Study on influence of terminal structure on mechanical properties of GAP elastomers

Jinxian Zhai; Zhongqing Shan; Jianmin Li; Xiaodong Li; Xiaoyan Guo; Rongjie Yang

doi:10.1002/app.38186

Study on influence of terminal structure on mechanical properties of GAP elastomers

Jinxian Zhai^*, Zhongqing Shan, Jianmin Li, Xiaodong Li, Xiaoyan Guo, Rongjie Yang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

To improve mechanical properties of glycidyl azide polymer (GAP) elastomer, primary hydroxyl terminated GAP prepolymer (PH-GAP) has been synthesized by end-capping modification of GAP using carbamate reaction. FTIR, ¹³C-NMR, GPC results indicate that the functionality, molecular weight, and molecular weight distribution of PH-GAP are consistent with those of the original GAP. Mechanical tests indicate that mechanical properties of PH-GAP elastomer are much better than those of GAP elastomer. Swelling tests discover that the apparent molecular weight of the network chain in PH-GAP elastomer is much less than that of the original GAP elastomer, and PH-GAP elastomer has much perfect network structure. Network structure defect is the main factor causing inferior mechanical properties, and the GAP prepolymer terminal structure plays an outstanding role in the mechanical properties of its cross-linked elastomers.

Original language	English
Pages (from-to)	2319-2324
Number of pages	6
Journal	Journal of Applied Polymer Science
Volume	128
Issue number	4
DOIs	https://doi.org/10.1002/app.38186
Publication status	Published - 15 May 2013

Keywords

glycidyl azide polymer
mechanical properties
network chain molecular weight
terminal structure

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10.1002/app.38186

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title = "Study on influence of terminal structure on mechanical properties of GAP elastomers",

abstract = "To improve mechanical properties of glycidyl azide polymer (GAP) elastomer, primary hydroxyl terminated GAP prepolymer (PH-GAP) has been synthesized by end-capping modification of GAP using carbamate reaction. FTIR, 13C-NMR, GPC results indicate that the functionality, molecular weight, and molecular weight distribution of PH-GAP are consistent with those of the original GAP. Mechanical tests indicate that mechanical properties of PH-GAP elastomer are much better than those of GAP elastomer. Swelling tests discover that the apparent molecular weight of the network chain in PH-GAP elastomer is much less than that of the original GAP elastomer, and PH-GAP elastomer has much perfect network structure. Network structure defect is the main factor causing inferior mechanical properties, and the GAP prepolymer terminal structure plays an outstanding role in the mechanical properties of its cross-linked elastomers.",

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author = "Jinxian Zhai and Zhongqing Shan and Jianmin Li and Xiaodong Li and Xiaoyan Guo and Rongjie Yang",

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T1 - Study on influence of terminal structure on mechanical properties of GAP elastomers

AU - Zhai, Jinxian

AU - Shan, Zhongqing

AU - Li, Jianmin

AU - Li, Xiaodong

AU - Guo, Xiaoyan

AU - Yang, Rongjie

PY - 2013/5/15

Y1 - 2013/5/15

N2 - To improve mechanical properties of glycidyl azide polymer (GAP) elastomer, primary hydroxyl terminated GAP prepolymer (PH-GAP) has been synthesized by end-capping modification of GAP using carbamate reaction. FTIR, 13C-NMR, GPC results indicate that the functionality, molecular weight, and molecular weight distribution of PH-GAP are consistent with those of the original GAP. Mechanical tests indicate that mechanical properties of PH-GAP elastomer are much better than those of GAP elastomer. Swelling tests discover that the apparent molecular weight of the network chain in PH-GAP elastomer is much less than that of the original GAP elastomer, and PH-GAP elastomer has much perfect network structure. Network structure defect is the main factor causing inferior mechanical properties, and the GAP prepolymer terminal structure plays an outstanding role in the mechanical properties of its cross-linked elastomers.

AB - To improve mechanical properties of glycidyl azide polymer (GAP) elastomer, primary hydroxyl terminated GAP prepolymer (PH-GAP) has been synthesized by end-capping modification of GAP using carbamate reaction. FTIR, 13C-NMR, GPC results indicate that the functionality, molecular weight, and molecular weight distribution of PH-GAP are consistent with those of the original GAP. Mechanical tests indicate that mechanical properties of PH-GAP elastomer are much better than those of GAP elastomer. Swelling tests discover that the apparent molecular weight of the network chain in PH-GAP elastomer is much less than that of the original GAP elastomer, and PH-GAP elastomer has much perfect network structure. Network structure defect is the main factor causing inferior mechanical properties, and the GAP prepolymer terminal structure plays an outstanding role in the mechanical properties of its cross-linked elastomers.

KW - glycidyl azide polymer

KW - mechanical properties

KW - network chain molecular weight

KW - terminal structure

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DO - 10.1002/app.38186

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SP - 2319

EP - 2324

JO - Journal of Applied Polymer Science

JF - Journal of Applied Polymer Science

IS - 4

ER -

Study on influence of terminal structure on mechanical properties of GAP elastomers

Abstract

Keywords

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