Effects of Surface Characteristics and Morphology of Carbon Materials on Combustion and Thermal Decomposition of Flame Retardant Epoxy Resin

Fang Wang; Jian-wei Hao; Zhuo-shi Li; Hong-fei Zou

doi:10.11777/j.issn1000-3304.2016.15329

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Effects of Surface Characteristics and Morphology of Carbon Materials on Combustion and Thermal Decomposition of Flame Retardant Epoxy Resin

Research Article | 更新时间：2021-03-19

- Effects of Surface Characteristics and Morphology of Carbon Materials on Combustion and Thermal Decomposition of Flame Retardant Epoxy Resin
- Acta Polymerica Sinica Issue 7, Pages: 860-870(2016)
- 作者机构：
  
  1. 北京理工大学材料学院,北京,100081
  2. 北京市公安局消防局丰台支队,北京,100039
  3. 宝胜科技创新股份有限公司江苏省特种电缆材料及可靠性研究重点实验室,扬州,225800
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2016.15329
  CLC：
- Published：20 July 2016，
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Fang Wang, Jian-wei Hao, Zhuo-shi Li, Hong-fei Zou. Effects of Surface Characteristics and Morphology of Carbon Materials on Combustion and Thermal Decomposition of Flame Retardant Epoxy Resin. [J]. Acta Polymerica Sinica (7):860-870(2016)
DOI：

Fang Wang, Jian-wei Hao, Zhuo-shi Li, Hong-fei Zou. Effects of Surface Characteristics and Morphology of Carbon Materials on Combustion and Thermal Decomposition of Flame Retardant Epoxy Resin. [J]. Acta Polymerica Sinica (7):860-870(2016) DOI： 10.11777/j.issn1000-3304.2016.15329.

摘要

将制备的4种植物基多孔碳

甘蔗渣炭(SBC)、竹叶炭(BLC)、稻壳炭(RHC)及竹茎炭(BSC)

以及购置的椰壳炭(CSC)、果壳炭(NSC)、碳纳米管(CNTs)及可膨胀石墨(EG)分别与聚磷酸铵(APP)复合用于阻燃环氧树脂(EP)

研究了碳材料比表面积、表面活性及微观形貌对APP阻燃EP燃烧和热解行为的影响.物理吸附仪、X射线光电子能谱仪(XPS)、扫描电镜研究指出

颗粒状竹茎多孔碳(BSC)的比表面积(2063 m2/g)及表面活性基团C-O-、C O及COO-的比例显著大于其他碳材料;各种碳材料均以微米级尺度分布于阻燃EP基体.氧指数(LOI)、UL 94垂直燃烧及锥形量热仪研究表明

0.8 wt% BSC或CNTs与3.1 wt% APP协同阻燃EP的LOI分别由EP的24.6%提高到27.3%和27.6%

UL 94均为V-1级

峰值热释放速率分别比EP/APP降低了27%和28%.碳材料的协同阻燃效果主要取决于微观形貌;对于颗粒状多孔碳

其比表面积、O/C比及表面活性基团比例越大

协同阻燃效果越好.热失重分析、共聚焦拉曼光谱及XPS研究证实

碳材料提高了EP/APP复合材料的初始分解温度和残炭量;大的比表面及表面活性

以及管状形貌能够提高环氧树脂复合材料高温残炭量、促进残炭类石墨化转变、改善残炭耐高温氧化性能.

Abstract

Four kinds of prepared plant-based porous carbon materials

including sugarcane bagasse carbon (SBC)

bamboo leaf carbon (BLC)

rice husk carbon (RHC)

bamboo stalk carbon (BSC)

as well as purchased carbon materials including

coconut shell charcoal (CSC)

nut shell carbon (NSC)

carbon nanotubes (CNTs)

expansible graphite (EG)

were respectively used in flame retardant epoxy resin (EP) with ammonium polyphosphate (APP).The influences of specific surface area

surface activity and morphology of carbon materials on combustion performances and thermal decomposition of flame retardant EP were investigated.The studies by physical adsorption (BET method)

X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy indicated that all the carbon materials were micron-size dispersed in EP

and BSC had higher specific surface area (2063 m2/g) and larger contents of surface active groups such as C-C

C-O-

C O and COO- than others carbon materials.Meanwhile

the respective addition of BSC (0.8 wt%) and CNTs (0.8 wt%) in EP/APP (3.1 wt%) increased the LOI from 24.6% to 27.3% and 27.6%

resulted in V-1 rate in UL 94 test

and decreased the peak heat release rate by 27% and 28% from the cone calorimeter test (Cone)

compared to EP/APP.The results show that the synergic effects mainly depend on the morphology; particle shaped carbon materials with the larger specific surface area

O/C ratio and higher active group contents have excellent flame retardancy.Moreover

thermo-gravimetric analysis (TGA)

confocal Raman spectroscopy (CRS) and XPS study confirmed that carbon materials can improve the initial pyrolysis temperature and increase the residual char value of EP/APP.The large specific surface area and high surface activity as well as tubulose morphology not only increased the residual char value

promoted the formation of graphite-like char but also improved the pyro-oxidation of char.

关键词

碳材料聚磷酸铵环氧树脂燃烧性能热解行为

Keywords

Carbon materialsAmmonium polyphosphateEpoxy resinCombustion performanceThermal decomposition

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School of Chemistry and Materials Science, Guizhou Normal University

Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences

ZheJiang Shiny New Materials Co., Ltd.

Key Laboratory of Bio-based Polymeric Materials Technology and Application of Zhejiang Province, Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences

School of Chemical Engineering and Technology, Sun Yat-sen University

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