Thermal decomposition mechanism of PBAMO

Chi Zhang; Jie Li; Yunjun Luo; Xiaomeng Li

Thermal decomposition mechanism of PBAMO

Chi Zhang, Jie Li, Yunjun Luo^*, Xiaomeng Li

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

Thermal decomposition kinetics of poly(3, 3-bisazidomethyloxetane) (PBAMO) were studied by model-free method, and thermal decomposition products were measured using combination technology of thermogravimetry/infrared spectrum/mass spectrometry (TG-IR-MS) as well. PBAMO exhibits unique decomposition process: there is no obvious weight loss stage in the TG curves after the decomposition of azide group at 210°C~270°C. The activation energy is about 150 kJ/mol at the first stage of decomposition. However, the activation energy becomes negative when the conversion is more than 0.4. The results of TG-IR-MS show that heat release in the decomposition of azide group accelerates the oxidation process of the surplus nitrogen atom, and the main product is NO. Carbon chain residues are left over caused by the consumption of oxygen.

源语言	英语
页（从-至）	22-25
页数	4
期刊	Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering
卷	28
期	10
出版状态	已出版 - 10月 2012

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title = "Thermal decomposition mechanism of PBAMO",

abstract = "Thermal decomposition kinetics of poly(3, 3-bisazidomethyloxetane) (PBAMO) were studied by model-free method, and thermal decomposition products were measured using combination technology of thermogravimetry/infrared spectrum/mass spectrometry (TG-IR-MS) as well. PBAMO exhibits unique decomposition process: there is no obvious weight loss stage in the TG curves after the decomposition of azide group at 210°C~270°C. The activation energy is about 150 kJ/mol at the first stage of decomposition. However, the activation energy becomes negative when the conversion is more than 0.4. The results of TG-IR-MS show that heat release in the decomposition of azide group accelerates the oxidation process of the surplus nitrogen atom, and the main product is NO. Carbon chain residues are left over caused by the consumption of oxygen.",

keywords = "Poly(3, 3-bisazidomethyloxetane), Thermal decomposition kinetics, Thermal decomposition mechanism",

author = "Chi Zhang and Jie Li and Yunjun Luo and Xiaomeng Li",

year = "2012",

month = oct,

language = "English",

volume = "28",

pages = "22--25",

journal = "Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering",

issn = "1000-7555",

publisher = "Chengdu University of Science and Technology",

number = "10",

}

TY - JOUR

T1 - Thermal decomposition mechanism of PBAMO

AU - Zhang, Chi

AU - Li, Jie

AU - Luo, Yunjun

AU - Li, Xiaomeng

PY - 2012/10

Y1 - 2012/10

N2 - Thermal decomposition kinetics of poly(3, 3-bisazidomethyloxetane) (PBAMO) were studied by model-free method, and thermal decomposition products were measured using combination technology of thermogravimetry/infrared spectrum/mass spectrometry (TG-IR-MS) as well. PBAMO exhibits unique decomposition process: there is no obvious weight loss stage in the TG curves after the decomposition of azide group at 210°C~270°C. The activation energy is about 150 kJ/mol at the first stage of decomposition. However, the activation energy becomes negative when the conversion is more than 0.4. The results of TG-IR-MS show that heat release in the decomposition of azide group accelerates the oxidation process of the surplus nitrogen atom, and the main product is NO. Carbon chain residues are left over caused by the consumption of oxygen.

AB - Thermal decomposition kinetics of poly(3, 3-bisazidomethyloxetane) (PBAMO) were studied by model-free method, and thermal decomposition products were measured using combination technology of thermogravimetry/infrared spectrum/mass spectrometry (TG-IR-MS) as well. PBAMO exhibits unique decomposition process: there is no obvious weight loss stage in the TG curves after the decomposition of azide group at 210°C~270°C. The activation energy is about 150 kJ/mol at the first stage of decomposition. However, the activation energy becomes negative when the conversion is more than 0.4. The results of TG-IR-MS show that heat release in the decomposition of azide group accelerates the oxidation process of the surplus nitrogen atom, and the main product is NO. Carbon chain residues are left over caused by the consumption of oxygen.

KW - Poly(3, 3-bisazidomethyloxetane)

KW - Thermal decomposition kinetics

KW - Thermal decomposition mechanism

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M3 - Article

AN - SCOPUS:84870268011

SN - 1000-7555

VL - 28

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JO - Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering

JF - Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering

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ER -

Thermal decomposition mechanism of PBAMO

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