Description Detail

Vol.27, No.6(2020-10)(360-364) 
Processing Technology and Characteristics Evaluation of Flame Retardant Nonwovens Composite Polyether Foam
以阻燃不織布複合不同密度聚氨酯發泡之加工技術及其特性評估
Yi-Jyh Kuan1, Ruei-Ren Ou1, Chen-Hung Huang2,3,4, Ching-Wen Lou5,6,7,8,9, Jia-Horng Lin1,7,8,9,10,11*
官知儀、歐睿仁、黃振鴻、樓靜文、林佳弘
In this study, the best flame retardant/hollow composite base fabric was combined with rigid polyurethane foam to change the foaming density to 60, 70 and 80 kg/m3 respectively. Finally, the effects of different foaming densities on the compressive strength test, the drop weight impact strength test and the sound absorption test were investigated. The test results show that the mechanical properties of the flame retardant non-woven composite polyurethane foam are not significantly improved, because the foaming density mainly affects the results. The flame retardant non-woven composite polyurethane foam is selected as the optimum composite
本研究選用最佳阻燃/中空複合基布與硬質聚氨酯發泡複合,改變其發泡密度分別為60、70、80 kg/m3。最後以壓縮強力測試、落重式衝擊強力測試及吸音測試進行探討不同發泡密度對於其之影響。經測試結果表明,阻燃不織布複合聚氨酯發泡的機械性能沒有明顯提升,因為主要是發泡密度影響其結果,經測試評估選出阻燃不織布複合聚氨酯發泡在密度60 kg/m3時為複合最佳參數。
Flame retardant polyester fiber, flame retardant, sound absorbing, Polyurethane foam
阻燃聚酯纖維、阻燃、吸音、聚氨酯發泡
Year Volume
2021 28.1 | 28.2
2020 27.1 | 27.2
27.3 | 27.4
27.5 | 27.6
27.7 |
2019 26.1 |
2018 25.1 |
2017 24.1 | 24.2
24.3 | 24.4
24.5 | 24.6
24.7 | 24.8
24.9 |
2016 23.1 | 23.2
23.3 | 23.4
23.5 | 23.6
23.7 | 23.8
2015 22.1 | 22.2
22.3 | 22.4
22.5 |
2014 21.1 | 21.2
21.3 |
2013 20.1 | 20.2
20.3 | 20.4
2012 19.1 | 19.2
19.3 | 19.4
2011 18.1 | 18.2
2010 17.4