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Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
by Xu, Huanxiang , Zhao, Zhenbo , Liu, Zilian , Zhu, Gang , Chen, Yihua , Chen, Zijun , Li, Yinle , Jin, Zhili , Li, Jinlei , Liu, Peijiang
in acrylate‐styrene‐acrylonitrile / Acrylonitrile / Aging / aging mechanisms / Antennas / Chemical bonds / Density / Dielectric loss / Dielectric properties / Fiber reinforced polymers / Glass fiber reinforced plastics / Harsh environments / Humidity / hygrothermal condition / Impact strength / Investigations / lifetime prediction / Mechanical properties / Polycarbonate / Polycarbonate resins / Radiation / Relative humidity / Service life / Shear strength / Spectrum allocation / Styrene / Styrenes / Temperature / Thermodynamic properties
2023
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Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
by Xu, Huanxiang , Zhao, Zhenbo , Liu, Zilian , Zhu, Gang , Chen, Yihua , Chen, Zijun , Li, Yinle , Jin, Zhili , Li, Jinlei , Liu, Peijiang
in acrylate‐styrene‐acrylonitrile / Acrylonitrile / Aging / aging mechanisms / Antennas / Chemical bonds / Density / Dielectric loss / Dielectric properties / Fiber reinforced polymers / Glass fiber reinforced plastics / Harsh environments / Humidity / hygrothermal condition / Impact strength / Investigations / lifetime prediction / Mechanical properties / Polycarbonate / Polycarbonate resins / Radiation / Relative humidity / Service life / Shear strength / Spectrum allocation / Styrene / Styrenes / Temperature / Thermodynamic properties
2023
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Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
by Xu, Huanxiang , Zhao, Zhenbo , Liu, Zilian , Zhu, Gang , Chen, Yihua , Chen, Zijun , Li, Yinle , Jin, Zhili , Li, Jinlei , Liu, Peijiang
in acrylate‐styrene‐acrylonitrile / Acrylonitrile / Aging / aging mechanisms / Antennas / Chemical bonds / Density / Dielectric loss / Dielectric properties / Fiber reinforced polymers / Glass fiber reinforced plastics / Harsh environments / Humidity / hygrothermal condition / Impact strength / Investigations / lifetime prediction / Mechanical properties / Polycarbonate / Polycarbonate resins / Radiation / Relative humidity / Service life / Shear strength / Spectrum allocation / Styrene / Styrenes / Temperature / Thermodynamic properties
2023

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Mohammed Bin Rashid Library /
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Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions
Journal Article

Lifetime Prediction and Aging Mechanism of Glass Fiber Reinforced Acrylate‐Styrene‐Acrylonitrile/Polycarbonate Composite under Hygrothermal Conditions

Xu, Huanxiang,
Zhao, Zhenbo,
Liu, Zilian,
Zhu, Gang,
Chen, Yihua,
Chen, Zijun,
Li, Yinle,
Jin, Zhili,
Li, Jinlei,
Liu, Peijiang
2023
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Overview
The development of fifth‐generation technology has resulted in increased demand for materials with low dielectric losses and superior thermal and mechanical properties. However, ensuring the widespread use of such materials by investigating their aging mechanisms and operating lifetimes remains challenging. In this study, a glass‐fiber (GF)‐reinforced acrylate‐styrene‐acrylonitrile/polycarbonate (ASA/GF/PC) composite is designed and comprehensively investigated its aging behavior, mechanism, and service lifetime under long‐term hygrothermal conditions. Based on the general Peck model, the composite maintains a high level of quality for over 10 years, including under harsh conditions of 40 °C and 80% relative humidity. The aging mechanism is primarily ascribed to cracking between the GF fibers and matrix, the breaking of chemical bonds, the generation of new cross‐linked domains, and physical aging. These findings provide valuable insights into the long‐term utilization of ASA/GF/PC composites in harsh environments. A kind of glass fiber (GF) reinforced acrylate‐styrene‐acrylonitrile/polycarbonate (ASA/GF/PC) composite and comprehensively investigated its aging behavior, mechanism, and service lifetime under long‐term hygrothermal conditions. Assisted by the general Peck model, the composite maintains a high level of quality for over 10 years, even under harsh conditions of 40 °C and 80% relative humidity.
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Publisher
John Wiley & Sons, Inc,Wiley-VCH
Subject

acrylate‐styrene‐acrylonitrile

/ Acrylonitrile

/ Aging

/ aging mechanisms

/ Antennas

/ Chemical bonds

/ Density

/ Dielectric loss

/ Dielectric properties

/ Fiber reinforced polymers

/ Glass fiber reinforced plastics

/ Harsh environments

/ Humidity

/ hygrothermal condition

/ Impact strength

/ Investigations

/ lifetime prediction

/ Mechanical properties

/ Polycarbonate

/ Polycarbonate resins

/ Radiation

/ Relative humidity

/ Service life

/ Shear strength

/ Spectrum allocation

/ Styrene

/ Styrenes

/ Temperature

/ Thermodynamic properties

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