TTT Diagram Used to Control Phase Structure of 2/4 Functional Epoxy Blends for Advanced Composites

Zhang Ming; An Xuefeng; Tang Bangming; Yi Xiaosu

doi:10.1016/S1000-9361(08)60124-7

TTT Diagram Used to Control Phase Structure of 2/4 Functional Epoxy Blends for Advanced Composites

Zhang Ming, An Xuefeng, Tang Bangming, Yi Xiaosu

Research output: Journal Publication › Article › peer-review

2 Citations (Scopus)

Abstract

This article uses a 2/4 functional epoxy blend system (E-54/AG-80) cured with diaminodiphenyl sulphone(DDS) as a raw material and develops a methodological procedure to establish a cure kinetic model with isothermal and dynamic differential scanning calorimeter(DSC) method and a gelation model with round-disk compression mode dynamic mechanical analyzer(DMA), thus acquiring a series of experimental data. Characteristic temperatures such as initial glass transition temperature T_g0, gelation glass transition temperature _gelT_g, and infinite glass transition temperature T_g∞ are determined. The cure degree at gelation is turned out to be 0.45, while _gelT_g is found to be 70.2 °C. The data are then used to form time-temperature-transition(TTT) diagram of the system, which serves to be a tool for process optimization of epoxy-matrix composites. A new cure processing is therefore derived from the TTT diagram. The final phase structure obtained from a controllable method is identified through scanning electron microscope(SEM) photographs to be of 'ex-situ' phase morphology.

Original language	English
Pages (from-to)	449-452
Number of pages	4
Journal	Chinese Journal of Aeronautics
Volume	22
Issue number	4
DOIs	https://doi.org/10.1016/S1000-9361(08)60124-7
Publication status	Published - Aug 2009
Externally published	Yes

Keywords

TTT diagram
composites
epoxy resins
phase structure

ASJC Scopus subject areas

Aerospace Engineering
Mechanical Engineering

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10.1016/S1000-9361(08)60124-7

Cite this

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title = "TTT Diagram Used to Control Phase Structure of 2/4 Functional Epoxy Blends for Advanced Composites",

abstract = "This article uses a 2/4 functional epoxy blend system (E-54/AG-80) cured with diaminodiphenyl sulphone(DDS) as a raw material and develops a methodological procedure to establish a cure kinetic model with isothermal and dynamic differential scanning calorimeter(DSC) method and a gelation model with round-disk compression mode dynamic mechanical analyzer(DMA), thus acquiring a series of experimental data. Characteristic temperatures such as initial glass transition temperature Tg0, gelation glass transition temperature gelTg, and infinite glass transition temperature Tg∞ are determined. The cure degree at gelation is turned out to be 0.45, while gelTg is found to be 70.2 °C. The data are then used to form time-temperature-transition(TTT) diagram of the system, which serves to be a tool for process optimization of epoxy-matrix composites. A new cure processing is therefore derived from the TTT diagram. The final phase structure obtained from a controllable method is identified through scanning electron microscope(SEM) photographs to be of 'ex-situ' phase morphology.",

keywords = "TTT diagram, composites, epoxy resins, phase structure",

author = "Zhang Ming and An Xuefeng and Tang Bangming and Yi Xiaosu",

note = "Funding Information: *Corresponding author. Tel.: +86-10-62496740. E-mail address: xiaosu.yi@gmail.com Foundation item: National Basic Research Program of China (2003CB615604) 1000-9361 {\textcopyright} 2009 Elsevier Ltd. Open access under CC BY-NC-ND license. doi:10.1016/S1000-9361(08)60124-7",

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doi = "10.1016/S1000-9361(08)60124-7",

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T1 - TTT Diagram Used to Control Phase Structure of 2/4 Functional Epoxy Blends for Advanced Composites

AU - Ming, Zhang

AU - Xuefeng, An

AU - Bangming, Tang

AU - Xiaosu, Yi

N1 - Funding Information: *Corresponding author. Tel.: +86-10-62496740. E-mail address: xiaosu.yi@gmail.com Foundation item: National Basic Research Program of China (2003CB615604) 1000-9361 © 2009 Elsevier Ltd. Open access under CC BY-NC-ND license. doi:10.1016/S1000-9361(08)60124-7

PY - 2009/8

Y1 - 2009/8

N2 - This article uses a 2/4 functional epoxy blend system (E-54/AG-80) cured with diaminodiphenyl sulphone(DDS) as a raw material and develops a methodological procedure to establish a cure kinetic model with isothermal and dynamic differential scanning calorimeter(DSC) method and a gelation model with round-disk compression mode dynamic mechanical analyzer(DMA), thus acquiring a series of experimental data. Characteristic temperatures such as initial glass transition temperature Tg0, gelation glass transition temperature gelTg, and infinite glass transition temperature Tg∞ are determined. The cure degree at gelation is turned out to be 0.45, while gelTg is found to be 70.2 °C. The data are then used to form time-temperature-transition(TTT) diagram of the system, which serves to be a tool for process optimization of epoxy-matrix composites. A new cure processing is therefore derived from the TTT diagram. The final phase structure obtained from a controllable method is identified through scanning electron microscope(SEM) photographs to be of 'ex-situ' phase morphology.

AB - This article uses a 2/4 functional epoxy blend system (E-54/AG-80) cured with diaminodiphenyl sulphone(DDS) as a raw material and develops a methodological procedure to establish a cure kinetic model with isothermal and dynamic differential scanning calorimeter(DSC) method and a gelation model with round-disk compression mode dynamic mechanical analyzer(DMA), thus acquiring a series of experimental data. Characteristic temperatures such as initial glass transition temperature Tg0, gelation glass transition temperature gelTg, and infinite glass transition temperature Tg∞ are determined. The cure degree at gelation is turned out to be 0.45, while gelTg is found to be 70.2 °C. The data are then used to form time-temperature-transition(TTT) diagram of the system, which serves to be a tool for process optimization of epoxy-matrix composites. A new cure processing is therefore derived from the TTT diagram. The final phase structure obtained from a controllable method is identified through scanning electron microscope(SEM) photographs to be of 'ex-situ' phase morphology.

KW - TTT diagram

KW - composites

KW - epoxy resins

KW - phase structure

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DO - 10.1016/S1000-9361(08)60124-7

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VL - 22

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JO - Chinese Journal of Aeronautics

JF - Chinese Journal of Aeronautics

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ER -

TTT Diagram Used to Control Phase Structure of 2/4 Functional Epoxy Blends for Advanced Composites

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Keywords

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