Synthesis and curing research of propargyl-terminated PET

Zheng Yang Qu; Jin Xian Zhai; Han Yu Zhang; Rong Jie Yang

Synthesis and curing research of propargyl-terminated PET

Zheng Yang Qu^*, Jin Xian Zhai, Han Yu Zhang, Rong Jie Yang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

6 Citations (Scopus)

Abstract

The hydroxy-terminated binder and multi-isocyanate curing system of traditional composite propellant is water-sensitive. To overcome this shortcoming, the hydroxyl groups are modified into propargyl groups which are used together with multi-azide to form a new curing system according to the click chemistry reaction. Molecular weight of 4000 ethylene oxide-tetrahydrofuran copolyether (PET4000) was used as a raw material. After being end-modified, propargyl-terminated PET4000 (C≡PET4000) was synthetized. Using a specific catalyst, C≡PET4000 was used to form a new curing system together with a curing agent of azide whose functionality is 3.8. The elastomers of different catalyst concentration and curing parameters were produced, whose mechanical properties were studied. It turns out that these properties are similar to the traditional ones.

Original language	English
Pages (from-to)	799-803
Number of pages	5
Journal	Tuijin Jishu/Journal of Propulsion Technology
Volume	33
Issue number	5
Publication status	Published - Oct 2012

Keywords

Azide
Click chemistry
C≡PET4000
PET4000

Cite this

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abstract = "The hydroxy-terminated binder and multi-isocyanate curing system of traditional composite propellant is water-sensitive. To overcome this shortcoming, the hydroxyl groups are modified into propargyl groups which are used together with multi-azide to form a new curing system according to the click chemistry reaction. Molecular weight of 4000 ethylene oxide-tetrahydrofuran copolyether (PET4000) was used as a raw material. After being end-modified, propargyl-terminated PET4000 (C≡PET4000) was synthetized. Using a specific catalyst, C≡PET4000 was used to form a new curing system together with a curing agent of azide whose functionality is 3.8. The elastomers of different catalyst concentration and curing parameters were produced, whose mechanical properties were studied. It turns out that these properties are similar to the traditional ones.",

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AU - Qu, Zheng Yang

AU - Zhai, Jin Xian

AU - Zhang, Han Yu

AU - Yang, Rong Jie

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N2 - The hydroxy-terminated binder and multi-isocyanate curing system of traditional composite propellant is water-sensitive. To overcome this shortcoming, the hydroxyl groups are modified into propargyl groups which are used together with multi-azide to form a new curing system according to the click chemistry reaction. Molecular weight of 4000 ethylene oxide-tetrahydrofuran copolyether (PET4000) was used as a raw material. After being end-modified, propargyl-terminated PET4000 (C≡PET4000) was synthetized. Using a specific catalyst, C≡PET4000 was used to form a new curing system together with a curing agent of azide whose functionality is 3.8. The elastomers of different catalyst concentration and curing parameters were produced, whose mechanical properties were studied. It turns out that these properties are similar to the traditional ones.

AB - The hydroxy-terminated binder and multi-isocyanate curing system of traditional composite propellant is water-sensitive. To overcome this shortcoming, the hydroxyl groups are modified into propargyl groups which are used together with multi-azide to form a new curing system according to the click chemistry reaction. Molecular weight of 4000 ethylene oxide-tetrahydrofuran copolyether (PET4000) was used as a raw material. After being end-modified, propargyl-terminated PET4000 (C≡PET4000) was synthetized. Using a specific catalyst, C≡PET4000 was used to form a new curing system together with a curing agent of azide whose functionality is 3.8. The elastomers of different catalyst concentration and curing parameters were produced, whose mechanical properties were studied. It turns out that these properties are similar to the traditional ones.

KW - Azide

KW - Click chemistry

KW - C≡PET4000

KW - PET4000

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M3 - Article

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SN - 1001-4055

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JF - Tuijin Jishu/Journal of Propulsion Technology

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Synthesis and curing research of propargyl-terminated PET

Abstract

Keywords

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