Effects of collagen fiber addition on the combustion and thermal stability of natural rubber

Effects of collagen fiber addition on the combustion and thermal stability of natural rubber

Abstract Collagen fiber (CF) and silane coupling agent-modified collagen fiber (MCF) were used as flame retardant filler for natural rubber (NR) modification. The combustion phenomena and properties of composites blended with different dosages of CF or MCF were compared to elucidate the flame retard...

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Main Authors: Weixing Xu, Xintao Wu, Qilin Wen, Shuangyang Li, Yongjiao Song, Bi Shi
Format: Article
Language:English
Published: SpringerOpen 2020-12-01
Series:Journal of Leather Science and Engineering
Online Access:https://doi.org/10.1186/s42825-020-00040-1
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spelling doaj-35f6973fb8904e049f28d9e8f2af121a2020-12-20T12:20:34ZengSpringerOpenJournal of Leather Science and Engineering2524-78592020-12-012111010.1186/s42825-020-00040-1Effects of collagen fiber addition on the combustion and thermal stability of natural rubberWeixing Xu0Xintao Wu1Qilin Wen2Shuangyang Li3Yongjiao Song4Bi Shi5National Engineering Research Center of Clean Technology in Leather Industry, Sichuan UniversityThe Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan UniversityNational Engineering Research Center of Clean Technology in Leather Industry, Sichuan UniversityNational Engineering Research Center of Clean Technology in Leather Industry, Sichuan UniversityDepartment of Biomass Science and Engineering, Sichuan UniversityNational Engineering Research Center of Clean Technology in Leather Industry, Sichuan UniversityAbstract Collagen fiber (CF) and silane coupling agent-modified collagen fiber (MCF) were used as flame retardant filler for natural rubber (NR) modification. The combustion phenomena and properties of composites blended with different dosages of CF or MCF were compared to elucidate the flame retardant mechanism of the composites. The flame retardancy of NR can be enhanced effectively by increasing nitrogen content (the nitrogen content of CF is about 18%), creating air pockets, and structuring the flame retardant network in the composites. MCF failed to structure a flame retardant network in the composite, indicating that its modification effects of MCF are weaker than those of CF. When CF dosage was 30 wt%, the composite can achieve the best flame retardancy, with limited oxygen index of 29.4% and without smoke and dripping during burning. This study demonstrated a new method for the flame retardant modification of NR. Graphical abstracthttps://doi.org/10.1186/s42825-020-00040-1
collection DOAJ
language English
format Article
sources DOAJ
author Weixing Xu
Xintao Wu
Qilin Wen
Shuangyang Li
Yongjiao Song
Bi Shi
spellingShingle Weixing Xu
Xintao Wu
Qilin Wen
Shuangyang Li
Yongjiao Song
Bi Shi
Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
Journal of Leather Science and Engineering
author_facet Weixing Xu
Xintao Wu
Qilin Wen
Shuangyang Li
Yongjiao Song
Bi Shi
author_sort Weixing Xu
title Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
title_short Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
title_full Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
title_fullStr Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
title_full_unstemmed Effects of collagen fiber addition on the combustion and thermal stability of natural rubber
title_sort effects of collagen fiber addition on the combustion and thermal stability of natural rubber
publisher SpringerOpen
series Journal of Leather Science and Engineering
issn 2524-7859
publishDate 2020-12-01
description Abstract Collagen fiber (CF) and silane coupling agent-modified collagen fiber (MCF) were used as flame retardant filler for natural rubber (NR) modification. The combustion phenomena and properties of composites blended with different dosages of CF or MCF were compared to elucidate the flame retardant mechanism of the composites. The flame retardancy of NR can be enhanced effectively by increasing nitrogen content (the nitrogen content of CF is about 18%), creating air pockets, and structuring the flame retardant network in the composites. MCF failed to structure a flame retardant network in the composite, indicating that its modification effects of MCF are weaker than those of CF. When CF dosage was 30 wt%, the composite can achieve the best flame retardancy, with limited oxygen index of 29.4% and without smoke and dripping during burning. This study demonstrated a new method for the flame retardant modification of NR. Graphical abstract
url https://doi.org/10.1186/s42825-020-00040-1
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AT xintaowu effectsofcollagenfiberadditiononthecombustionandthermalstabilityofnaturalrubber
AT qilinwen effectsofcollagenfiberadditiononthecombustionandthermalstabilityofnaturalrubber
AT shuangyangli effectsofcollagenfiberadditiononthecombustionandthermalstabilityofnaturalrubber
AT yongjiaosong effectsofcollagenfiberadditiononthecombustionandthermalstabilityofnaturalrubber
AT bishi effectsofcollagenfiberadditiononthecombustionandthermalstabilityofnaturalrubber
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