟曲线进行分析,指出临界辐射通量试验方法的不足并提出改进建议。 相似文献
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简要介绍了一种铺地材料燃烧性能的评定方法、评定方法的测试原理和测试过程,并对测试过程的质量控制提出一些意见和建议。 相似文献
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几种铺地材料燃烧性能的锥形量热计研究 总被引:2,自引:1,他引:1
利用锥形量热计对几种铺地材料的燃烧性能进行了研究。对几种各种铺地材料在不同热辐射条件下的点燃时间、热释放速率、质量损失速率、CO/CO2生成率等燃烧特性进行了定量研究,综合评价了材料的燃烧性能,初步探讨了机理。 相似文献
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运用层次分析法,在分析铺地材料火灾危险性的基础上,建立了以火势增长指数、放热指数、发烟指数、毒性气体生成速率指数以及火焰蔓延指数为因素的铺地材料火灾危险性综合评价模型,克服单参数评价的不足,力求全面反映铺地材料的火灾危险;并利用该模型,在进行锥形量热计以及辐射热源实验取得相关数据的基础上,对几种典型的铺地材料进行了火灾危险性综合评价。 相似文献
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弹性地板因其质轻、安装简单、性能稳定等优点被广泛应用于室内外装修。临界热辐射通量是表征铺地材料在外部热辐射条件下火焰蔓延能力高低的检测项目。本文对PVC地板、LVT地板、WPC地板、SPC地板、橡胶地板和亚麻地板的临界热辐射通量检测结果进行比较。结果表明,PVC同透地板、LVT地板、WPC地板、SPC地板的临界热辐射通量值基本可达8.0kW/m2以上,燃烧性能等级达到B1(B-s1)级,PVC复合地板、橡胶地板及亚麻地板的燃烧性能稍差,燃烧性能等级一般在B1(C-s1)级。 相似文献
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锥形量热计不但可以直接测量出材料的某些燃烧特性数据(如热释放速率、质量损失率、点燃时间等),而且可以根据所测得的数据间接得出材料的其它燃烧特性数据。笔者介绍了一种从锥形量热计测得的数据推导临界辐射能流和点燃温度的方法。 相似文献
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A simplified calculation method for estimating heat flux from ceiling radiant panels 总被引:1,自引:0,他引:1
In this paper, we have developed a calculation method for estimating heat fluxes from ceiling radiant panels, using pipe density on panels and the temperature difference between the room air and the supply water. We then measured heat fluxes from panels in an environmental test room. After comparing the values estimated by our calculation method to the experiment's data, the calculated values closely match the values obtained from experiments, which means that this calculation method is practical in estimating the radiant panel performance in the design phase. 相似文献
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考虑暴露表面积情况的火灾载荷的确定方法 总被引:2,自引:0,他引:2
主要研究可燃物表面积和厚度对估测释热速率的影响。在火灾载荷研究中包括可燃物暴露表面的研究,能更好的估算轰燃发生后可燃物燃烧的速率和时间。研究表明释热速率是表面积的一个函数,而燃烧时间是可燃物厚度的一个函数。轰燃后着火房间内可燃物的燃烧行为与暴露表面有关。 相似文献
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A systematic empirical and analytical study was conducted to directly quantify the effect of enhanced ambient oxygen concentration on flame heat flux at bench scale and its ability to represent large-scale flame heat flux of well-ventilated fires. The Advanced Flammability Measurements Apparatus was used to conduct bench scale horizontal and single wall vertical orientation experiments for black polymethylmethacrylate, propylene gas and black polyoxymethylene. The key aspect of this study was direct experimental measurements of flame heat flux back to the burning surface for 20.9–40% ambient oxygen concentrations over a range of applied heat flux. The total flame heat flux, as well as the radiative and convective components, was experimentally measured with various gages. To gain more insight into the effects of oxygen, the flame emissivity, flame height and flame temperature were measured and used to calculate the radiative and convective components of the flame heat flux. Gas burner experiments were conducted to decouple the solid and gas phase effects of the ambient oxygen. Large scale tests of black polymethylmethacrylate were conducted in a horizontal orientation and literature data was used for single wall vertical orientations for comparison to the bench scale, enhanced oxygen results. The main conclusion is that the flame heat flux in enhanced ambient oxygen bench scale does not simulate large-scale flame heat flux in horizontal orientations but simulates a more severe large-scale geometry (parallel wall) in vertical orientations and is useful for evaluation of materials’ vertical flame spread potential. 相似文献