Results 41 to 50 of about 1,274,604 (303)

Long-term creep behavior of self-reinforced PET composites

eXPRESS Polymer Letters, 2017
Creep deformation of polymers results from their inherent viscoelastic nature that changes polymer’s shape with time. Creep response represents an important property of thermoplastic composites that affects their dimensional stability, especially in ...
C. M. Wu, P. C. Lin, R. Murakami
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Creep analysis of the flax fiber-reinforced polymer composites based on the time–temperature superposition principle

Science and Engineering of Composite Materials, 2023
Natural plant fiber-reinforced polymer composites (PFRP) have emerged as an environmental-friendly material in the construction industry, but their creep behavior is a critical concern for load-bearing structures.
Xu Bowen, van den Hurk Bart, Lugger Sean J. D., Blok Rijk, Teuffel Patrick   +4 more
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Prediction Formula Describing Viscoelasticity of Unvulcanized Rubber Compound Based on Time-Temperature Equivalent Superposition Principle

International Journal of Polymer Science, 2023
Fitting unvulcanized rubber compound’s (URC) dynamic viscoelasticity prediction formula and then constructing its mechanical constitutive model are of great significance for studying defect mechanisms in rubber products.
Yong Li, Xunhua Sun, Yanan Miao, Shuang Zhang, Fangkai Guo, Long Chen   +5 more
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Determination of the Linear Viscoelastic Material Behaviour of Interlayers with Semi-Crystalline Structures

Challenging Glass Conference Proceedings, 2022
The temperature dependent linear viscoelastic material behaviour of the most commonly used interlayer PVB is typically determined by means of Dynamic-Mechanical-Thermal-Analysis (DMTA).
Miriam Schuster
doaj  

A theoretical framework underlying an accelerated testing method and its application to composites under constant strain rates and fatigue loading

Science and Engineering of Composite Materials, 2022
A theoretical framework that underlies an accelerated testing method for unidirectional (UD) composites is proposed in this article, based on the continuum damage mechanics and time–temperature superposition.
Xu Fei, Arthur Jones Ivor, Li Shuguang
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Modelling creep responses of plantain fibre reinforced HDPE (PFRHDPE) for elevated temperature applications

Advanced Industrial and Engineering Polymer Research, 2023
The growth in applications of Plantain Fibre Reinforced HDPE (PFRHDPE) has increased the importance of understanding the time-dependent viscoelastic properties such as creep resistance.
Christopher Chukwutoo Ihueze, Christian Emeka Okafor, Uchendu Onwusoronye Onwurah, Sylvester Nnaemeka Obuka, Queeneth Adesuwa Kingsley-omoyibo   +4 more
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Impact properties of polydimethylsiloxane copolymerized polycarbonate and application of the time-temperature superposition principle

Nihon Kikai Gakkai ronbunshu, 2014
In this study, high-speed tensile testing for notched specimen is conducted to investigate the impact property of Polydimethylsiloxane copolymerized Polycarbonate (PDMS-PC) compared with Polycarbonate (PC).
Makoto ANDO, Nao-Aki NODA, Yoshihito KUROSHIMA, Yasuhiro ISHIKAWA, Hidetoshi TAKEDA   +4 more
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Experimentally simulating adiabatic behaviour: Capturing the high strain rate compressive response of polymers using low strain rate experiments with programmed temperature profiles

Polymer Testing, 2022
Polymers are widely used in applications where they may be subjected to impact loading leading to high strain rate deformation. Plastic work on deformation generates heat in the material.
Akash R. Trivedi, Peihao Song, Clive R. Siviour   +2 more
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Integration of Atomistic Simulation with Experiment Using Time−Temperature Superposition for a Cross‐Linked Epoxy Network

Macromolecular Theory and Simulations, 2019
Quantitative comparison of atomistic simulations with experiment for glass-forming materials is made difficult by the vast mismatch between computationally and experimentally accessible timescales.
Ketan S Khare, Frederick R. Phelan Jr.
semanticscholar   +1 more source

Complex thermorheology of living cells

New Journal of Physics, 2015
Temperature has a reliable and nearly instantaneous influence on mechanical responses of cells. As recently published, MCF-10A normal epithelial breast cells follow the time–temperature superposition (TTS) principle.
B U S Schmidt, T R Kießling, E Warmt, A W Fritsch, R Stange, J A Käs   +5 more
doaj   +1 more source